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Entergy Pre-Filed Evidentiary Hearing Exhibit ENT000484 - NYIS0, 2011 Load & Capacity Data Gold Book (Apr. 2011)
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Site:	Indian Point
Issue date:	04/30/2011
From:	; New York Independent System Operator
To:	; Atomic Safety and Licensing Board Panel
	SECY RAS
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ENT000484 Submitted: March 30, 2012 2011 Load & Capacity Data A report by The New York Independent System Operator "Gold Book" 1

Originally Released April 2011 Version 1 2

NEW YORK INDEPENDENT SYSTEM OPERATOR 2011 LOAD & CAPACITY DATA TABLE OF CONTENTS OVERVIEW ............................................................................................................................... 5 SECTION I: FORECASTS OF ANNUAL ENERGY, PEAK DEMAND, AND EMERGENCY DEMAND RESPONSE PROGRAM ............................................................ 9 TABLE I-1: NYCA ENERGY AND DEMAND FORECASTS WITH STATEWIDE ENERGY EFFICIENCY IMPACTS ......... 11 TABLE I-2A: BASELINE FORECAST OF ANNUAL ENERGY & COINCIDENT PEAK DEMAND ................................... 12 TABLE I-2B: BASELINE FORECAST OF NON-COINCIDENT PEAK DEMAND ........................................................... 13 TABLE I-2C: BASELINE FORECAST OF COINCIDENT SUMMER PEAK DEMAND & EDRP ...................................... 14 TABLE I-2D: 90TH PERCENTILE OF BASELINE FORECAST ...................................................................................... 15 TABLE I-2E: 10TH PERCENTILE OF BASELINE FORECAST ...................................................................................... 16 TABLE I-2F: ENERGY EFFICIENCY SAVINGS ........................................................................................................ 17 TABLE I-3A: ECONOMETRIC FORECAST OF ANNUAL ENERGY & PEAK DEMAND ................................................ 18 TABLE I-3B: ECONOMETRIC FORECAST OF NON-COINCIDENT PEAK DEMAND .................................................... 19 TABLE I-3C: ECONOMETRIC FORECAST OF SUMMER PEAK DEMAND & EDRP.................................................... 20 TABLE I-4A: HISTORIC ENERGY REQUIREMENTS AND COINCIDENT PEAKS ......................................................... 21 TABLE I-4B: HISTORIC NON-COINCIDENT PEAKS ................................................................................................ 22 SECTION II: CHANGES IN EXISTING GENERATION CAPACITY SINCE 2010 LOAD AND CAPACITY DATA REPORT .......................................................................... 23

SUMMARY

OF SIGNIFICANT CHANGES IN GENERATION AND GENERATING FACILITIES SINCE 2010 LOAD AND CAPACITY DATA REPORT .................................................................................................................................... 25 TABLE II-1:

SUMMARY

OF CHANGES IN GENERATING FACILITIES....................................................................... 25 SECTION III: EXISTING GENERATING CAPACITY ................................................... 27 TABLE III-1: EXISTING GENERATING FACILITIES CODES AND ABBREVIATION .................................................... 29 TABLE III-2: EXISTING GENERATING FACILITIES ................................................................................................ 31 TABLE III-3A: CAPABILITY BY ZONE AND TYPE - SUMMER ................................................................................ 52 TABLE III-3B: CAPABILITY BY ZONE AND TYPE - WINTER ................................................................................. 53 FIGURE III-1: 2011 NYCA CAPABILITY BY FUEL TYPE ...................................................................................... 54 FIGURE III-2: 2010 NYCA GENERATION BY FUEL TYPE ..................................................................................... 55 FIGURE III-3A: NYCA WIND PLANTS - HISTORIC INSTALLED NAMEPLATE CAPACITY* .................................... 56 FIGURE III-3B: NYCA WIND PLANTS - HISTORIC GENERATION ......................................................................... 57 SECTION IV: PROPOSED CHANGES IN GENERATING CAPACITY ....................... 59 TABLE IV-1: PROPOSED GENERATOR ADDITIONS ............................................................................................... 61 TABLE IV-2: PROPOSED GENERATOR RERATINGS ............................................................................................... 62 TABLE IV-3: GENERATOR RETIREMENTS ............................................................................................................ 63 SECTION V: PROPOSED SYSTEM RESOURCE CAPACITY ....................................... 65 LOAD AND CAPACITY SCHEDULE DESCRIPTION .................................................................................................. 67 DEFINITIONS OF LABELS ON LOAD AND CAPACITY SCHEDULE ........................................................................... 68 TABLE V-1:

SUMMARY

OF TRANSACTIONS EXTERNAL TO NYCA ...................................................................... 69 3

TABLE V-2A: NYCA LOAD AND CAPACITY SCHEDULE - SUMMER .................................................................... 70 TABLE V-2B: NYCA LOAD AND CAPACITY SCHEDULE - WINTER ...................................................................... 71 SECTION VI: EXISTING TRANSMISSION FACILITIES .............................................. 73 TABLE VI-1A: EXISTING TRANSMISSION FACILITIES - CENTRAL HUDSON GAS & ELECTRIC CORPORATION...... 75 TABLE VI-1B: EXISTING TRANSMISSION FACILITIES - CONSOLIDATED EDISON COMPANY OF NEW YORK ........ 77 TABLE VI-1C: EXISTING TRANSMISSION FACILITIES - LONG ISLAND POWER AUTHORITY ................................. 80 TABLE VI-1D: EXISTING TRANSMISSION FACILITIES - NEW YORK POWER AUTHORITY ..................................... 83 TABLE VI-1E: EXISTING TRANSMISSION FACILITIES - NEW YORK STATE ELECTRIC AND GAS CORPORATION ... 85 TABLE VI-1F: EXISTING TRANSMISSION FACILITIES - NATIONAL GRID WESTERN ............................................. 89 TABLE VI-1G: EXISTING TRANSMISSION FACILITIES - NATIONAL GRID CENTRAL ............................................. 94 TABLE VI-1H: EXISTING TRANSMISSION FACILITIES - NATIONAL GRID EASTERN............................................ 100 TABLE VI-1I: EXISTING TRANSMISSION FACILITIES - ORANGE & ROCKLAND UTILITIES ................................. 105 TABLE VI-1J: EXISTING TRANSMISSION FACILITIES - ROCHESTER GAS & ELECTRIC CORPORATION ............... 106 TABLE VI-2: MILEAGE OF EXISTING TRANSMISSION FACILITIES ...................................................................... 108 SECTION VII: PROPOSED TRANSMISSION FACILITY ADDITIONS .................... 109 4

OVERVIEW This report presents the New York Independent System Operator, Inc. (NYISO) load forecasts for the 2011 - 2021 period and the transmission and generation data for the New York Control Area (NYCA). Specifically, this report includes:

Forecasts of peak demand, energy requirements, energy efficiency, and emergency demand response; Existing and proposed resource capacity; and Existing and proposed transmission facilities.

Load Forecast The NYCA baseline summer peak demand forecast developed for this report shows an annual average growth rate of 0.73% for the years 2011 through 2021. The baseline energy forecast for the same period shows an annual average growth rate of 0.41%. In last year's report, the annual average growth rate forecast for peak demand was 0.68% for the years 2010 through 2020, and the forecasted growth rate for annual energy in that period was 0.78%. The energy growth rate in the 2011 forecast is lower than in 2010 due to a lower econometric forecast and an increase in the projected amount of energy efficiency impacts. The 2011 energy forecast for Zone K (Long Island) is growing at an annual average rate of 0.93%, lower than last year's growth of 1.01%. The corresponding 2011 growth forecast for Zone J (New York City) is 0.50% - a decrease from last year's growth rate of 0.83%.

The load forecast for the NYCA is provided in Section I. The NYISO employs a two-stage process in developing load forecasts for each zone within the NYCA. In the first stage, zonal load forecasts are based upon econometric projections prepared in March 2011. In the second stage, the NYISO adjusts the econometric forecasts to explicitly reflect a projection of the energy savings impacts resulting from statewide energy efficiency programs,1 impacts of new building codes and appliance efficiency standards, and a projection of energy usage due to 1

New York's '45x15' clean energy goal challenges the State to meet 30% of its 2007 forecast of electric energy needs in 2015 through renewable energy, and 15% by increased energy efficiency (a targeted reduction of about 26,900 GWh). As part of that effort, the New York Public Service Commission established the Energy Efficiency Portfolio Standard (EEPS). Through its participation in the EEPS Evaluation Advisory Group, the NYISO remains involved in activities directed toward the measurement and verification of the impacts obtained through the EEPS.

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electric vehicles.2 The resulting NYISO's baseline forecast is reported in Tables I-1a and I-2a.

In addition to the baseline forecast, NYISO has high and low forecasts for each zone, representing an 80% confidence interval, using the baseline forecast as the midpoint, with the high and low forecasts based only on extreme weather assumptions.

Generation and Capacity Resources The New York State Reliability Council (NYSRC) has determined that an Installed Reserve Margin (IRM) of 15.5% in excess of the NYCA summer peak demand forecast for the Capability Year 2011-12 is required to meet the Northeast Power Coordinating Council (NPCC) and NYSRC resource adequacy criterion. The NYSRC re-evaluates this IRM each year. 3 The total resource capability in the NYCA for 2011 is 42,159 MW. This includes existing NYCA capacity and resources (including demand response), all resource changes, and known purchases and sales with neighboring Control Areas. It is greater than 115.5% of the 2011 projected peak load of 32,712 MW. The total resource capability is also greater than an assumed IRM of 115.5% of projected peak load for all succeeding years through 2021. The existing capacity resources are detailed in Section III.4 In accordance with the NYISOs tariff provisions, Capacity Resource Interconnection Service (CRIS) is required in order for capacity from a generator to be offered into NYISOs Installed Capacity market. The annual Load &

2 Each year, the NYISO develops an independent projection of the degree to which statewide EEPS energy efficiency programs, building codes, and appliance efficiency standards will impact electricity usage throughout the state. New and updated information this year was obtained from staff of the New York Department of Public Service, staff from the New York Energy Research and Development Agency, staff from state power authorities and electric utilities, and through the NYISO's participation in the EEPS Evaluation Advisory Group.

3 NYSRC has the responsibility for establishing the NYCA IRM, which is, according to the Market Administration and Control Area Services Tariff, Section 2, page 41, the ratio of the amount of additional Installed Capacity required by the NYSRC in order for the NYCA to meet NPCC reliability criteria to the forecasted NYCA upcoming Capability Year peak Load, expressed as a decimal. The NYISO uses the IRM and the forecast peak Load to establish minimum capacity requirements for each Load-Serving Entity (LSE) located within the NYCA. The NYISO also establishes additional minimum capacity requirements for LSEs in a Locality (i.e., New York City and Long Island), referred to as Locational Minimum Installed Capacity Requirements (LCRs). Each LCR is expressed as a percentage of the forecasted peak demand for the respective Locality. LSEs procure Unforced Capacity to meet their requirements either through the NYISO-administered installed capacity auctions or through bilateral transactions.

4 Wind is reported with a nameplate rating and expected values for Summer and Winter capabilities that are based upon the 2003 NYSERDA Wind Study. See discussion on p. 67 for a discussion of the treatment of intermittent resources for the purpose of determining their projected contribution toward installed capacity.

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Capacity Data Report includes the NYISO Summer CRIS values5 for generators. Resources located within the PJM, ISO-New England and Quebec Control Areas may qualify as Installed Capacity Suppliers to the NYCA. Currently, the Independent Electricity System Operator of Ontario (IESO), the operator of the other directly interconnected Control Area to the NYCA, does not meet the NYISOs requirement relating to the recall of transactions associated with installed capacity sold to New York. Therefore, resources located within the IESO Control Area do not qualify as Installed Capacity Suppliers to the NYCA.

The NYISO maintains a list of proposed projects in the NYISO interconnection process and Section IV displays projects by class year. Projects on the list totaling 1,182 MW have met Base Case inclusion rules as described in the Comprehensive Reliability Planning Process Manual. The Load and Capacity Schedule in Tables V-2a and V-2b reflects these additions as well as a summary of existing generating facilities based on expected Summer and Winter capabilities. Additionally, the New York installed capacity market rules allow Special Case Resources (i.e., distributed generation and interruptible load customers) to participate in the installed capacity market. These customers are expected to provide 2,053 MW of capacity for the NYISO in 2011 and thereafter, a reduction of 198 MW from the 2010 value.

Transmission Facilities Each transmission owner provides a list of existing transmission facilities which are shown in Section VI. As of March 1, 2011, New York had 11,009 circuit-miles of transmission lines, which, as compared to the 2010 Goldbook, reflects additions of 98 miles of overhead lines and 34 miles of underground cables.Section VII contains the list of firm proposed transmission projects that are included in Base Cases as well as the list of non-firm proposed transmission projects that have not met the CRPP Manual's Base Case inclusion criteria.

5 CRIS values, in MW of Installed Capacity, for the Summer Capability Period are established pursuant to the deliverability test methodology and procedures contained in Attachments X, S, and Z to the NYISO OATT.

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8 SECTION I:

FORECASTS OF ANNUAL ENERGY, PEAK DEMAND, AND EMERGENCY DEMAND RESPONSE PROGRAM

10 Table I-1: NYCA Energy and Demand Forecasts with Statewide Energy Efficiency Impacts 2011 Long Term Forecast - 2011 to 2021 Energy - GWh Summer Peak Demand - MW Winter Peak Demand - MW Year Low Baseline High Year Low Baseline High Year Low Baseline High 2010 161,571 2010 33,452 2010-11 24,452 2011 160,221 162,787 165,353 2011 29,852 32,712 34,713 2011-12 22,948 24,533 26,118 2012 161,938 164,521 167,104 2012 30,282 33,182 35,213 2012-13 23,098 24,693 26,288 2013 162,010 164,596 167,182 2013 30,511 33,433 35,479 2013-14 23,160 24,761 26,362 2014 162,258 164,848 167,438 2014 30,670 33,609 35,666 2014-15 23,206 24,810 26,414 2015 162,336 164,925 167,514 2015 30,734 33,678 35,738 2015-16 23,222 24,828 26,434 2016 162,723 165,319 167,915 2016 30,798 33,749 35,814 2016-17 23,296 24,908 26,520 2017 162,879 165,479 168,079 2017 30,950 33,916 35,986 2017-18 23,394 25,014 26,634 2018 163,625 166,238 168,851 2018 31,202 34,190 36,274 2018-19 23,601 25,232 26,863 2019 164,681 167,310 169,939 2019 31,513 34,533 36,635 2019-20 23,849 25,500 27,151 2020 166,042 168,695 171,348 2020 31,819 34,867 36,988 2020-21 24,233 25,909 27,585 2021 166,988 169,655 172,322 2021 32,113 35,192 37,330 2021-22 24,513 26,210 27,907 Average Annual Growth - Percent Period Low Baseline High Period Low Baseline High Period Low Baseline High 2011-21 0.41% 0.41% 0.41% 2011-21 0.73% 0.73% 0.73% 2011-21 0.66% 0.66% 0.66%

2011-16 0.31% 0.31% 0.31% 2011-16 0.63% 0.63% 0.63% 2011-16 0.30% 0.30% 0.31%

2016-21 0.52% 0.52% 0.52% 2016-21 0.84% 0.84% 0.83% 2016-21 1.02% 1.02% 1.02%

Notes

1. 2010 results are for weather-normalized energy and peak demand.

2. 2011 summer peak corresponds to the 2011 ICAP forecast.

3. Summer Capability period is from May 1 to October 31. Winter Capability period is from November 1 of the current year to April 30 of the next year.

4. The low and high forecasts are at the 10th and 90th percentiles for extreme weather conditions, respectively.

5. All results in the Section I tables include transmission & distribution losses and exclude station power.

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Table I-2a: Baseline Forecast of Annual Energy & Coincident Peak Demand Includes Impacts of Statewide Energy Efficiency Programs Forecast of Annual Energy by Zone - GWh Year A B C D E F G H I J K NYCA 2011 15,440 9,963 16,396 5,510 7,773 11,275 10,478 2,962 6,145 54,283 22,562 162,787 2012 15,376 9,994 16,443 6,297 7,762 11,318 10,574 2,995 6,197 54,746 22,819 164,521 2013 15,283 10,017 16,418 6,363 7,790 11,333 10,624 2,999 6,182 54,617 22,970 164,596 2014 15,238 10,020 16,478 6,399 7,787 11,332 10,667 3,008 6,188 54,669 23,062 164,848 2015 15,148 10,034 16,466 6,453 7,781 11,330 10,694 3,016 6,184 54,632 23,187 164,925 2016 15,058 10,065 16,397 6,488 7,777 11,334 10,725 3,036 6,197 54,747 23,495 165,319 2017 14,961 10,111 16,333 6,544 7,770 11,300 10,733 3,043 6,203 54,800 23,681 165,479 2018 14,845 10,156 16,273 6,580 7,759 11,283 10,746 3,069 6,265 55,350 23,912 166,238 2019 14,788 10,225 16,260 6,632 7,776 11,333 10,806 3,094 6,329 55,908 24,159 167,310 2020 14,720 10,295 16,264 6,685 7,795 11,381 10,870 3,132 6,411 56,637 24,505 168,695 2021 14,687 10,373 16,285 6,716 7,821 11,439 10,942 3,151 6,457 57,043 24,741 169,655 Forecast of Coincident Summer Peak Demand by Zone - MW Year A B C D E F G H I J K NYCA 2011 2,550 1,947 2,795 648 1,308 2,173 2,256 702 1,464 11,505 5,364 32,712 2012 2,554 1,970 2,825 742 1,312 2,201 2,290 711 1,472 11,635 5,470 33,182 2013 2,550 1,987 2,834 752 1,321 2,222 2,321 722 1,484 11,720 5,520 33,433 2014 2,549 1,998 2,855 757 1,322 2,234 2,345 729 1,492 11,785 5,543 33,609 2015 2,525 2,002 2,849 763 1,318 2,233 2,357 732 1,497 11,830 5,572 33,678 2016 2,495 2,005 2,831 766 1,310 2,230 2,366 736 1,497 11,880 5,633 33,749 2017 2,476 2,017 2,820 773 1,305 2,227 2,375 744 1,509 12,015 5,655 33,916 2018 2,458 2,030 2,814 777 1,302 2,230 2,387 750 1,521 12,200 5,721 34,190 2019 2,451 2,047 2,817 783 1,305 2,248 2,408 756 1,538 12,405 5,775 34,533 2020 2,443 2,064 2,822 790 1,309 2,264 2,428 763 1,554 12,585 5,845 34,867 2021 2,438 2,081 2,830 795 1,313 2,280 2,449 772 1,576 12,758 5,900 35,192 Forecast of Coincident Winter Peak Demand by Zone - MW Year A B C D E F G H I J K NYCA 2011-12 2,293 1,542 2,603 766 1,272 1,795 1,660 550 935 7,655 3,462 24,533 2012-13 2,279 1,546 2,610 874 1,266 1,798 1,676 556 943 7,708 3,437 24,693 2013-14 2,264 1,550 2,607 882 1,268 1,799 1,686 555 941 7,683 3,526 24,761 2014-15 2,259 1,554 2,620 887 1,267 1,801 1,699 557 943 7,706 3,517 24,810 2015-16 2,251 1,560 2,623 894 1,267 1,803 1,709 558 943 7,692 3,528 24,828 2016-17 2,244 1,569 2,619 898 1,270 1,810 1,722 561 945 7,731 3,539 24,908 2017-18 2,237 1,583 2,616 907 1,273 1,809 1,734 562 947 7,796 3,550 25,014 2018-19 2,229 1,598 2,617 911 1,277 1,816 1,747 567 956 7,956 3,558 25,232 2019-20 2,233 1,618 2,625 918 1,286 1,833 1,769 571 966 8,109 3,572 25,500 2020-21 2,237 1,641 2,638 927 1,299 1,851 1,794 578 978 8,371 3,595 25,909 2021-22 2,247 1,665 2,655 932 1,315 1,873 1,824 581 985 8,515 3,618 26,210 12

Table I-2b: Baseline Forecast of Non-Coincident Peak Demand Includes Impacts of Statewide Energy Efficiency Programs Forecast of Non-Coincident Summer Peak Demand by Zone - MW Year A B C D E F G H I J K 2011 2,626 2,011 2,856 705 1,359 2,225 2,280 732 1,480 11,505 5,434 2012 2,630 2,035 2,886 807 1,363 2,253 2,315 742 1,489 11,635 5,543 2013 2,626 2,053 2,895 818 1,373 2,275 2,346 753 1,501 11,720 5,593 2014 2,625 2,064 2,917 823 1,374 2,287 2,370 760 1,509 11,785 5,617 2015 2,600 2,068 2,911 830 1,369 2,286 2,382 763 1,514 11,830 5,646 2016 2,569 2,071 2,892 833 1,361 2,283 2,392 768 1,514 11,880 5,708 2017 2,550 2,084 2,881 841 1,356 2,280 2,401 776 1,526 12,015 5,730 2018 2,531 2,097 2,875 845 1,353 2,283 2,413 782 1,538 12,200 5,797 2019 2,524 2,115 2,878 852 1,356 2,301 2,434 789 1,555 12,405 5,852 2020 2,516 2,132 2,883 859 1,360 2,318 2,454 796 1,571 12,585 5,923 2021 2,511 2,150 2,891 865 1,364 2,334 2,475 805 1,594 12,758 5,978 Forecast of Non-Coincident Winter Peak Demand by Zone - MW Year A B C D E F G H I J K 2011-12 2,306 1,550 2,654 789 1,281 1,865 1,666 602 982 7,727 3,502 2012-13 2,292 1,554 2,661 900 1,275 1,868 1,682 608 990 7,780 3,477 2013-14 2,277 1,558 2,658 908 1,277 1,870 1,692 607 988 7,755 3,567 2014-15 2,272 1,562 2,672 914 1,276 1,872 1,705 609 990 7,778 3,558 2015-16 2,264 1,568 2,675 921 1,276 1,874 1,715 610 990 7,764 3,569 2016-17 2,257 1,577 2,671 925 1,279 1,881 1,728 614 992 7,804 3,580 2017-18 2,250 1,591 2,668 934 1,282 1,880 1,740 615 994 7,869 3,591 2018-19 2,242 1,606 2,669 938 1,286 1,887 1,753 620 1,004 8,031 3,599 2019-20 2,246 1,626 2,677 946 1,296 1,905 1,776 625 1,014 8,185 3,614 2020-21 2,250 1,649 2,690 955 1,309 1,924 1,801 632 1,027 8,450 3,637 2021-22 2,260 1,673 2,707 960 1,325 1,946 1,831 636 1,034 8,595 3,660 13

Table I-2c: Baseline Forecast of Coincident Summer Peak Demand & EDRP Includes Impacts of Statewide Energy Efficiency Programs Forecast of Coincident Summer Peak Demand by Zone - MW Before Reductions for Emergency Demand Response Programs Year A B C D E F G H I J K NYCA 2011 2,550 1,947 2,795 648 1,308 2,173 2,256 702 1,464 11,505 5,364 32,712 2012 2,554 1,970 2,825 742 1,312 2,201 2,290 711 1,472 11,635 5,470 33,182 2013 2,550 1,987 2,834 752 1,321 2,222 2,321 722 1,484 11,720 5,520 33,433 2014 2,549 1,998 2,855 757 1,322 2,234 2,345 729 1,492 11,785 5,543 33,609 2015 2,525 2,002 2,849 763 1,318 2,233 2,357 732 1,497 11,830 5,572 33,678 2016 2,495 2,005 2,831 766 1,310 2,230 2,366 736 1,497 11,880 5,633 33,749 2017 2,476 2,017 2,820 773 1,305 2,227 2,375 744 1,509 12,015 5,655 33,916 2018 2,458 2,030 2,814 777 1,302 2,230 2,387 750 1,521 12,200 5,721 34,190 2019 2,451 2,047 2,817 783 1,305 2,248 2,408 756 1,538 12,405 5,775 34,533 2020 2,443 2,064 2,822 790 1,309 2,264 2,428 763 1,554 12,585 5,845 34,867 2021 2,438 2,081 2,830 795 1,313 2,280 2,449 772 1,576 12,758 5,900 35,192 Emergency Demand Response Program Reductions by Zone - MW Year A B C D E F G H I J K NYCA 2011 13 1 11 3 23 19 11 2 3 47 33 166 2012 13 1 11 3 23 19 11 2 3 47 33 166 2013 13 1 11 3 23 19 11 2 3 47 33 166 2014 13 1 11 3 23 19 11 2 3 47 33 166 2015 13 1 11 3 23 19 11 2 3 47 33 166 2016 13 1 11 3 23 19 11 2 3 47 33 166 2017 13 1 11 3 23 19 11 2 3 47 33 166 2018 13 1 11 3 23 19 11 2 3 47 33 166 2019 13 1 11 3 23 19 11 2 3 47 33 166 2020 13 1 11 3 23 19 11 2 3 47 33 166 2021 13 1 11 3 23 19 11 2 3 47 33 166 Forecast of Coincident Summer Peak Demand by Zone - MW After Reductions for Emergency Demand Response Programs Year A B C D E F G H I J K NYCA 2011 2,537 1,946 2,784 645 1,285 2,154 2,245 700 1,461 11,458 5,331 32,546 2012 2,541 1,969 2,814 739 1,289 2,182 2,279 709 1,469 11,588 5,437 33,016 2013 2,537 1,986 2,823 749 1,298 2,203 2,310 720 1,481 11,673 5,487 33,267 2014 2,536 1,997 2,844 754 1,299 2,215 2,334 727 1,489 11,738 5,510 33,443 2015 2,512 2,001 2,838 760 1,295 2,214 2,346 730 1,494 11,783 5,539 33,512 2016 2,482 2,004 2,820 763 1,287 2,211 2,355 734 1,494 11,833 5,600 33,583 2017 2,463 2,016 2,809 770 1,282 2,208 2,364 742 1,506 11,968 5,622 33,750 2018 2,445 2,029 2,803 774 1,279 2,211 2,376 748 1,518 12,153 5,688 34,024 2019 2,438 2,046 2,806 780 1,282 2,229 2,397 754 1,535 12,358 5,742 34,367 2020 2,430 2,063 2,811 787 1,286 2,245 2,417 761 1,551 12,538 5,812 34,701 2021 2,425 2,080 2,819 792 1,290 2,261 2,438 770 1,573 12,711 5,867 35,026 14

Table I-2d: 90th Percentile of Baseline Forecast Includes Impacts of Statewide Energy Efficiency Programs 90th Percentile Forecast of Annual Energy by Zone - GWh Year A B C D E F G H I J K NYCA 2011 15,683 10,120 16,638 5,514 7,906 11,459 10,664 3,032 6,271 55,050 23,016 165,353 2012 15,618 10,152 16,686 6,301 7,895 11,503 10,762 3,065 6,324 55,520 23,278 167,104 2013 15,524 10,175 16,661 6,367 7,924 11,518 10,813 3,070 6,309 55,389 23,432 167,182 2014 15,478 10,178 16,722 6,403 7,921 11,517 10,857 3,079 6,315 55,442 23,526 167,438 2015 15,386 10,193 16,709 6,457 7,915 11,515 10,884 3,087 6,311 55,404 23,653 167,514 2016 15,295 10,224 16,639 6,492 7,911 11,519 10,916 3,107 6,324 55,521 23,967 167,915 2017 15,196 10,271 16,574 6,549 7,903 11,485 10,924 3,115 6,330 55,575 24,157 168,079 2018 15,079 10,316 16,514 6,585 7,892 11,467 10,937 3,141 6,394 56,133 24,393 168,851 2019 15,021 10,387 16,500 6,637 7,909 11,518 10,998 3,167 6,459 56,698 24,645 169,939 2020 14,952 10,458 16,504 6,690 7,929 11,567 11,063 3,206 6,543 57,438 24,998 171,348 2021 14,918 10,537 16,526 6,721 7,955 11,626 11,136 3,225 6,590 57,849 25,239 172,322 90th Percentile Forecast of Coincident Summer Peak Demand by Zone - MW Year A B C D E F G H I J K NYCA 2011 2,735 2,088 2,998 695 1,403 2,331 2,420 739 1,540 11,885 5,879 34,713 2012 2,739 2,113 3,030 796 1,407 2,361 2,456 748 1,549 12,019 5,995 35,213 2013 2,735 2,131 3,039 807 1,417 2,383 2,489 760 1,561 12,107 6,050 35,479 2014 2,734 2,143 3,062 812 1,418 2,396 2,515 767 1,570 12,174 6,075 35,666 2015 2,708 2,147 3,056 818 1,414 2,395 2,528 770 1,575 12,220 6,107 35,738 2016 2,676 2,150 3,036 822 1,405 2,392 2,538 774 1,575 12,272 6,174 35,814 2017 2,656 2,163 3,024 829 1,400 2,388 2,547 783 1,587 12,411 6,198 35,986 2018 2,636 2,177 3,018 833 1,396 2,392 2,560 789 1,600 12,603 6,270 36,274 2019 2,629 2,195 3,021 840 1,400 2,411 2,583 795 1,618 12,814 6,329 36,635 2020 2,620 2,214 3,027 847 1,404 2,428 2,604 803 1,635 13,000 6,406 36,988 2021 2,615 2,232 3,035 853 1,408 2,445 2,627 812 1,658 13,179 6,466 37,330 90th Percentile Forecast of Coincident Winter Peak Demand by Zone - MW Year A B C D E F G H I J K NYCA 2011-12 2,426 1,631 2,754 822 1,346 1,899 1,756 587 998 8,171 3,728 26,118 2012-13 2,411 1,636 2,761 937 1,339 1,902 1,773 593 1,007 8,228 3,701 26,288 2013-14 2,395 1,640 2,758 946 1,342 1,903 1,784 592 1,004 8,201 3,797 26,362 2014-15 2,390 1,644 2,772 951 1,340 1,905 1,798 595 1,007 8,225 3,787 26,414 2015-16 2,382 1,650 2,775 959 1,340 1,908 1,808 596 1,007 8,210 3,799 26,434 2016-17 2,374 1,660 2,771 963 1,344 1,915 1,822 599 1,009 8,252 3,811 26,520 2017-18 2,367 1,675 2,768 973 1,347 1,914 1,835 600 1,011 8,321 3,823 26,634 2018-19 2,358 1,691 2,769 977 1,351 1,921 1,848 605 1,020 8,492 3,831 26,863 2019-20 2,363 1,712 2,777 985 1,361 1,939 1,872 609 1,031 8,656 3,846 27,151 2020-21 2,367 1,736 2,791 994 1,374 1,958 1,898 617 1,044 8,935 3,871 27,585 2021-22 2,377 1,762 2,809 1,000 1,391 1,982 1,930 620 1,051 9,089 3,896 27,907 Note: Energy and demand forecasts for zones at the 90th percentile are representative of extreme high weather conditions.

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Table I-2e: 10th Percentile of Baseline Forecast Includes Impacts of Statewide Energy Efficiency Programs 10th Percentile Forecast of Annual Energy by Zone - GWh Year A B C D E F G H I J K NYCA 2011 15,197 9,806 16,154 5,506 7,640 11,091 10,292 2,892 6,019 53,516 22,108 160,221 2012 15,134 9,836 16,200 6,293 7,629 11,133 10,386 2,925 6,070 53,972 22,360 161,938 2013 15,042 9,859 16,175 6,359 7,656 11,148 10,435 2,928 6,055 53,845 22,508 162,010 2014 14,998 9,862 16,234 6,395 7,653 11,147 10,477 2,937 6,061 53,896 22,598 162,258 2015 14,910 9,875 16,223 6,449 7,647 11,145 10,504 2,945 6,057 53,860 22,721 162,336 2016 14,821 9,906 16,155 6,484 7,643 11,149 10,534 2,965 6,070 53,973 23,023 162,723 2017 14,726 9,951 16,092 6,539 7,637 11,115 10,542 2,971 6,076 54,025 23,205 162,879 2018 14,611 9,996 16,032 6,575 7,626 11,099 10,555 2,997 6,136 54,567 23,431 163,625 2019 14,555 10,063 16,020 6,627 7,643 11,148 10,614 3,021 6,199 55,118 23,673 164,681 2020 14,488 10,132 16,024 6,680 7,661 11,195 10,677 3,058 6,279 55,836 24,012 166,042 2021 14,456 10,209 16,044 6,711 7,687 11,252 10,748 3,077 6,324 56,237 24,243 166,988 10th Percentile Forecast of Coincident Summer Peak Demand by Zone - MW Year A B C D E F G H I J K NYCA 2011 2,336 1,783 2,560 594 1,198 1,990 2,066 622 1,297 10,562 4,844 29,852 2012 2,339 1,805 2,588 680 1,202 2,016 2,098 630 1,304 10,681 4,939 30,282 2013 2,336 1,820 2,596 689 1,210 2,035 2,126 640 1,315 10,759 4,985 30,511 2014 2,335 1,830 2,615 693 1,211 2,046 2,148 646 1,322 10,819 5,005 30,670 2015 2,313 1,834 2,610 699 1,207 2,045 2,159 649 1,326 10,860 5,032 30,734 2016 2,285 1,837 2,593 702 1,200 2,043 2,167 652 1,326 10,906 5,087 30,798 2017 2,268 1,848 2,583 708 1,195 2,040 2,176 659 1,337 11,030 5,106 30,950 2018 2,252 1,859 2,578 712 1,193 2,043 2,186 665 1,348 11,200 5,166 31,202 2019 2,245 1,875 2,580 717 1,195 2,059 2,206 670 1,363 11,388 5,215 31,513 2020 2,238 1,891 2,585 724 1,199 2,074 2,224 676 1,377 11,553 5,278 31,819 2021 2,233 1,906 2,592 728 1,203 2,088 2,243 684 1,396 11,712 5,328 32,113 10th Percentile Forecast of Coincident Winter Peak Demand by Zone - MW Year A B C D E F G H I J K NYCA 2011-12 2,160 1,453 2,452 710 1,198 1,691 1,564 513 872 7,139 3,196 22,948 2012-13 2,147 1,456 2,459 811 1,193 1,694 1,579 519 879 7,188 3,173 23,098 2013-14 2,133 1,460 2,456 818 1,194 1,695 1,588 518 878 7,165 3,255 23,160 2014-15 2,128 1,464 2,468 823 1,194 1,697 1,600 519 879 7,187 3,247 23,206 2015-16 2,120 1,470 2,471 829 1,194 1,698 1,610 520 879 7,174 3,257 23,222 2016-17 2,114 1,478 2,467 833 1,196 1,705 1,622 523 881 7,210 3,267 23,296 2017-18 2,107 1,491 2,464 841 1,199 1,704 1,633 524 883 7,271 3,277 23,394 2018-19 2,100 1,505 2,465 845 1,203 1,711 1,646 529 892 7,420 3,285 23,601 2019-20 2,103 1,524 2,473 851 1,211 1,727 1,666 533 901 7,562 3,298 23,849 2020-21 2,107 1,546 2,485 860 1,224 1,744 1,690 539 912 7,807 3,319 24,233 2021-22 2,117 1,568 2,501 864 1,239 1,764 1,718 542 919 7,941 3,340 24,513 Note: Energy and demand forecasts for zones at the 10th percentile are representative of extreme low weather conditions.

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Table I-2f: Energy Efficiency Savings Forecast of Reductions in Annual Energy by Zone - GWh Year A B C D E F G H I J K NYCA 2011 315 136 251 26 132 224 154 27 78 696 263 2,302 2012 507 242 421 43 216 355 270 52 150 1,323 513 4,092 2013 712 340 598 62 304 497 385 77 221 1,949 774 5,919 2014 920 435 777 80 394 641 502 101 288 2,539 979 7,656 2015 1,095 504 924 95 468 762 600 124 356 3,139 1,145 9,212 2016 1,251 553 1,054 108 535 872 685 144 425 3,755 1,254 10,636 2017 1,414 598 1,189 122 604 986 774 159 467 4,126 1,359 11,798 2018 1,580 657 1,328 137 675 1,102 866 167 472 4,164 1,493 12,641 2019 1,678 697 1,411 145 717 1,171 920 173 475 4,202 1,620 13,209 2020 1,779 739 1,495 154 760 1,241 975 177 480 4,240 1,728 13,768 2021 1,864 774 1,566 161 796 1,300 1,022 182 484 4,274 1,812 14,235 Forecast of Reductions in Coincident Summer Peak Demand by Zone - MW Year A B C D E F G H I J K NYCA 2011 57 22 46 4 26 43 27 5 10 82 58 380 2012 91 39 75 6 42 67 46 9 30 234 114 753 2013 121 52 102 8 56 89 63 16 49 390 172 1,118 2014 153 65 130 11 71 112 80 20 69 542 224 1,477 2015 193 80 164 13 89 142 102 26 87 685 269 1,850 2016 235 94 198 16 108 172 124 33 105 837 315 2,237 2017 266 102 225 18 123 196 140 36 115 915 360 2,496 2018 294 111 248 20 136 216 155 37 115 925 409 2,666 2019 308 116 260 21 142 226 163 37 113 912 453 2,751 2020 323 123 273 22 149 237 171 37 114 922 495 2,866 2021 336 128 284 23 155 247 179 39 115 931 535 2,972 Forecast of Reductions in Coincident Winter Peak Demand by Zone - MW Year A B C D E F G H I J K NYCA 2011-12 54 24 43 5 21 37 26 5 11 100 86 412 2012-13 86 42 71 9 34 58 45 9 22 190 143 709 2013-14 118 57 98 12 46 79 63 14 32 280 198 997 2014-15 149 71 124 15 59 99 80 18 41 365 247 1,268 2015-16 172 80 144 18 68 115 93 22 51 451 292 1,506 2016-17 193 87 160 20 76 128 104 26 61 539 338 1,732 2017-18 214 92 178 22 84 143 115 28 67 592 385 1,920 2018-19 236 100 195 24 92 157 127 29 68 598 431 2,057 2019-20 247 104 205 26 97 164 133 30 68 603 474 2,151 2020-21 259 109 215 27 102 172 140 30 69 609 515 2,247 2021-22 269 114 223 28 105 179 145 31 69 614 552 2,329 17

Table I-3a: Econometric Forecast of Annual Energy & Peak Demand Prior to Inclusion of Statewide Energy Efficiency Programs Forecast of Annual Energy by Zone - GWh Year A B C D E F G H I J K NYCA 2011 15,755 10,099 16,647 5,536 7,905 11,499 10,632 2,989 6,223 54,979 22,825 165,089 2012 15,883 10,236 16,864 6,340 7,978 11,673 10,844 3,047 6,347 56,069 23,332 168,613 2013 15,995 10,357 17,016 6,425 8,094 11,830 11,009 3,076 6,403 56,566 23,744 170,515 2014 16,158 10,455 17,255 6,479 8,181 11,973 11,169 3,109 6,476 57,208 24,041 172,504 2015 16,243 10,538 17,390 6,548 8,249 12,092 11,294 3,140 6,540 57,771 24,332 174,137 2016 16,309 10,618 17,451 6,596 8,312 12,206 11,410 3,180 6,622 58,502 24,749 175,955 2017 16,375 10,709 17,522 6,666 8,374 12,286 11,507 3,202 6,670 58,926 25,040 177,277 2018 16,425 10,813 17,601 6,717 8,434 12,385 11,612 3,236 6,737 59,514 25,405 178,879 2019 16,466 10,922 17,671 6,777 8,493 12,504 11,726 3,267 6,804 60,110 25,779 180,519 2020 16,499 11,034 17,759 6,839 8,555 12,622 11,845 3,309 6,891 60,877 26,233 182,463 2021 16,551 11,147 17,851 6,877 8,617 12,739 11,964 3,333 6,941 61,317 26,553 183,890 Forecast of Coincident Summer Peak Demand by Zone - MW Year A B C D E F G H I J K NYCA 2011 2,607 1,969 2,841 652 1,334 2,215 2,283 707 1,465 11,587 5,422 33,082 2012 2,645 2,009 2,900 748 1,354 2,268 2,336 720 1,502 11,869 5,584 33,935 2013 2,671 2,039 2,936 760 1,377 2,311 2,384 738 1,533 12,110 5,692 34,551 2014 2,702 2,063 2,985 768 1,393 2,346 2,425 749 1,561 12,327 5,767 35,086 2015 2,718 2,082 3,013 776 1,407 2,375 2,459 758 1,584 12,515 5,841 35,528 2016 2,730 2,099 3,029 782 1,418 2,402 2,490 769 1,602 12,717 5,948 35,986 2017 2,742 2,119 3,045 791 1,428 2,423 2,515 780 1,624 12,930 6,015 36,412 2018 2,752 2,141 3,062 797 1,438 2,446 2,542 787 1,636 13,125 6,130 36,856 2019 2,759 2,163 3,077 804 1,447 2,474 2,571 793 1,651 13,317 6,228 37,284 2020 2,766 2,187 3,095 812 1,458 2,501 2,599 800 1,668 13,507 6,340 37,733 2021 2,774 2,209 3,114 818 1,468 2,527 2,628 811 1,691 13,689 6,435 38,164 Forecast of Coincident Winter Peak Demand by Zone- MW Year A B C D E F G H I J K NYCA 2011-12 2,347 1,566 2,646 771 1,293 1,832 1,686 555 946 7,755 3,548 24,945 2012-13 2,365 1,588 2,681 883 1,300 1,856 1,721 565 965 7,898 3,580 25,402 2013-14 2,382 1,607 2,705 894 1,314 1,878 1,749 569 973 7,963 3,724 25,758 2014-15 2,408 1,625 2,744 902 1,326 1,900 1,779 575 984 8,071 3,764 26,078 2015-16 2,423 1,640 2,767 912 1,335 1,918 1,802 580 994 8,143 3,820 26,334 2016-17 2,437 1,656 2,779 918 1,346 1,938 1,826 587 1,006 8,270 3,877 26,640 2017-18 2,451 1,675 2,794 929 1,357 1,952 1,849 590 1,014 8,388 3,935 26,934 2018-19 2,465 1,698 2,812 935 1,369 1,973 1,874 596 1,024 8,554 3,989 27,289 2019-20 2,480 1,722 2,830 944 1,383 1,997 1,902 601 1,034 8,712 4,046 27,651 2020-21 2,496 1,750 2,853 954 1,401 2,023 1,934 608 1,047 8,980 4,110 28,156 2021-22 2,516 1,779 2,878 960 1,420 2,052 1,969 612 1,054 9,129 4,170 28,539 18

Table I-3b: Econometric Forecast of Non-Coincident Peak Demand Prior to Inclusion of Statewide Energy Efficiency Programs Forecast of Non-Coincident Summer Peak Demand by Zone - MW Year A B C D E F G H I J K 2011 2,685 2,034 2,903 709 1,386 2,267 2,308 737 1,481 11,587 5,494 2012 2,724 2,075 2,963 814 1,407 2,322 2,361 751 1,519 11,869 5,658 2013 2,750 2,106 3,000 827 1,430 2,365 2,409 770 1,550 12,110 5,768 2014 2,781 2,130 3,049 835 1,446 2,401 2,450 781 1,579 12,327 5,844 2015 2,797 2,150 3,077 844 1,461 2,430 2,484 791 1,602 12,515 5,919 2016 2,809 2,166 3,093 851 1,471 2,457 2,514 802 1,620 12,717 6,027 2017 2,821 2,186 3,108 860 1,481 2,477 2,538 814 1,642 12,930 6,095 2018 2,829 2,208 3,124 867 1,490 2,500 2,564 821 1,654 13,125 6,212 2019 2,835 2,229 3,139 875 1,498 2,528 2,592 827 1,670 13,317 6,311 2020 2,840 2,252 3,156 883 1,508 2,553 2,619 834 1,687 13,507 6,424 2021 2,846 2,274 3,173 889 1,516 2,579 2,645 846 1,710 13,689 6,521 Forecast of Non-Coincident Winter Peak Demand by Zone - MW Year A B C D E F G H I J K 2011-12 2,361 1,574 2,698 794 1,303 1,904 1,692 607 993 7,828 3,726 2012-13 2,377 1,594 2,732 909 1,308 1,927 1,725 618 1,013 7,972 3,710 2013-14 2,391 1,611 2,754 921 1,320 1,947 1,750 622 1,022 8,033 3,732 2014-15 2,413 1,625 2,791 928 1,328 1,966 1,776 629 1,033 8,115 3,887 2015-16 2,423 1,636 2,810 938 1,333 1,981 1,794 635 1,044 8,185 3,948 2016-17 2,430 1,647 2,817 945 1,338 1,995 1,811 642 1,056 8,281 4,029 2017-18 2,437 1,659 2,827 955 1,342 2,004 1,825 645 1,065 8,334 4,105 2018-19 2,441 1,674 2,837 961 1,346 2,016 1,840 652 1,075 8,409 4,183 2019-20 2,444 1,688 2,846 969 1,350 2,031 1,855 657 1,086 8,487 4,257 2020-21 2,446 1,703 2,857 979 1,355 2,045 1,871 665 1,099 8,589 4,335 2021-22 2,449 1,718 2,869 984 1,359 2,060 1,887 670 1,107 8,645 4,420 19

Table I-3c: Econometric Forecast of Summer Peak Demand & EDRP Prior to Inclusion of Statewide Energy Efficiency Programs Forecast of Coincident Summer Peak Demand by Zone - MW Before Reductions for Emergency Demand Response Programs Year A B C D E F G H I J K NYCA 2011 2,607 1,969 2,841 652 1,334 2,215 2,283 707 1,465 11,587 5,422 33,082 2012 2,645 2,009 2,900 748 1,354 2,268 2,336 720 1,502 11,869 5,584 33,935 2013 2,671 2,039 2,936 760 1,377 2,311 2,384 738 1,533 12,110 5,692 34,551 2014 2,702 2,063 2,985 768 1,393 2,346 2,425 749 1,561 12,327 5,767 35,086 2015 2,718 2,082 3,013 776 1,407 2,375 2,459 758 1,584 12,515 5,841 35,528 2016 2,730 2,099 3,029 782 1,418 2,402 2,490 769 1,602 12,717 5,948 35,986 2017 2,742 2,119 3,045 791 1,428 2,423 2,515 780 1,624 12,930 6,015 36,412 2018 2,752 2,141 3,062 797 1,438 2,446 2,542 787 1,636 13,125 6,130 36,856 2019 2,759 2,163 3,077 804 1,447 2,474 2,571 793 1,651 13,317 6,228 37,284 2020 2,766 2,187 3,095 812 1,458 2,501 2,599 800 1,668 13,507 6,340 37,733 2021 2,774 2,209 3,114 818 1,468 2,527 2,628 811 1,691 13,689 6,435 38,164 Emergency Demand Response Program Reductions by Zone - MW Year A B C D E F G H I J K NYCA 2011 13 1 11 3 23 19 11 2 3 47 33 166 2012 13 1 11 3 23 19 11 2 3 47 33 166 2013 13 1 11 3 23 19 11 2 3 47 33 166 2014 13 1 11 3 23 19 11 2 3 47 33 166 2015 13 1 11 3 23 19 11 2 3 47 33 166 2016 13 1 11 3 23 19 11 2 3 47 33 166 2017 13 1 11 3 23 19 11 2 3 47 33 166 2018 13 1 11 3 23 19 11 2 3 47 33 166 2019 13 1 11 3 23 19 11 2 3 47 33 166 2020 13 1 11 3 23 19 11 2 3 47 33 166 2021 13 1 11 3 23 19 11 2 3 47 33 166 Forecast of Coincident Summer Peak Demand by Zone - MW After Reductions for Emergency Demand Response Programs Year A B C D E F G H I J K NYCA 2011 2,594 1,968 2,830 649 1,311 2,196 2,272 705 1,462 11,540 5,389 32,916 2012 2,632 2,008 2,889 745 1,331 2,249 2,325 718 1,499 11,822 5,551 33,769 2013 2,658 2,038 2,925 757 1,354 2,292 2,373 736 1,530 12,063 5,659 34,385 2014 2,689 2,062 2,974 765 1,370 2,327 2,414 747 1,558 12,280 5,734 34,920 2015 2,705 2,081 3,002 773 1,384 2,356 2,448 756 1,581 12,468 5,808 35,362 2016 2,717 2,098 3,018 779 1,395 2,383 2,479 767 1,599 12,670 5,915 35,820 2017 2,729 2,118 3,034 788 1,405 2,404 2,504 778 1,621 12,883 5,982 36,246 2018 2,739 2,140 3,051 794 1,415 2,427 2,531 785 1,633 13,078 6,097 36,690 2019 2,746 2,162 3,066 801 1,424 2,455 2,560 791 1,648 13,270 6,195 37,118 2020 2,753 2,186 3,084 809 1,435 2,482 2,588 798 1,665 13,460 6,307 37,567 2021 2,761 2,208 3,103 815 1,445 2,508 2,617 809 1,688 13,642 6,402 37,998 20

Table I-4a: Historic Energy Requirements and Coincident Peaks Historic Annual Energy by Zone - GWh Year A B C D E F G H I J K NYCA 2001 16,209 9,661 16,034 6,374 7,403 11,429 9,396 2,003 5,782 50,227 20,723 155,241 2002 16,355 9,935 16,356 6,450 7,116 11,302 9,970 2,162 5,962 51,356 21,544 158,507 2003 15,942 9,719 16,794 5,912 6,950 11,115 10,451 2,219 6,121 50,829 21,960 158,012 2004 16,102 9,888 16,825 5,758 7,101 11,161 10,696 2,188 6,216 52,073 22,203 160,211 2005 16,498 10,227 17,568 6,593 7,594 11,789 10,924 2,625 6,435 54,007 22,948 167,208 2006 15,998 10,003 16,839 6,289 7,339 11,337 10,417 2,461 6,274 53,096 22,185 162,237 2007 16,258 10,207 17,028 6,641 7,837 11,917 10,909 2,702 6,344 54,750 22,748 167,341 2008 15,835 10,089 16,721 6,734 7,856 11,595 10,607 2,935 5,944 54,835 22,461 165,613 2009 15,149 9,860 15,949 5,140 7,893 10,991 10,189 2,917 5,700 53,100 21,892 158,780 2010 15,903 10,128 16,209 4,312 7,906 11,394 10,384 2,969 6,264 55,114 22,922 163,505 Historic Summer Coincident Peak Demand by Zone - MW Year A B C D E F G H I J K NYCA 2001 2,519 1,889 2,719 780 1,260 2,068 2,361 537 1,347 10,602 4,900 30,982 2002 2,631 1,842 2,787 777 1,252 2,073 2,076 498 1,335 10,321 5,072 30,664 2003 2,510 1,782 2,727 671 1,208 2,163 2,146 498 1,395 10,240 4,993 30,333 2004 2,493 1,743 2,585 644 1,057 1,953 2,041 475 1,280 9,742 4,420 28,433 2005 2,726 1,923 2,897 768 1,314 2,164 2,236 592 1,409 10,810 5,236 32,075 2006 2,735 2,110 3,128 767 1,435 2,380 2,436 596 1,467 11,300 5,585 33,939 2007 2,592 1,860 2,786 795 1,257 2,185 2,316 595 1,438 10,970 5,375 32,169 2008 2,611 2,001 2,939 801 1,268 2,270 2,277 657 1,399 10,979 5,231 32,432 2009 2,595 1,939 2,780 536 1,351 2,181 2,159 596 1,279 10,366 5,063 30,844 2010 2,663 1,985 2,846 552 1,437 2,339 2,399 700 1,487 11,213 5,832 33,452 Historic Winter Coincident Peak Demand by Zone - MW Year A B C D E F G H I J K NYCA 2001-02* 2,248 1,455 2,340 843 1,129 1,742 1,626 344 860 7,013 3,198 22,798 2002-03 2,418 1,507 2,679 925 1,223 1,903 1,590 437 927 7,373 3,472 24,454 2003-04 2,433 1,576 2,755 857 1,344 1,944 1,720 478 981 7,527 3,647 25,262 2004-05 2,446 1,609 2,747 918 1,281 1,937 1,766 474 939 7,695 3,729 25,541 2005-06 2,450 1,544 2,700 890 1,266 1,886 1,663 515 955 7,497 3,581 24,947 2006-07 2,382 1,566 2,755 921 1,274 1,888 1,638 504 944 7,680 3,505 25,057 2007-08 2,336 1,536 2,621 936 1,312 1,886 1,727 524 904 7,643 3,596 25,021 2008-09 2,274 1,567 2,533 930 1,289 1,771 1,634 529 884 7,692 3,570 24,673 2009-10 2,330 1,555 2,558 648 1,289 1,788 1,527 561 813 7,562 3,443 24,074 2010-11 2,413 1,606 2,657 645 1,296 1,825 1,586 526 927 7,661 3,512 24,652

The 2001-2002 winter capability period peak was set on April 18, 2002 due to unseasonably high remepratures. The peak reported here was the highest coincident load recorded from December 1, 2001 through March 31, 2002.

21

Table I-4b: Historic Non-Coincident Peaks Historic Summer Non-Coincident Peak Demand by Zone - MW Year A B C D E F G H I J K 2001 2,745 1,938 2,764 806 1,304 2,107 2,401 549 1,397 10,602 4,901 2002 2,770 1,898 2,879 804 1,361 2,114 2,097 562 1,364 10,457 5,082 2003 2,611 1,790 2,745 762 1,223 2,170 2,146 579 1,395 10,240 4,993 2004 2,523 1,743 2,601 705 1,149 1,997 2,041 502 1,366 9,769 4,728 2005 2,787 2,037 3,042 823 1,360 2,254 2,296 632 1,492 11,162 5,295 2006 2,786 2,144 3,153 845 1,435 2,380 2,497 627 1,545 11,350 5,752 2007 2,738 2,015 2,888 829 1,349 2,301 2,316 607 1,438 10,971 5,396 2008 2,611 2,001 2,939 875 1,388 2,302 2,344 665 1,441 11,262 5,281 2009 2,608 1,939 2,780 721 1,420 2,188 2,178 600 1,323 10,661 5,194 2010 2,768 2,075 2,932 566 1,469 2,379 2,407 700 1,492 11,213 5,832 Historic Winter Non-Coincident Peak Demand by Zone - MW Year A B C D E F G H I J K 2001-02* 2,329 1,511 2,611 872 1,190 1,792 1,646 470 1,005 7,067 3,296 2002-03 2,870 1,538 2,687 941 1,259 1,910 1,619 490 1,155 7,440 3,496 2003-04 2,434 1,576 2,966 1,052 1,362 1,944 1,720 530 1,286 7,595 3,647 2004-05 2,463 1,609 2,804 945 1,305 1,958 1,794 571 1,080 7,695 3,767 2005-06 2,450 1,546 2,700 912 1,266 2,196 1,663 541 1,058 7,668 3,584 2006-07 2,400 1,566 2,755 943 1,280 1,932 1,641 532 944 7,680 3,506 2007-08 2,370 1,573 2,621 936 1,312 1,886 1,727 556 955 7,761 3,596 2008-09 2,332 1,574 2,573 949 1,299 1,837 1,694 558 899 8,340 3,633 2009-10 2,363 1,584 2,558 657 1,377 1,804 1,599 578 954 7,612 3,528 2010-11 2,425 1,608 2,657 701 1,359 1,899 1,586 580 975 7,661 3,555

The 2001-2002 winter capability period peak was set on April 18, 2002 due to unseasonally high temperatues. The reported figure was the highest coincident load recorded from December 1, 2001 through M arch 31, 2002.

New York Control Area System Coincident Peaks, Dates and Times Summer Peak Dates & Times Winter Peak Dates & Times May 1 through October 31 November 1 through following April 30 Hour Summer Hour Winter Year Date Year Date Ending Peak MW Ending Peak MW 1994 7/21/1994 15 27,065 1994 - 05 2/6/1995 19 23,345 1995 8/4/1995 16 27,206 1995 - 06 12/20/1995 18 23,394 1996 7/18/1996 17 25,585 1996 - 07 1/17/1997 18 22,728 1997 7/15/1997 15 28,699 1997 - 08 12/10/1997 18 22,445 1998 7/22/1998 17 28,161 1998 - 09 1/14/1999 18 23,878 1999 7/6/1999 14 30,311 1999 - 00 1/18/2000 18 24,041 2000 6/26/2000 17 28,138 2000 - 01 12/13/2000 18 23,774 2001 8/9/2001 15 30,982 2001 - 02 4/18/2002 17 23,713 2002 7/29/2002 17 30,664 2002 - 03 1/23/2003 19 24,454 2003 6/26/2003 17 30,333 2003 - 04 1/15/2004 19 25,262 2004 6/9/2004 17 28,433 2004 - 05 12/20/2004 18 25,541 2005 7/26/2005 17 32,075 2005 - 06 12/14/2005 19 25,060 2006 8/2/2006 14 33,939 2006 - 07 2/5/2007 18 25,057 2007 8/8/2007 17 32,169 2007 - 08 1/3/2008 19 25,021 2008 6/9/2008 17 32,432 2008 - 09 12/22/2008 18 24,673 2009 8/17/2009 16 30,844 2009 - 10 12/17/2009 18 24,074 2010 7/6/2010 17 33,452 2010 - 11 12/14/2011 18 24,654 22

SECTION II:

CHANGES IN EXISTING GENERATION CAPACITY SINCE 2010 LOAD AND CAPACITY DATA REPORT

24 Summary of Significant Changes in Generation and Generating Facilities Since 2010 Load and Capacity Data Report The Summer 2011 generating capability of 37,707 MW is about 290 MW more than the Summer 2010 generating capability of 37,416 MW, as summarized in the table below. Both fossil fuel capability and renewable capability are higher in Summer 2011 as compared to Summer 2010.

Five new generating facilities with a Summer capability of 579 MW and nameplate ratings of 727 MW were added since the publication of the 2010 Load and Capacity Data report.

One fossil unit with 571.6 MW Summer Capability and one wind turbine with a nameplate rating of 74 MW and 7.4 MW Summer Capability were added. The remaining units added were one flywheel unit (20 MW), one battery unit (20 MW) and one methane gas unit (3 MW), for a total of 43 MW, all at nameplate rating.

Six generating facilities with Summer capability of 307 MW have retired since the publication of the 2010 Load and Capacity Data. Three units were fueled by gas, two by coal, and one by hydro. There was a net increase of 19 MW in Summer Capability due to changes in the capability of all other units currently in operation.

In 2010, a total of 139,357 GWh was generated, an increase of 2.1% over 2009. The year 2010 also saw an increase in fossil fuel generation and an increase in renewable energy generation, as compared to 2009.

Table II-1: Summary of Changes in Generating Facilities Summer Winter Generating Units MW MW 2010 Capability 37,416 40,086 Additions 579 694 Retirements -307 -369 Other Ratings Changes 19 -3 2011 Capability 37,707 40,408 25

26 SECTION III:

EXISTING GENERATING CAPACITY AS OF MARCH 2011

28 Table III-1: Existing Generating Facilities Codes and Abbreviation FUEL TYPES UNIT TYPES BOILER FIRING (FT) COOLING METHOD (CS)

BAT - Battery CC - Combined Cycle C- Cyclone A - Once Through Cooling BIT - Bituminous Coal CG - Cogeneration D- Down-Fired B - Natural Draft Cooling Tower COL - Liquefied Coal CT - Combustion Turbine Portion (CC) S- Stoker C - Air FO2 - No. 2 Fuel Oil CW - Waste Heat Only (CC) T- Tangential FO4 - No. 4 Fuel Oil ES - Energy Storage W- Wall-Fired FO6 - No. 6 Fuel Oil FC - Fuel Cell FW - Fly Wheel GT - Combustion Turbine JF - Jet Fuel HY - Conventional Hydro KER - Kerosene IC - Internal Combustion MTE - Methane Gas IG - Integrated Coal Gasification (CC)

NG - Natural Gas JE - Jet Engine OT - Other (Describe In Footnote) NB - Steam (BWR Nuclear)

REF - Refuse (Solid Waste) NP - Steam (PWR Nuclear)

SUN - Sunlight PS - Pumped Storage Hydro UR - Uranium PV - Photovoltaic WAT - Water ST - Steam Turbine (Fossil)

WD - Wood and/or Wood Waste WT - Wind Turbine WND - Wind COUNTY CODES COUNTY CODES COUNTY CODES COUNTY CODES NEW YORK - NY - 36 PENNSYLVANIA - PA - 42 MASSACHUSETTS - MA - 25 NEW JERSEY - NJ - 34 001 Albany 063 Niagara 001 Adams 067 Juniata 001 Barnstable 001 Atlantic 003 Allegany 065 Oneida 003 Allegheny 069 Lackawanna 003 Berkshire 003 Bergen 005 Bronx 067 Onondaga 005 Armstrong 071 Lancaster 005 Bristol 005 Burlington 007 Broome 069 Ontario 007 Beaver 073 Lawrence 007 Dukes 007 Camden 009 Cattaraugus 071 Orange 009 Bedford 075 Lebannon 009 Essex 009 Cape May 011 Cayuga 073 Orleans 011 Berks 077 Lehigh 011 Franklin 011 Cumberland 013 Chautauqua 075 Oswego 013 Blair 079 Luzerne 013 Hampden 013 Essex 015 Chemung 077 Otsego 015 Bradford 081 Lycoming 015 Hampshire 015 Gloucester 017 Chenango 079 Putnam 017 Bucks 083 McKean 017 Middlesex 017 Hudson 019 Clinton 081 Queens 019 Butler 085 Mercer 019 Nantucket 019 Hunterdon 021 Columbia 083 Rensselaer 021 Cambria 087 Mifflin 021 Norfolk 021 Mercer 023 Cortland 085 Richmond 023 Cameron 089 Monroe 023 Plymouth 023 Middlesex 025 Delaware 087 Rockland 025 Carbon 091 Montgomery 025 Suffolk 025 Monmouth 027 Dutchess 089 St Lawrence 027 Centre 093 Montour 027 Worcester 027 Morris 029 Erie 091 Saratoga 029 Chester 095 Northhampton 029 Ocean 031 Essex 093 Schenectady 031 Clarion 097 Northumberland 031 Passaic 033 Franklin 095 Schoharie 033 Clearfield 099 Perry 033 Salem 035 Fulton 097 Schuyler 035 Clinton 101 Philadelphia 035 Somerset 037 Genesee 099 Seneca 037 Columbia 103 Pike 037 Sussex 039 Greene 101 Steuben 039 Crawford 105 Potter 039 Union 041 Hamilton 103 Suffolk 041 Cumberland 107 Schuylkill 041 Warren 043 Herkimer 105 Sullivan 043 Dauphin 109 Snyder 045 Jefferson 107 Tioga 045 Delaware 111 Somerset 047 Kings 109 Tompkins 047 Elk 113 Sullivan 049 Lewis 111 Ulster 049 Erie 115 Susquehanna 051 Livingston 113 Warren 051 Fayette 117 Tioga 053 Madison 115 Washington 053 Forest 119 Union 055 Monroe 117 Wayne 055 Franklin 121 Venango 057 Montgomery 119 Westchester 057 Fulton 123 Warren 059 Nassau 121 Wyoming 059 Greene 125 Washington 061 New York 123 Yates 061 Huntingdon 127 Wayne 063 Indiana 129 Westmoreland 065 Jefferson 131 Wyoming 133 York 29

30 Table III-2: Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty St YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes AES Eastern Energy, LP Cayuga 1 C 23584 Lansing 109 36 1955-09-01 155.3 154.1 154.0 154.5 N ST T A BIT 837.9 AES Eastern Energy, LP Cayuga 2 C 23585 Lansing 109 36 1958-10-01 167.2 154.7 158.7 155.1 N ST T A BIT 943.7 AES Eastern Energy, LP Cayuga IC 1 C 23629 Lansing 109 36 1967-08-01 2.8 2.8 0.0 0.0 N IC C FO2 0.0 AES Eastern Energy, LP Cayuga IC 2 C 23629 Lansing 109 36 1967-08-01 2.8 2.8 0.0 0.0 N IC C FO2 0.0 AES Eastern Energy, LP Greenidge 4 (Ret.- 3/18/11) C 23583 Torrey 123 36 1953-12-01 112.5 106.1 0.0 0.0 N ST T A BIT WD NG 547.5 (P)

AES Eastern Energy, LP Somerset A 23543 Somerset 063 36 1984-08-01 655.1 686.5 678.0 684.1 N ST W A BIT 4,596.1 AES Eastern Energy, LP Westover 8 (Ret. - 3/18/11) C 23580 Union 007 36 1951-12-01 75.0 83.8 0.0 0.0 N ST T A BIT 257.1 (P)

AES ES Westover LLC Westover LESR C 323668 Johnson City 007 36 2010-12-13 20.0 0.0 0.0 0.0 ES BAT (N)

Astoria Energy, LLC Astoria East Energy CC1 J 323581 Queens 081 36 2006-04-01 448.0 392.3 393.9 434.4 N CC A NG FO2 3,334.2 ( G)

Astoria Energy, LLC Astoria East Energy CC2 J 323582 Queens 081 36 2006-04-01 192.0 165.0 153.5 173.5 N CC A NG FO2 Astoria Generating Company L.P. Astoria 2 J 24149 Queens 081 36 2001-05-01 180.0 177.0 184.6 183.3 N ST A NG 45.1 Astoria Generating Company L.P. Astoria 3 J 23516 Queens 081 36 1958-09-01 376.0 369.9 373.3 373.7 N ST A FO6 NG 728.3 Astoria Generating Company L.P. Astoria 4 J 23517 Queens 081 36 1961-03-01 387.0 375.6 380.1 387.2 N ST A FO6 NG 636.9 Astoria Generating Company L.P. Astoria 5 J 23518 Queens 081 36 1962-05-01 387.0 376.3 379.5 381.6 N ST A FO6 NG 411.7 Astoria Generating Company L.P. Astoria GT 01 J 23523 Queens 081 36 1967-07-01 16.0 15.7 15.1 18.1 N GT C NG 1.0 Astoria Generating Company L.P. Gowanus 1-1 J 24077 Brooklyn 047 36 1971-06-01 20.0 19.1 17.7 23.1 N GT C FO2 0.5 Astoria Generating Company L.P. Gowanus 1-2 J 24078 Brooklyn 047 36 1971-06-01 20.0 17.1 15.7 21.4 N GT C FO2 0.4 Astoria Generating Company L.P. Gowanus 1-3 J 24079 Brooklyn 047 36 1971-06-01 20.0 17.2 16.2 21.6 N GT C FO2 0.3 Astoria Generating Company L.P. Gowanus 1-4 J 24080 Brooklyn 047 36 1971-06-01 20.0 17.1 15.4 21.3 N GT C FO2 0.3 Astoria Generating Company L.P. Gowanus 1-5 J 24084 Brooklyn 047 36 1971-06-01 20.0 16.5 16.1 20.2 N GT C FO2 0.4 Astoria Generating Company L.P. Gowanus 1-6 J 24111 Brooklyn 047 36 1971-06-01 20.0 18.0 17.3 21.6 N GT C FO2 0.4 Astoria Generating Company L.P. Gowanus 1-7 J 24112 Brooklyn 047 36 1971-06-01 20.0 17.6 16.7 21.9 N GT C FO2 0.4 Astoria Generating Company L.P. Gowanus 1-8 J 24113 Brooklyn 047 36 1971-06-01 20.0 16.1 15.6 20.4 N GT C FO2 0.3 Astoria Generating Company L.P. Gowanus 2-1 J 24114 Brooklyn 047 36 1971-06-01 20.0 17.9 17.1 21.7 N GT C FO2 NG 1.3 Astoria Generating Company L.P. Gowanus 2-2 J 24115 Brooklyn 047 36 1971-06-01 20.0 18.8 18.6 23.0 N GT C FO2 NG 1.8 Astoria Generating Company L.P. Gowanus 2-3 J 24116 Brooklyn 047 36 1971-06-01 20.0 20.6 19.5 24.3 N GT C FO2 NG 1.7 Astoria Generating Company L.P. Gowanus 2-4 J 24117 Brooklyn 047 36 1971-06-01 20.0 19.3 18.0 22.7 N GT C FO2 NG 2.0 Astoria Generating Company L.P. Gowanus 2-5 J 24118 Brooklyn 047 36 1971-06-01 20.0 18.6 18.0 23.4 N GT C FO2 NG 2.0 Astoria Generating Company L.P. Gowanus 2-6 J 24119 Brooklyn 047 36 1971-06-01 20.0 20.3 19.5 24.8 N GT C FO2 NG 3.0 Astoria Generating Company L.P. Gowanus 2-7 J 24120 Brooklyn 047 36 1971-06-01 20.0 19.6 18.9 23.9 N GT C FO2 NG 2.5 Astoria Generating Company L.P. Gowanus 2-8 J 24121 Brooklyn 047 36 1971-06-01 20.0 17.7 17.0 22.7 N GT C FO2 NG 1.4 Astoria Generating Company L.P. Gowanus 3-1 J 24122 Brooklyn 047 36 1971-07-01 20.0 17.7 17.3 21.7 N GT C FO2 NG 1.7 Astoria Generating Company L.P. Gowanus 3-2 J 24123 Brooklyn 047 36 1971-07-01 20.0 17.7 17.1 21.4 N GT C FO2 NG 1.4 Astoria Generating Company L.P. Gowanus 3-3 J 24124 Brooklyn 047 36 1971-07-01 20.0 19.8 18.7 23.2 N GT C FO2 NG 2.0 Astoria Generating Company L.P. Gowanus 3-4 J 24125 Brooklyn 047 36 1971-07-01 20.0 17.9 16.7 21.3 N GT C FO2 NG 1.3 Astoria Generating Company L.P. Gowanus 3-5 J 24126 Brooklyn 047 36 1971-07-01 20.0 19.0 18.1 23.0 N GT C FO2 NG 2.4 Astoria Generating Company L.P. Gowanus 3-6 J 24127 Brooklyn 047 36 1971-07-01 20.0 17.6 15.4 20.2 N GT C FO2 NG 1.3 31

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Astoria Generating Company L.P. Gowanus 3-7 J 24128 Brooklyn 047 36 1971-07-01 20.0 18.1 16.8 22.0 N GT C FO2 NG 1.4 Astoria Generating Company L.P. Gowanus 3-8 J 24129 Brooklyn 047 36 1971-07-01 20.0 19.0 17.9 22.8 N GT C FO2 NG 2.2 Astoria Generating Company L.P. Gowanus 4-1 J 24130 Brooklyn 047 36 1971-07-01 20.0 16.8 15.7 21.2 N GT C FO2 0.3 Astoria Generating Company L.P. Gowanus 4-2 J 24131 Brooklyn 047 36 1971-07-01 20.0 17.3 17.5 22.0 N GT C FO2 0.3 Astoria Generating Company L.P. Gowanus 4-3 J 24132 Brooklyn 047 36 1971-07-01 20.0 17.6 17.7 22.1 N GT C FO2 0.4 Astoria Generating Company L.P. Gowanus 4-4 J 24133 Brooklyn 047 36 1971-07-01 20.0 17.1 16.2 21.1 N GT C FO2 0.4 Astoria Generating Company L.P. Gowanus 4-5 J 24134 Brooklyn 047 36 1971-07-01 20.0 17.1 16.3 21.5 N GT C FO2 0.5 Astoria Generating Company L.P. Gowanus 4-6 J 24135 Brooklyn 047 36 1971-07-01 20.0 18.6 18.1 23.4 N GT C FO2 0.2 Astoria Generating Company L.P. Gowanus 4-7 J 24136 Brooklyn 047 36 1971-07-01 20.0 16.6 16.4 22.1 N GT C FO2 0.3 Astoria Generating Company L.P. Gowanus 4-8 J 24137 Brooklyn 047 36 1971-07-01 20.0 19.0 16.3 23.4 N GT C FO2 0.4 Astoria Generating Company L.P. Narrows 1-1 J 24228 Brooklyn 047 36 1972-05-01 22.0 21.0 19.3 23.5 N GT C KER NG 7.8 Astoria Generating Company L.P. Narrows 1-2 J 24229 Brooklyn 047 36 1972-05-01 22.0 19.5 17.3 23.0 N GT C KER NG 6.6 Astoria Generating Company L.P. Narrows 1-3 J 24230 Brooklyn 047 36 1972-05-01 22.0 20.4 18.7 24.0 N GT C KER NG 8.3 Astoria Generating Company L.P. Narrows 1-4 J 24231 Brooklyn 047 36 1972-05-01 22.0 20.1 19.0 23.8 N GT C KER NG 6.9 Astoria Generating Company L.P. Narrows 1-5 J 24232 Brooklyn 047 36 1972-05-01 22.0 19.8 18.9 21.9 N GT C KER NG 5.5 Astoria Generating Company L.P. Narrows 1-6 J 24233 Brooklyn 047 36 1972-05-01 22.0 18.9 17.6 22.2 N GT C KER NG 6.4 Astoria Generating Company L.P. Narrows 1-7 J 24234 Brooklyn 047 36 1972-05-01 22.0 18.4 17.6 22.0 N GT C KER NG 6.6 Astoria Generating Company L.P. Narrows 1-8 J 24235 Brooklyn 047 36 1972-05-01 22.0 19.9 17.9 21.9 N GT C KER NG 6.5 Astoria Generating Company L.P. Narrows 2-1 J 24236 Brooklyn 047 36 1972-06-01 22.0 19.4 20.0 22.7 N GT C KER NG 9.2 Astoria Generating Company L.P. Narrows 2-2 J 24237 Brooklyn 047 36 1972-06-01 22.0 18.7 17.9 22.7 N GT C KER NG 7.7 Astoria Generating Company L.P. Narrows 2-3 J 24238 Brooklyn 047 36 1972-06-01 22.0 18.4 17.5 21.6 N GT C KER NG 3.2 Astoria Generating Company L.P. Narrows 2-4 J 24239 Brooklyn 047 36 1972-06-01 22.0 18.4 18.7 23.1 N GT C KER NG 6.2 Astoria Generating Company L.P. Narrows 2-5 J 24240 Brooklyn 047 36 1972-06-01 22.0 19.9 18.5 23.4 N GT C KER NG 7.4 Astoria Generating Company L.P. Narrows 2-6 J 24241 Brooklyn 047 36 1972-06-01 22.0 18.1 16.4 21.9 N GT C KER NG 6.9 Astoria Generating Company L.P. Narrows 2-7 J 24242 Brooklyn 047 36 1972-06-01 22.0 20.7 19.6 24.7 N GT C KER NG 8.2 Astoria Generating Company L.P. Narrows 2-8 J 24243 Brooklyn 047 36 1972-06-01 22.0 17.5 17.7 22.0 N GT C KER NG 5.6 Athens Generating Company, LP Athens 1 F 23668 Athens 039 36 2004-05-01 441.0 316.6 310.9 395.5 CC NG 2,243.3 Athens Generating Company, LP Athens 2 F 23670 Athens 039 36 2004-05-01 441.0 315.6 309.3 390.9 CC NG 1,827.7 Athens Generating Company, LP Athens 3 F 23677 Athens 039 36 2004-05-01 441.0 312.8 311.1 396.1 CC NG 2,037.1 Boralex Hydro Operations Inc Fourth Branch F 23824 Waterford 091 36 1987-12-01 3.3 3.5 3.3 3.3 HY WAT 15.2 Boralex Hydro Operations Inc NYS Dam F 23527 Waterford 091 36 1990-12-01 11.4 11.3 11.4 11.4 HY WAT 54.3 Boralex Hydro Operations Inc Sissonville E 23735 Potsdam 089 36 1990-08-01 3.1 3.0 3.1 3.1 HY WAT 15.5 Boralex Hydro Operations Inc Warrensburg F 23737 Warrensburg 113 36 1988-12-01 2.9 3.0 2.9 2.9 HY WAT 13.2 Boralex New York LP Chateaugay Power D 23792 Chateaugay 033 36 1993-02-01 19.7 18.6 18.7 18.4 N ST WD 130.4 Calpine Energy Service LP Bethpage K 23823 Hicksville 059 36 1989-09-01 83.6 54.9 51.7 59.4 Y CC NG FO2 152.2 Calpine Energy Service LP Bethpage GT4 K 323586 Hicksville 059 36 2002-07-01 60.0 48.2 43.1 46.6 N GT NG 45.6 Calpine Energy Service LP KIAC JFK GT1 J 23816 Jamaica 081 36 1995-01-01 60.6 58.7 52.8 59.1 Y CC NG 582.5 ( G) 32

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Calpine Energy Service LP KIAC JFK GT2 J 23817 Jamaica 081 36 1995-01-01 60.6 58.3 53.5 58.7 Y CC NG Canandaigua Power Partners, LLC Canandaigua Wind Power C 323617 Avoca 101 36 2008-12-05 125.0 125.0 12.5 37.5 WT WND 258.5 (W )

Canastota Wind Power, LLC Fenner Wind Power C 24204 Fenner 053 36 2001-12-01 30.0 30.0 0.0 0.0 WT WND 26.1 (W )

Carr Street Generating Station LP Carr St.-E. Syr C 24060 Dewitt 067 36 1993-08-01 122.6 89.0 86.6 106.6 Y CC NG 28.5 Castleton Power, LLC Fort Orange F 23900 Castleton 083 36 1992-01-01 72.0 67.0 61.3 73.5 Y CC NG 136.7 Central Hudson Gas & Elec. Corp. Coxsackie GT G 23611 Coxsackie 039 36 1969-12-01 21.6 19.9 19.5 25.1 N GT C KER NG 0.2 Central Hudson Gas & Elec. Corp. Dashville 1 G 23610 Rifton 111 36 1920-01-01 2.4 2.7 0.0 0.0 HY WAT 0.0 Central Hudson Gas & Elec. Corp. Dashville 2 G 23610 Rifton 111 36 1920-01-01 2.4 2.7 0.0 0.0 HY WAT 0.0 Central Hudson Gas & Elec. Corp. DCRRA G 23765 Poughkeepsie 027 36 1987-09-01 9.2 9.0 7.6 7.7 N ST REF 47.7 Central Hudson Gas & Elec. Corp. High Falls G 23754 Marbletown 111 36 1986-12-01 3.2 3.0 0.0 0.0 HY WAT 0.0 Central Hudson Gas & Elec. Corp. Millpond G x Catskill 039 36 1993-12-01 0.9 0.0 0.0 HY WAT 0.0 Central Hudson Gas & Elec. Corp. Montgomery West G x Montgomery 071 36 1985-11-01 0.2 0.0 0.0 HY WAT 0.0 Central Hudson Gas & Elec. Corp. Salisbury Mills G x Salisbury Mills 071 36 1986-12-01 0.5 0.0 0.0 HY WAT 0.0 Central Hudson Gas & Elec. Corp. South Cairo G 23612 Cairo 039 36 1970-06-01 21.6 17.8 16.9 22.7 N GT C KER 0.2 Central Hudson Gas & Elec. Corp. Sturgeon 1 G 23609 Rifton 111 36 1924-01-01 4.8 5.3 0.0 0.0 HY WAT 0.0 Central Hudson Gas & Elec. Corp. Sturgeon 2 G 23609 Rifton 111 36 1924-01-01 4.8 5.3 0.0 0.0 HY WAT 0.0 Central Hudson Gas & Elec. Corp. Sturgeon 3 G 23609 Rifton 111 36 1924-01-01 4.8 5.3 0.0 0.0 HY WAT 0.0 Central Hudson Gas & Elec. Corp. Wallkill G x Shwangunk 111 36 1986-12-01 0.5 0.0 0.0 HY WAT 0.0 Central Hudson Gas & Elec. Corp. Wappingers Falls G 23765 Wappingers 027 36 1988-12-01 2.0 2.0 2.0 2.0 HY WAT 7.7 Commerce Energy, Inc. Steel Winds A 323596 Lackawanna 029 36 2007-01-23 20.0 20.0 2.0 6.0 WT WND 48.3 (W )

Consolidated Edison Co. of NY, Inc. 59 St. GT 1 J 24138 Manhattan 061 36 1969-06-01 17.1 15.4 14.1 16.9 N GT C KER 0.7 Consolidated Edison Co. of NY, Inc. 74 St. GT 1 J 24260 Manhattan 061 36 1968-10-01 18.5 19.0 14.4 20.4 N GT C KER 0.1 Consolidated Edison Co. of NY, Inc. 74 St. GT 2 J 24261 Manhattan 061 36 1968-10-01 18.5 20.1 20.4 21.1 N GT C KER 0.1 Consolidated Edison Co. of NY, Inc. Brooklyn Navy Yard J 23515 Brooklyn 047 36 1996-11-01 322.0 266.9 256.9 274.3 Y CC NG FO2 1,783.7 Consolidated Edison Co. of NY, Inc. East River 1 J 323558 Manhattan 061 36 2005-04-01 185.0 148.5 146.4 184.8 CC NG KER 1,166.9 Consolidated Edison Co. of NY, Inc. East River 2 J 323559 Manhattan 061 36 2005-04-05 189.0 150.4 147.1 185.4 CC NG KER 1,167.1 Consolidated Edison Co. of NY, Inc. East River 6 J 23660 Manhattan 061 36 1951-11-01 156.2 134.3 126.1 136.9 Y ST A FO6 NG 480.6 Consolidated Edison Co. of NY, Inc. East River 7 J 23524 Manhattan 061 36 1955-06-01 200.0 184.7 186.6 185.3 Y ST A FO6 NG 471.0 Consolidated Edison Co. of NY, Inc. Hudson Ave 3 J 23810 Brooklyn 047 36 1970-07-01 16.3 16.0 15.4 19.0 Y GT C KER 0.3 Consolidated Edison Co. of NY, Inc. Hudson Ave 4 J 23540 Brooklyn 047 36 1970-07-01 16.3 13.9 12.1 17.4 Y GT C KER 0.3 Consolidated Edison Co. of NY, Inc. Hudson Ave 5 J 23657 Brooklyn 047 36 1970-07-01 16.3 15.1 12.1 18.4 Y GT C KER 0.4 Consolidated Edison Co. of NY, Inc. Linden Cogen J 23786 Linden NJ 039 34 1992-05-01 1,034.9 753.3 757.0 799.8 Y CC NG 3,565.2 Consolidated Edison Energy, Inc. Massena D 23902 Massena 089 36 1992-07-01 102.1 82.2 82.9 92.4 Y CC NG FO2 5.8 Consolidated Hydro New York, Inc. Groveville Hydro G 323602 Beacon 027 36 1983-12-01 2.0 0.0 0.0 HY WAT 1.4 Consolidated Hydro New York, Inc. Walden Hydro G 24148 Walden 071 36 1983-12-01 2.4 1.5 1.5 1.6 HY WAT 3.2 Constellation Energy Commodities Grp., Inc. Chaffee A 323603 Chaffee 029 36 2007-08-09 6.4 6.4 6.4 6.4 IC MTE 47.3 Constellation Energy Commodities Grp., Inc. High Acres 1 C 23767 Fairport 117 36 1991-06-01 3.2 3.2 3.2 3.2 N IC MTE 25.3 33

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Constellation Energy Commodities Grp., Inc. High Acres 2 C 23767 Fairport 117 36 2008-02-28 6.4 6.4 6.4 6.4 N IC MTE 44.7 Constellation Energy Commodities Grp., Inc. Madison County LF E 323628 Wampsville 053 36 2010-03-01 1.6 1.6 1.6 N IC MTE 6.2 ( N ) ( 1 )

Constellation Energy Commodities Grp., Inc. Mill Seat B 323607 Riga 055 36 2007-07-20 6.4 6.4 6.4 6.4 IC MTE 53.1 Constellation Energy Commodities Grp., Inc. Monroe Livingston B 24207 Scottsville 055 36 1988-11-01 2.4 2.4 2.4 2.4 IC MTE 11.2 Covanta Niagara, LP American Ref-Fuel 1 A 24010 Niagara 063 36 1993-05-01 25.0 19.6 15.6 17.7 Y ST REF 239.8 ( G)

Covanta Niagara, LP American Ref-Fuel 2 A 24010 Niagara 063 36 1993-05-01 25.0 19.6 15.6 17.7 Y ST REF Delaware County Delaware LFGE E 323621 Walton 025 36 2009-02-11 2.0 0.0 0.0 N IC MTE 0.0 (N)

Dynegy Power Marketing, Inc. Danskammer 1 G 23586 Newburgh 071 36 1951-12-01 72.0 67.0 66.5 65.7 N ST T A FO6 NG FO2 3.0 Dynegy Power Marketing, Inc. Danskammer 2 G 23589 Newburgh 071 36 1954-09-01 73.5 62.7 61.7 63.7 N ST T A FO6 NG FO2 4.3 Dynegy Power Marketing, Inc. Danskammer 3 G 23590 Newburgh 071 36 1959-10-01 147.1 137.2 138.5 137.0 N ST T A BIT NG FO2 652.9 Dynegy Power Marketing, Inc. Danskammer 4 G 23591 Newburgh 071 36 1967-09-01 239.4 236.2 236.7 236.5 N ST T A BIT NG FO2 1,073.7 Dynegy Power Marketing, Inc. Danskammer 5 G 23592 Newburgh 071 36 1967-01-01 2.7 2.5 0.0 0.0 N IC C FO2 0.0 Dynegy Power Marketing, Inc. Danskammer 6 G 23592 Newburgh 071 36 1967-01-01 2.7 2.5 0.0 0.0 N IC C FO2 0.0 Dynegy Power Marketing, Inc. Independence C 23800 Scriba 075 36 1994-11-01 1,254.0 954.4 930.8 1,102.0 Y CC NG 3,515.0 Dynegy Power Marketing, Inc. Roseton 1 G 23587 Newburgh 071 36 1974-12-01 621.0 614.8 609.7 626.0 N ST T A FO6 NG FO2 204.6 Dynegy Power Marketing, Inc. Roseton 2 G 23588 Newburgh 071 36 1974-09-01 621.0 605.7 602.5 605.0 N ST T A FO6 NG FO2 159.0 Eagle Creek Hydro Power, LLC Mongaup 1 G 23641 Forestburg 105 36 1923-07-01 1.0 1.0 0.9 1.0 HY WAT 10.4 ( G)

Eagle Creek Hydro Power, LLC Mongaup 2 G 23641 Forestburg 105 36 1923-07-01 1.0 1.0 0.9 1.0 HY WAT Eagle Creek Hydro Power, LLC Mongaup 3 G 23641 Forestburg 105 36 1923-07-01 1.0 1.0 0.9 1.0 HY WAT Eagle Creek Hydro Power, LLC Mongaup 4 G 23641 Forestburg 105 36 1926-01-01 1.0 1.0 0.9 1.0 HY WAT Eagle Creek Hydro Power, LLC Rio G 23641 Glen Spey 105 36 1927-12-01 10.0 10.3 9.1 9.6 HY WAT 20.9 Eagle Creek Hydro Power, LLC Swinging Bridge 2 G 23641 Forestburg 105 36 1930-02-01 7.0 7.2 6.4 6.7 HY WAT 9.9 Empire Generating Co, LLC EMPIRE_CC_1 F 323656 Rensselaer 083 36 2010-09-02 335.0 0.0 285.6 336.0 Y CC NG FO2 562.3 ( N ) ( 2 )

Empire Generating Co, LLC EMPIRE_CC_2 F 323658 Rensselaer 083 36 2010-09-02 335.0 0.0 285.6 336.0 Y CC NG FO2 534.8 ( N ) ( 3 )

Energy Systems North East LLC Energy Systems NE(Ret.11/1/10) A 23901 North East 049 42 1992-08-01 88.2 82.0 0.0 0.0 Y CC NG 2.7 ( R ) ( 4 )

Entergy Nuclear Power Marketing LLC Fitzpatrick 1 C 23598 Scriba 075 36 1975-07-01 882.0 858.9 828.1 847.7 NB A UR 6,361.5 Entergy Nuclear Power Marketing LLC Indian Pt 2 H 23530 Buchanan 119 36 1973-08-01 1,299.0 1,026.5 1,006.1 1,027.8 NP A UR 7,325.9 Entergy Nuclear Power Marketing LLC Indian Pt 3 H 23531 Buchanan 119 36 1976-04-01 1,012.0 1,040.4 1,030.9 1,042.2 NP A UR 8,994.7 Entergy Nuclear Power Marketing LLC Indian Pt GT 1 H 24139 Buchanan 119 36 1969-07-01 16.6 0.0 0.0 N GT C FO2 Entergy Nuclear Power Marketing LLC Indian Pt GT 2 H 23659 Buchanan 119 36 1971-07-01 25.0 0.0 0.0 N GT C FO2 Entergy Nuclear Power Marketing LLC Indian Pt GT 3 H 24019 Buchanan 119 36 1970-12-01 19.8 0.0 0.0 N GT C FO2 Erie Blvd. Hydro - Beaver River Belfort 1 E 24048 049 36 1903-01-01 0.4 0.4 0.4 0.4 HY WAT 1.2 Erie Blvd. Hydro - Beaver River Belfort 2 E 24048 049 36 1915-01-01 0.6 0.7 0.6 0.6 HY WAT 3.9 Erie Blvd. Hydro - Beaver River Belfort 3 E 24048 049 36 1918-01-01 1.0 1.0 1.0 1.0 HY WAT 5.1 Erie Blvd. Hydro - Beaver River Eagle 1 E 24048 049 36 1914-01-01 1.3 1.3 1.3 1.3 HY WAT 6.7 Erie Blvd. Hydro - Beaver River Eagle 2 E 24048 049 36 1915-01-01 1.4 1.4 1.3 1.3 HY WAT 6.1 Erie Blvd. Hydro - Beaver River Eagle 3 E 24048 049 36 1919-01-01 1.4 1.4 1.3 1.3 HY WAT 5.3 34

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Erie Blvd. Hydro - Beaver River Eagle 4 E 24048 049 36 1925-01-01 2.1 2.1 2.0 2.0 HY WAT 12.4 Erie Blvd. Hydro - Beaver River Effley 1 E 24048 049 36 1902-01-01 0.4 0.4 0.4 0.4 HY WAT 1.5 Erie Blvd. Hydro - Beaver River Effley 2 E 24048 049 36 1907-01-01 0.4 0.4 0.4 0.4 HY WAT 1.8 Erie Blvd. Hydro - Beaver River Effley 3 E 24048 049 36 1910-01-01 0.6 0.6 0.6 0.6 HY WAT 4.2 Erie Blvd. Hydro - Beaver River Effley 4 E 24048 049 36 1923-01-01 1.6 1.6 1.6 1.6 HY WAT 7.0 Erie Blvd. Hydro - Beaver River Elmer 1 E 24048 049 36 1916-01-01 0.8 0.8 0.7 0.7 HY WAT 4.7 Erie Blvd. Hydro - Beaver River Elmer 2 E 24048 049 36 1916-01-01 0.8 0.8 0.7 0.7 HY WAT 5.6 Erie Blvd. Hydro - Beaver River High Falls 1 E 24048 049 36 1925-01-01 1.6 1.6 1.6 1.6 HY WAT 5.7 Erie Blvd. Hydro - Beaver River High Falls 2 E 24048 049 36 1925-01-01 1.6 1.6 1.6 1.6 HY WAT 7.6 Erie Blvd. Hydro - Beaver River High Falls 3 E 24048 049 36 1925-01-01 1.6 1.6 1.6 1.6 HY WAT 14.7 Erie Blvd. Hydro - Beaver River Moshier 1 E 24048 043 36 1929-01-01 4.0 4.1 4.0 4.0 HY WAT 20.6 Erie Blvd. Hydro - Beaver River Moshier 2 E 24048 043 36 1929-01-01 4.0 4.1 4.0 4.0 HY WAT 15.4 Erie Blvd. Hydro - Beaver River Soft Maple 1 E 24048 049 36 1925-01-01 7.5 7.7 7.5 7.5 HY WAT 21.0 Erie Blvd. Hydro - Beaver River Soft Maple 2 E 24048 049 36 1925-01-01 7.5 7.7 7.5 7.5 HY WAT 13.1 Erie Blvd. Hydro - Beaver River Taylorville 1 E 24048 049 36 1913-01-01 1.1 1.1 1.1 1.1 HY WAT 6.0 Erie Blvd. Hydro - Beaver River Taylorville 2 E 24048 049 36 1913-01-01 1.1 1.1 1.1 1.1 HY WAT 2.8 Erie Blvd. Hydro - Beaver River Taylorville 3 E 24048 049 36 1913-01-01 1.1 1.1 1.1 1.1 HY WAT 4.4 Erie Blvd. Hydro - Beaver River Taylorville 4 E 24048 049 36 1927-01-01 1.2 1.2 1.2 1.2 HY WAT 8.6 Erie Blvd. Hydro - Black River Beebee Island 1 E 24047 045 36 1963-01-01 4.0 4.2 4.0 4.0 HY WAT 22.0 Erie Blvd. Hydro - Black River Beebee Island 2 E 24047 045 36 1968-01-01 4.0 4.2 4.0 4.0 HY WAT 11.4 Erie Blvd. Hydro - Black River Black River 1 E 24047 045 36 1920-01-01 2.0 2.1 2.0 2.0 HY WAT 9.1 Erie Blvd. Hydro - Black River Black River 2 E 24047 045 36 1920-01-01 2.0 2.1 2.0 2.0 HY WAT 17.4 Erie Blvd. Hydro - Black River Black River 3 E 24047 045 36 1920-01-01 2.0 2.1 2.0 2.0 HY WAT 7.4 Erie Blvd. Hydro - Black River Deferiet 1 E 24047 045 36 1925-01-01 3.6 3.8 3.6 3.6 HY WAT 11.9 Erie Blvd. Hydro - Black River Deferiet 2 E 24047 045 36 1925-01-01 3.6 3.8 3.6 3.6 HY WAT 26.3 Erie Blvd. Hydro - Black River Deferiet 3 E 24047 045 36 1925-01-01 3.6 3.8 3.6 3.6 HY WAT 12.7 Erie Blvd. Hydro - Black River Herrings 1 E 24047 045 36 1924-01-01 1.8 1.9 1.8 1.8 HY WAT 4.2 Erie Blvd. Hydro - Black River Herrings 2 E 24047 045 36 1924-01-01 1.8 1.9 1.8 1.8 HY WAT 10.5 Erie Blvd. Hydro - Black River Herrings 3 E 24047 045 36 1924-01-01 1.8 1.9 1.8 1.8 HY WAT 6.8 Erie Blvd. Hydro - Black River Kamargo 1 E 24047 045 36 1921-01-01 1.8 1.9 1.8 1.8 HY WAT 6.4 Erie Blvd. Hydro - Black River Kamargo 2 E 24047 045 36 1921-01-01 1.8 1.9 1.8 1.8 HY WAT 11.6 Erie Blvd. Hydro - Black River Kamargo 3 E 24047 045 36 1921-01-01 1.8 1.9 1.8 1.8 HY WAT 3.7 Erie Blvd. Hydro - Black River Sewalls 1 E 24047 045 36 1925-01-01 1.0 1.1 1.0 1.0 HY WAT 2.1 Erie Blvd. Hydro - Black River Sewalls 2 E 24047 045 36 1925-01-01 1.0 1.1 1.0 1.0 HY WAT 8.9 Erie Blvd. Hydro - East Canada Cap. Beardslee 1 F 24051 043 36 1924-01-01 10.0 8.6 10.0 10.0 HY WAT 27.1 Erie Blvd. Hydro - East Canada Cap. Beardslee 2 F 24051 043 36 1924-01-01 10.0 8.6 10.0 10.0 HY WAT 19.3 Erie Blvd. Hydro - East Canada Cap. Ephratah 1 F 24051 035 36 1920-01-01 1.4 1.2 1.3 1.3 HY WAT 0.8 35

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Erie Blvd. Hydro - East Canada Cap. Ephratah 2 F 24051 035 36 1911-01-01 1.2 1.0 1.2 1.2 HY WAT 5.2 Erie Blvd. Hydro - East Canada Cap. Ephratah 3 F 24051 035 36 1911-01-01 1.3 1.1 1.3 1.3 HY WAT 0.0 Erie Blvd. Hydro - East Canada Cap. Ephratah 4 F 24051 035 36 1911-01-01 1.3 1.1 1.3 1.3 HY WAT 5.8 Erie Blvd. Hydro - East Canada Mhwk. Inghams 1 E 24050 043 36 1912-01-01 3.2 3.5 3.2 3.2 HY WAT 11.7 Erie Blvd. Hydro - East Canada Mhwk. Inghams 2 E 24050 043 36 1912-01-01 3.2 3.5 3.2 3.2 HY WAT 16.8 Erie Blvd. Hydro - Lower Hudson Johnsonville 1 F 24059 083 36 1909-01-01 2.4 2.4 2.5 2.5 HY WAT 7.5 Erie Blvd. Hydro - Lower Hudson Schaghticoke 1 F 24059 083 36 1908-01-01 3.3 3.3 3.4 3.4 HY WAT 7.4 Erie Blvd. Hydro - Lower Hudson Schaghticoke 2 F 24059 083 36 1908-01-01 3.3 3.3 3.4 3.4 HY WAT 14.6 Erie Blvd. Hydro - Lower Hudson Schaghticoke 3 F 24059 083 36 1908-01-01 3.3 3.3 3.4 3.4 HY WAT 12.4 Erie Blvd. Hydro - Lower Hudson Schaghticoke 4 F 24059 083 36 1908-01-01 3.3 3.3 3.4 3.4 HY WAT 17.5 Erie Blvd. Hydro - Lower Hudson School Street 1 F 24059 Cohoes 001 36 1974-01-01 7.2 7.2 7.5 7.5 HY WAT 51.9 Erie Blvd. Hydro - Lower Hudson School Street 2 F 24059 Cohoes 001 36 1915-01-01 7.2 7.2 7.5 7.5 HY WAT 38.0 Erie Blvd. Hydro - Lower Hudson School Street 3 F 24059 Cohoes 001 36 1915-01-01 7.2 7.2 7.5 7.5 HY WAT 33.7 Erie Blvd. Hydro - Lower Hudson School Street 4 F 24059 Cohoes 001 36 1922-01-01 7.2 7.2 7.5 7.5 HY WAT 19.8 Erie Blvd. Hydro - Lower Hudson School Street 5 F 24059 Cohoes 001 36 1924-01-01 10.0 10.0 10.4 10.4 HY WAT 30.7 Erie Blvd. Hydro - Lower Hudson Schuylerville F 24059 091 36 1919-01-01 1.2 1.2 1.3 1.3 HY WAT 6.5 Erie Blvd. Hydro - Lower Raquette Colton 1 E 24057 089 36 1962-01-01 10.0 10.0 10.1 10.1 HY WAT 74.9 Erie Blvd. Hydro - Lower Raquette Colton 2 E 24057 089 36 1918-01-01 10.0 10.0 10.1 10.1 HY WAT 73.0 Erie Blvd. Hydro - Lower Raquette Colton 3 E 24057 089 36 1928-01-01 10.0 10.0 10.1 10.1 HY WAT 67.4 Erie Blvd. Hydro - Lower Raquette East Norfolk E 24057 089 36 1928-01-01 3.0 3.0 3.0 3.0 HY WAT 25.2 Erie Blvd. Hydro - Lower Raquette Hannawa Falls 1 E 24057 089 36 1914-01-01 3.6 3.6 3.6 3.6 HY WAT 26.0 Erie Blvd. Hydro - Lower Raquette Hannawa Falls 2 E 24057 089 36 1920-01-01 3.6 3.6 3.6 3.6 HY WAT 28.5 Erie Blvd. Hydro - Lower Raquette Higley 1 E 24057 089 36 1913-01-01 1.2 1.2 1.2 1.2 HY WAT 10.8 Erie Blvd. Hydro - Lower Raquette Higley 2 E 24057 089 36 1913-01-01 1.2 1.2 1.2 1.2 HY WAT 8.9 Erie Blvd. Hydro - Lower Raquette Higley 3 E 24057 089 36 1943-01-01 2.1 2.1 2.1 2.1 HY WAT 9.4 Erie Blvd. Hydro - Lower Raquette Higley 4 E 24057 089 36 1943-01-01 2.1 2.1 2.1 2.1 HY WAT 7.8 Erie Blvd. Hydro - Lower Raquette Norfolk E 24057 089 36 1928-01-01 4.5 4.5 4.5 4.5 HY WAT 30.4 Erie Blvd. Hydro - Lower Raquette Norwood E 24057 089 36 1928-01-01 2.0 2.0 2.0 2.0 HY WAT 15.9 Erie Blvd. Hydro - Lower Raquette Raymondville E 24057 089 36 1928-01-01 2.0 2.0 2.0 2.0 HY WAT 15.6 Erie Blvd. Hydro - Lower Raquette Sugar Island 1 E 24057 089 36 1924-01-01 2.6 2.6 2.6 2.6 HY WAT 13.1 Erie Blvd. Hydro - Lower Raquette Sugar Island 2 E 24057 089 36 1924-01-01 2.4 2.4 2.4 2.4 HY WAT 15.4 Erie Blvd. Hydro - Lower Raquette Yaleville 1 E 24057 089 36 1940-01-01 0.5 0.5 0.5 0.5 HY WAT 2.7 Erie Blvd. Hydro - Lower Raquette Yaleville 2 E 24057 089 36 1940-01-01 0.7 0.7 0.7 0.7 HY WAT 1.4 Erie Blvd. Hydro - North Salmon Allens Falls D 24042 089 36 1927-01-01 4.4 4.5 4.4 4.4 HY WAT 24.8 Erie Blvd. Hydro - North Salmon Chasm 1 D 24042 033 36 1913-01-01 1.0 1.0 1.0 1.0 HY WAT 6.6 Erie Blvd. Hydro - North Salmon Chasm 2 D 24042 033 36 1913-01-01 1.0 1.0 1.0 1.0 HY WAT 6.0 Erie Blvd. Hydro - North Salmon Chasm 3 D 24042 033 36 1926-01-01 1.4 1.4 1.3 1.3 HY WAT 9.3 36

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Erie Blvd. Hydro - North Salmon Franklin 1 D 24042 033 36 1911-01-01 1.1 1.2 1.1 1.1 HY WAT 5.0 Erie Blvd. Hydro - North Salmon Franklin 2 D 24042 033 36 1926-01-01 1.1 1.2 1.1 1.1 HY WAT 4.1 Erie Blvd. Hydro - North Salmon Hogansburg D 24042 033 36 1930-01-01 0.7 0.7 0.7 0.7 HY WAT 0.8 Erie Blvd. Hydro - North Salmon Macomb D 24042 033 36 1940-01-01 1.0 1.0 1.0 1.0 HY WAT 6.4 Erie Blvd. Hydro - North Salmon Parishville D 24042 089 36 1925-01-01 2.4 2.5 2.4 2.4 HY WAT 15.0 Erie Blvd. Hydro - North Salmon Piercefield 1 D 24042 089 36 1957-01-01 1.5 1.5 1.5 1.5 HY WAT 11.2 Erie Blvd. Hydro - North Salmon Piercefield 2 D 24042 089 36 1924-01-01 0.6 0.6 0.6 0.6 HY WAT 4.6 Erie Blvd. Hydro - North Salmon Piercefield 3 D 24042 089 36 1924-01-01 0.6 0.6 0.6 0.6 HY WAT 3.0 Erie Blvd. Hydro - NYS Barge Hydraulic Race A 23848 063 36 1942-01-01 4.7 3.1 4.6 4.6 HY WAT 11.4 Erie Blvd. Hydro - Oak Orchard Glenwood 1 B 24046 073 36 1950-01-01 0.5 0.4 0.5 0.5 HY WAT 1.9 Erie Blvd. Hydro - Oak Orchard Glenwood 2 B 24046 073 36 1950-01-01 0.5 0.4 0.5 0.5 HY WAT 2.6 Erie Blvd. Hydro - Oak Orchard Glenwood 3 B 24046 073 36 1950-01-01 0.5 0.4 0.5 0.5 HY WAT 2.5 Erie Blvd. Hydro - Oak Orchard Oak Orchard B 24046 073 36 1941-01-01 0.4 0.3 0.3 0.3 HY WAT 1.2 Erie Blvd. Hydro - Oak Orchard Waterport 1 B 24046 073 36 1941-01-01 2.3 1.8 2.2 2.2 HY WAT 3.6 Erie Blvd. Hydro - Oak Orchard Waterport 2 B 24046 073 36 1968-01-01 2.5 1.9 2.4 2.4 HY WAT 10.1 Erie Blvd. Hydro - Oswegatchie Browns Falls 1 E 24044 089 36 1923-01-01 7.5 7.6 7.7 7.7 HY WAT 47.3 Erie Blvd. Hydro - Oswegatchie Browns Falls 2 E 24044 089 36 1923-01-01 7.5 7.6 7.7 7.7 HY WAT 2.8 Erie Blvd. Hydro - Oswegatchie Eel Weir 1 E 24044 089 36 1928-01-01 0.5 0.5 0.5 0.5 HY WAT 2.5 Erie Blvd. Hydro - Oswegatchie Eel Weir 2 E 24044 089 36 1938-01-01 1.1 1.1 1.1 1.1 HY WAT 1.6 Erie Blvd. Hydro - Oswegatchie Eel Weir 3 E 24044 089 36 1938-01-01 1.1 1.1 1.1 1.1 HY WAT 2.7 Erie Blvd. Hydro - Oswegatchie Flat Rock 1 E 24044 089 36 1924-01-01 3.0 3.0 3.1 3.1 HY WAT 13.5 Erie Blvd. Hydro - Oswegatchie Flat Rock 2 E 24044 089 36 1924-01-01 3.0 3.0 3.1 3.1 HY WAT 4.1 Erie Blvd. Hydro - Oswegatchie Heuvelton 1 E 24044 089 36 1924-01-01 0.5 0.5 0.5 0.5 HY WAT 2.8 Erie Blvd. Hydro - Oswegatchie Heuvelton 2 E 24044 089 36 1924-01-01 0.5 0.5 0.5 0.5 HY WAT 2.3 Erie Blvd. Hydro - Oswegatchie Lower Newton Falls 1 E 24044 089 36 2002-07-01 0.5 0.5 0.5 0.5 HY WAT 2.9 Erie Blvd. Hydro - Oswegatchie Oswegatchie 1 E 24044 089 36 1937-01-01 0.6 0.6 0.6 0.6 HY WAT 5.6 Erie Blvd. Hydro - Oswegatchie Oswegatchie 2 E 24044 089 36 1937-01-01 0.2 0.2 0.2 0.2 HY WAT 3.2 Erie Blvd. Hydro - Oswegatchie South Edwards 1 E 24044 089 36 1937-01-01 1.0 1.0 1.0 1.0 HY WAT 6.3 Erie Blvd. Hydro - Oswegatchie South Edwards 2 E 24044 089 36 1937-01-01 1.0 1.0 1.0 1.0 HY WAT 5.8 Erie Blvd. Hydro - Oswegatchie South Edwards 3 E 24044 089 36 1921-01-01 0.7 0.7 0.7 0.7 HY WAT 6.9 Erie Blvd. Hydro - Oswegatchie South Edwards 4 E 24044 089 36 1937-01-01 0.2 0.2 0.2 0.2 HY WAT 2.1 Erie Blvd. Hydro - Oswegatchie Talcville 1 E 24044 089 36 1986-12-01 0.5 0.5 0.5 0.5 HY WAT 0.0 Erie Blvd. Hydro - Oswegatchie Talcville 2 E 24044 089 36 1986-12-01 0.5 0.5 0.5 0.5 HY WAT 0.0 Erie Blvd. Hydro - Oswegatchie Upper Newton Falls 2 E 24044 089 36 2002-07-01 0.5 0.5 0.5 0.5 HY WAT 2.1 Erie Blvd. Hydro - Oswegatchie Upper Newton Falls 3 E 24044 089 36 2002-07-01 0.5 0.5 0.5 0.5 HY WAT 3.3 Erie Blvd. Hydro - Oswegatchie Upper Newton Falls 4 E 24044 089 36 2002-07-01 0.5 0.5 0.5 0.5 HY WAT 1.5 Erie Blvd. Hydro - Seneca Oswego Baldwinsville 1 C 24041 067 36 1927-01-01 0.3 0.3 0.3 0.3 HY WAT 1.4 37

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Erie Blvd. Hydro - Seneca Oswego Baldwinsville 2 C 24041 067 36 1927-01-01 0.3 0.3 0.3 0.3 HY WAT 0.7 Erie Blvd. Hydro - Seneca Oswego Fulton 1 C 24041 075 36 1924-01-01 0.8 0.7 0.8 0.8 HY WAT 4.2 Erie Blvd. Hydro - Seneca Oswego Fulton 2 C 24041 075 36 1928-01-01 0.5 0.4 0.4 0.4 HY WAT 1.4 Erie Blvd. Hydro - Seneca Oswego Granby 1 C 24041 075 36 1983-05-01 5.0 4.5 4.9 4.9 HY WAT 18.3 Erie Blvd. Hydro - Seneca Oswego Granby 2 C 24041 075 36 1983-05-01 5.0 4.5 4.9 4.9 HY WAT 21.4 Erie Blvd. Hydro - Seneca Oswego Minetto 2 C 24041 075 36 1915-01-01 1.6 1.4 1.6 1.6 HY WAT 7.0 Erie Blvd. Hydro - Seneca Oswego Minetto 3 C 24041 075 36 1915-01-01 1.6 1.4 1.6 1.6 HY WAT 7.2 Erie Blvd. Hydro - Seneca Oswego Minetto 4 C 24041 075 36 1915-01-01 1.6 1.4 1.6 1.6 HY WAT 6.6 Erie Blvd. Hydro - Seneca Oswego Minetto 5 C 24041 075 36 1975-01-01 1.6 1.4 1.6 1.6 HY WAT 5.2 Erie Blvd. Hydro - Seneca Oswego Minetto 6 C 24041 075 36 1975-01-01 1.6 1.4 1.6 1.6 HY WAT 6.7 Erie Blvd. Hydro - Seneca Oswego Oswego Falls E 1 C 24041 075 36 1914-01-01 1.5 1.3 1.5 1.5 HY WAT 7.9 Erie Blvd. Hydro - Seneca Oswego Oswego Falls E 2 C 24041 075 36 1914-01-01 1.5 1.3 1.5 1.5 HY WAT 8.1 Erie Blvd. Hydro - Seneca Oswego Oswego Falls E 3 C 24041 075 36 1914-01-01 1.5 1.3 1.5 1.5 HY WAT 7.2 Erie Blvd. Hydro - Seneca Oswego Oswego Falls W 4 C 24041 075 36 1914-01-01 0.9 0.8 0.9 0.9 HY WAT 2.6 Erie Blvd. Hydro - Seneca Oswego Oswego Falls W 5 C 24041 075 36 1914-01-01 0.9 0.8 0.9 0.9 HY WAT 2.8 Erie Blvd. Hydro - Seneca Oswego Oswego Falls W 6 C 24041 075 36 2007-01-01 0.9 0.8 0.9 0.9 HY WAT 0.5 Erie Blvd. Hydro - Seneca Oswego Oswego Falls W 7 C 24041 075 36 2007-01-01 0.9 0.8 0.9 0.9 HY WAT 0.6 Erie Blvd. Hydro - Seneca Oswego Varick 2 C 24041 075 36 1926-01-01 2.2 2.0 2.2 2.2 HY WAT 5.7 Erie Blvd. Hydro - Seneca Oswego Varick 3 C 24041 075 36 1926-01-01 2.2 2.2 2.2 2.2 HY WAT 3.8 Erie Blvd. Hydro - Seneca Oswego Varick 4 C 24041 075 36 1926-01-01 2.2 2.0 2.2 2.2 HY WAT 2.6 Erie Blvd. Hydro - Seneca Oswego Varick 5 C 24041 075 36 1926-01-01 2.2 2.0 2.2 2.2 HY WAT 6.0 Erie Blvd. Hydro - South Salmon Bennetts Bridge 1 C 24043 075 36 1964-01-01 6.4 7.0 6.4 6.4 HY WAT 5.1 Erie Blvd. Hydro - South Salmon Bennetts Bridge 2 C 24043 075 36 1966-01-01 6.4 7.0 6.4 6.4 HY WAT 14.3 Erie Blvd. Hydro - South Salmon Bennetts Bridge 3 C 24043 075 36 1970-01-01 7.0 7.7 7.0 7.0 HY WAT 34.5 Erie Blvd. Hydro - South Salmon Bennetts Bridge 4 C 24043 075 36 1970-01-01 7.0 7.7 7.0 7.0 HY WAT 33.1 Erie Blvd. Hydro - South Salmon Lighthouse Hill 1 C 24043 075 36 1930-01-01 3.8 4.1 3.7 3.7 HY WAT 13.7 Erie Blvd. Hydro - South Salmon Lighthouse Hill 2 C 24043 075 36 1930-01-01 3.8 4.1 3.7 3.7 HY WAT 6.2 Erie Blvd. Hydro - Upper Hudson E J West 1 F 24058 091 36 1930-01-01 10.0 11.6 10.0 10.0 HY WAT 31.0 Erie Blvd. Hydro - Upper Hudson E J West 2 F 24058 091 36 1930-01-01 10.0 11.6 10.0 10.0 HY WAT 34.5 Erie Blvd. Hydro - Upper Hudson Feeder Dam 1 F 24058 091 36 1924-01-01 1.2 1.4 1.2 1.2 HY WAT 5.9 Erie Blvd. Hydro - Upper Hudson Feeder Dam 2 F 24058 091 36 1924-01-01 1.2 1.4 1.2 1.2 HY WAT 5.3 Erie Blvd. Hydro - Upper Hudson Feeder Dam 3 F 24058 091 36 1924-01-01 1.2 1.4 1.2 1.2 HY WAT 5.5 Erie Blvd. Hydro - Upper Hudson Feeder Dam 4 F 24058 091 36 1924-01-01 1.2 1.4 1.2 1.2 HY WAT 6.3 Erie Blvd. Hydro - Upper Hudson Feeder Dam 5 F 24058 091 36 1924-01-01 1.2 1.4 1.2 1.2 HY WAT 5.9 Erie Blvd. Hydro - Upper Hudson Sherman Island 1 F 24058 113 36 2009-03-01 8.0 0.0 0.0 0.0 HY WAT 26.9 Erie Blvd. Hydro - Upper Hudson Sherman Island 2 F 24058 113 36 1923-01-01 7.2 8.3 7.2 7.2 HY WAT 43.5 Erie Blvd. Hydro - Upper Hudson Sherman Island 3 F 24058 113 36 1923-01-01 8.7 10.1 8.7 8.7 HY WAT 38.7 38

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Erie Blvd. Hydro - Upper Hudson Sherman Island 4 F 24058 113 36 1923-01-01 7.2 8.3 7.2 7.2 HY WAT 40.2 Erie Blvd. Hydro - Upper Hudson Sherman Island 5 F 24058 113 36 1923-01-01 7.2 8.3 7.2 7.2 HY WAT 25.2 Erie Blvd. Hydro - Upper Hudson Sherman Island 6 F 24058 113 36 2009-02-02 1.0 0.0 0.0 0.0 HY WAT 9.9 Erie Blvd. Hydro - Upper Hudson Spier Falls 1 F 24058 091 36 1924-01-01 6.8 7.9 6.8 6.8 HY WAT 52.4 Erie Blvd. Hydro - Upper Hudson Spier Falls 2 F 24058 091 36 1930-01-01 37.6 43.6 37.5 37.5 HY WAT 190.3 Erie Blvd. Hydro - Upper Hudson Stewarts Bridge F 24058 091 36 1952-01-01 30.0 34.8 29.9 29.9 HY WAT 108.0 Erie Blvd. Hydro - Upper Raquette Blake E 24056 089 36 1957-01-01 14.4 15.6 14.4 14.4 HY WAT 60.2 Erie Blvd. Hydro - Upper Raquette Five Falls E 24056 089 36 1955-01-01 22.5 24.4 22.5 22.5 HY WAT 98.2 Erie Blvd. Hydro - Upper Raquette Rainbow Falls E 24056 089 36 1956-01-01 22.5 24.4 22.5 22.5 HY WAT 100.8 Erie Blvd. Hydro - Upper Raquette South Colton E 24056 089 36 1954-01-01 19.4 21.0 19.3 19.3 HY WAT 76.8 Erie Blvd. Hydro - Upper Raquette Stark E 24056 089 36 1957-01-01 22.5 24.4 22.5 22.5 HY WAT 98.6 Erie Blvd. Hydro - West Canada Prospect E 24049 043 36 1959-01-01 17.3 23.2 17.3 17.3 HY WAT 72.1 Erie Blvd. Hydro - West Canada Trenton Falls 5 E 24049 065 36 1919-01-01 6.8 9.1 6.8 6.8 HY WAT 49.0 Erie Blvd. Hydro - West Canada Trenton Falls 6 E 24049 065 36 1919-01-01 6.4 8.6 6.4 6.4 HY WAT 45.3 Erie Blvd. Hydro - West Canada Trenton Falls 7 E 24049 065 36 1922-01-01 6.4 8.6 6.4 6.4 HY WAT 47.2 Erie Blvd. Hydropower LP West Delaware Hydro G 323627 Grahamsville 105 36 1988-12-01 7.5 7.3 7.5 7.4 HY WAT 32.2 Flat Rock Windpower, LLC Maple Ridge Wind 1 E 323574 Lowville 049 36 2006-01-01 231.0 231.0 23.1 69.3 WT WND 494.7 (W )

Flat Rock Windpower, LLC Maple Ridge Wind 2 E 323611 Lowville 049 36 2007-12-01 90.8 90.7 9.1 27.2 WT WND 193.6 (W )

Freeport Electric Freeport 1-1 K 1660 Freeport 059 36 1941-08-01 2.1 1.5 1.5 N IC FO2 0.0 Freeport Electric Freeport 1-2 K 1660 Freeport 059 36 1949-08-01 2.9 2.2 2.2 N IC FO2 0.0 Freeport Electric Freeport 1-3 K 1660 Freeport 059 36 1954-08-01 3.1 2.1 2.0 N IC FO2 0.0 Freeport Electric Freeport 1-4 K 1660 Freeport 059 36 1964-10-01 5.1 4.5 4.5 N IC FO2 0.2 Freeport Electric Freeport 2-3 K 1660 Freeport 059 36 1973-05-01 18.1 18.0 21.0 N GT FO2 0.6 Freeport Electric Freeport CT 2 K 23818 Freeport 059 36 2004-03-01 60.5 50.3 45.8 47.6 N GT NG 55.0 Hampshire Paper Co., Inc. Hampshire Paper E 323593 Gouverneur 089 36 1987-03-01 3.4 3.5 3.4 3.4 HY WAT 20.3 Hard Scrabble Wind Power LLC Hardscrabble Wind E 323673 Fairfield 043 36 2011-02-01 74.0 74.0 7.4 22.2 WT WND 0.0 ( N ) ( W )

Hess Corporation Binghamton Cogen C 23790 Binghamton 007 36 2001-03-01 47.7 43.8 41.3 49.4 Y GT NG FO2 4.7 Hess Corporation Rensselaer Cogen F 23796 Rensselaer 083 36 1993-12-01 103.7 79.0 77.4 82.7 Y CC NG 27.4 Indeck Energy Serv. of Silver Springs Indeck-Silver Springs C 23768 Silver Springs 121 36 1991-04-01 56.6 51.5 49.1 61.1 Y CC NG FO2 11.0 Indeck-Corinth LP Indeck-Corinth F 23802 Corinth 091 36 1995-07-01 147.0 131.2 129.0 132.2 Y CC Y NG FO2 602.9 Indeck-Olean LP Indeck-Olean A 23982 Olean 009 36 1993-12-01 90.6 79.4 78.5 84.7 Y CC NG 278.8 Indeck-Oswego LP Indeck-Oswego C 23783 Oswego 075 36 1990-05-01 57.4 51.6 48.4 61.2 Y CC NG 9.1 Indeck-Yerkes LP Indeck-Yerkes A 23781 Tonawanda 029 36 1990-02-01 59.9 49.7 48.6 59.1 Y CC NG 20.2 Innovative Energy Systems, Inc. Chautauqua LFGE A 323629 Jamestown 013 36 2010-02-12 6.4 6.4 6.4 6.4 N IC MTE 43.7 ( N ) ( 5 )

Innovative Energy Systems, Inc. Clinton LFGE D 323618 Morrisonville 019 36 2008-10-01 4.8 4.8 4.8 4.8 N IC MTE 40.2 Innovative Energy Systems, Inc. Colonie LFGTE F 323577 Colonie 001 36 2006-03-01 4.8 4.8 4.8 4.8 N IC MTE 35.2 Innovative Energy Systems, Inc. DANC LFGE E 323619 Watertown 045 36 2008-09-08 4.8 4.8 4.8 4.8 N IC MTE 38.8 39

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Innovative Energy Systems, Inc. Fulton LFGE F 323630 Johnstown 035 36 2010-06-04 3.2 0.0 0.0 0.0 N IC MTE 8.0 ( N ) ( 6 )

Innovative Energy Systems, Inc. Hyland LFGE B 323620 Angelica 003 36 2008-09-08 4.8 4.8 4.8 4.8 N IC MTE 37.5 Integrys Energy Services, Inc. Beaver Falls E 23983 Beaver Falls 049 36 1995-03-01 107.8 80.2 79.1 92.7 Y CC NG 1.0 Integrys Energy Services, Inc. Syracuse C 23985 Syracuse 067 36 1993-09-01 102.7 86.8 87.5 96.1 Y CC NG 6.5 International Paper Company Ticonderoga F 23804 Ticonderoga 031 36 1970-01-01 42.1 7.6 9.8 10.2 Y ST FO6 0.1 Jamestown Board of Public Utilities Jamestown 5 A 1658 Jamestown 013 36 1951-08-01 28.7 22.1 20.8 Y ST BIT 37.2 ( G)

Jamestown Board of Public Utilities Jamestown 6 A 1658 Jamestown 013 36 1968-08-01 25.0 19.2 18.0 Y ST BIT Jamestown Board of Public Utilities Jamestown 7 A 1659 Jamestown 013 36 2002-01-01 47.3 39.3 47.5 Y GT NG 13.4 Long Island Power Authority Babylon (RR) K 23656 Babylon 103 36 1989-04-01 17.0 15.6 14.6 14.5 N ST REF 113.2 Long Island Power Authority Barrett 03 K 23706 Island Park 059 36 1970-06-01 18.0 17.9 17.4 20.2 N GT C NG FO2 1.5 Long Island Power Authority Barrett 04 K 23707 Island Park 059 36 1970-07-01 18.0 17.7 17.5 20.7 N GT C NG FO2 3.6 Long Island Power Authority Barrett 05 K 23708 Island Park 059 36 1970-07-01 18.0 17.8 16.7 20.2 N GT C NG FO2 1.2 Long Island Power Authority Barrett 06 K 23709 Island Park 059 36 1970-07-01 18.0 17.8 17.5 19.7 N GT C NG FO2 2.1 Long Island Power Authority Barrett 07 K 23710 Island Park 059 36 1970-07-01 18.0 17.3 0.0 20.2 N GT C NG FO2 -0.1 Long Island Power Authority Barrett 08 K 23711 Island Park 059 36 1970-07-01 18.0 17.3 14.8 18.8 N GT C NG FO2 2.9 Long Island Power Authority Barrett 09 K 23700 Island Park 059 36 1971-06-01 41.8 43.4 40.7 49.0 N JE C NG FO2 9.2 Long Island Power Authority Barrett 10 K 23701 Island Park 059 36 1971-06-01 41.8 42.7 41.4 49.7 N JE C NG FO2 15.9 Long Island Power Authority Barrett 11 K 23702 Island Park 059 36 1971-06-01 41.8 43.3 41.4 49.7 N JE C NG FO2 18.4 Long Island Power Authority Barrett 12 K 23703 Island Park 059 36 1971-06-01 41.8 44.0 39.7 48.8 N JE C NG FO2 10.5 Long Island Power Authority Barrett GT 01 K 23704 Island Park 059 36 1970-06-01 18.0 18.1 17.2 17.8 N GT C NG FO2 0.7 Long Island Power Authority Barrett GT 02 K 23705 Island Park 059 36 1970-06-01 18.0 17.4 15.5 18.8 N GT C NG FO2 1.8 Long Island Power Authority Barrett ST 01 K 23545 Island Park 059 36 1956-11-01 188.0 200.2 196.5 197.7 N ST T A NG FO6 518.4 Long Island Power Authority Barrett ST 02 K 23546 Island Park 059 36 1963-10-01 188.0 197.5 194.2 194.0 N ST T A NG FO6 562.9 Long Island Power Authority Bethpage 3 K 323564 Hicksville 059 36 2005-05-01 96.0 79.9 72.4 76.9 CC NG 226.0 Long Island Power Authority Caithness_CC_1 K 323624 Brookhaven 103 36 2009-08-01 375.0 309.4 315.6 356.0 N CC NG FO2 2,101.6 Long Island Power Authority East Hampton 2 K 23722 E Hampton 103 36 1962-12-01 2.0 2.0 1.9 1.9 N IC C FO2 0.5 Long Island Power Authority East Hampton 3 K 23722 E Hampton 103 36 1962-12-01 2.0 2.0 1.9 1.9 N IC C FO2 0.5 Long Island Power Authority East Hampton 4 K 23722 E Hampton 103 36 1962-12-01 2.0 2.0 1.9 1.9 N IC C FO2 0.5 Long Island Power Authority East Hampton GT 01 K 23717 E Hampton 103 36 1970-12-01 21.3 19.2 18.7 21.6 N GT C FO2 12.6 Long Island Power Authority Far Rockaway GT1 K 24212 Far Rockaway 081 36 2002-07-01 60.0 53.5 53.6 55.4 N GT NG 59.1 Long Island Power Authority Far Rockaway GT2 K 23815 Jamaica Bay 081 36 2003-07-02 60.0 55.4 54.2 55.2 N GT NG 19.8 Long Island Power Authority Far Rockaway ST 04 K 23548 Far Rockaway 081 36 1953-12-01 100.0 110.6 105.1 106.5 N ST T A NG FO6 189.9 Long Island Power Authority Freeport CT 1 K 23764 Freeport 059 36 2004-06-01 60.0 48.3 47.5 48.5 N GT NG 67.5 Long Island Power Authority Glenwood GT 01 K 23712 Glenwood 059 36 1967-04-01 16.0 14.6 12.1 14.2 N GT C FO2 0.1 Long Island Power Authority Glenwood GT 02 K 23688 Glenwood 059 36 1972-06-01 55.0 52.7 52.0 62.4 N GT C FO2 0.9 Long Island Power Authority Glenwood GT 03 K 23689 Glenwood 059 36 1972-06-01 55.0 52.7 51.6 64.7 N GT C FO2 1.0 Long Island Power Authority Glenwood GT 04 K 24219 Glenwood 059 36 2002-06-01 53.0 40.3 36.9 46.5 N GT NG 44.3 40

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Long Island Power Authority Glenwood GT 05 K 24220 Glenwood 059 36 2002-06-01 53.0 40.0 35.0 42.6 N GT NG 54.7 Long Island Power Authority Glenwood ST 04 K 23550 Glenwood 059 36 1952-12-01 114.0 118.7 116.0 111.5 N ST T A NG 95.3 Long Island Power Authority Glenwood ST 05 K 23614 Glenwood 059 36 1954-11-01 114.0 122.0 113.2 110.2 N ST T A NG 56.9 Long Island Power Authority Greenport GT1 K 23814 Greenport 103 36 2003-07-02 54.0 51.9 50.6 54.1 N GT NG 35.8 Long Island Power Authority Hempstead (RR) K 23647 Hempstead 059 36 1989-10-01 78.6 73.7 71.7 70.7 N ST REF 564.6 Long Island Power Authority Holtsville 01 K 23690 Holtsville 103 36 1974-07-01 56.7 55.1 51.3 63.7 N JE C FO2 4.9 Long Island Power Authority Holtsville 02 K 23691 Holtsville 103 36 1974-07-01 56.7 55.3 50.6 59.8 N JE C FO2 3.6 Long Island Power Authority Holtsville 03 K 23692 Holtsville 103 36 1974-07-01 56.7 52.1 46.9 56.9 N JE C FO2 5.1 Long Island Power Authority Holtsville 04 K 23693 Holtsville 103 36 1974-07-01 56.7 52.7 50.2 65.0 N JE C FO2 5.4 Long Island Power Authority Holtsville 05 K 23694 Holtsville 103 36 1974-07-01 56.7 53.3 53.6 59.5 N JE C FO2 4.8 Long Island Power Authority Holtsville 06 K 23695 Holtsville 103 36 1975-07-01 56.7 53.0 49.8 61.5 N JE C FO2 12.3 Long Island Power Authority Holtsville 07 K 23696 Holtsville 103 36 1975-07-01 56.7 55.1 52.4 66.5 N JE C FO2 8.5 Long Island Power Authority Holtsville 08 K 23697 Holtsville 103 36 1975-07-01 56.7 57.4 57.4 69.1 N JE C FO2 9.9 Long Island Power Authority Holtsville 09 K 23698 Holtsville 103 36 1975-07-01 56.7 57.5 51.7 63.0 N JE C FO2 9.3 Long Island Power Authority Holtsville 10 K 23699 Holtsville 103 36 1975-07-01 56.7 55.1 54.1 57.5 N JE C FO2 11.2 Long Island Power Authority Huntington K 23656 Huntington 103 36 1991-12-01 28.0 25.6 24.5 24.6 N ST REF 188.4 Long Island Power Authority Islip (RR) K 23656 Ronkonkoma 103 36 1990-03-01 12.5 11.4 8.9 8.4 N ST REF 54.9 Long Island Power Authority Montauk 02 K 23721 Montauk 103 36 1971-05-01 2.0 2.0 1.9 2.0 N IC C FO2 0.6 Long Island Power Authority Montauk 03 K 23721 Montauk 103 36 1965-11-01 2.0 2.0 1.9 2.0 N IC C FO2 0.5 Long Island Power Authority Montauk 04 K 23721 Montauk 103 36 1965-11-01 2.0 2.0 1.9 2.0 N IC C FO2 0.6 Long Island Power Authority Northport 1 K 23551 Northport 103 36 1967-07-01 387.0 395.0 373.5 378.5 N ST T A NG FO6 1,153.4 Long Island Power Authority Northport 2 K 23552 Northport 103 36 1968-06-01 387.0 396.0 396.0 390.0 N ST T A NG FO6 854.9 Long Island Power Authority Northport 3 K 23553 Northport 103 36 1972-07-01 387.0 397.2 389.5 389.0 N ST T A NG FO6 1,255.8 Long Island Power Authority Northport 4 K 23650 Northport 103 36 1977-12-01 387.0 399.2 398.2 397.5 N ST T A NG FO6 765.5 Long Island Power Authority Northport GT K 23718 Northport 103 36 1967-03-01 16.0 13.8 0.0 0.0 N GT C FO2 -0.1 Long Island Power Authority Oceanside (LF) K x Oceanside 059 36 1991-02-01 2.1 0.0 0.0 N IC MTE 3.2 Long Island Power Authority Oyster Bay (LF) K x Bethpage 059 36 1986-07-01 1.3 0.0 0.0 N IC MTE 0.0 Long Island Power Authority Pilgrim GT1 K 24216 Brentwood 103 36 2002-08-01 50.0 43.6 44.3 45.7 N GT NG 69.3 Long Island Power Authority Pilgrim GT2 K 24217 Brentwood 103 36 2002-08-01 50.0 44.2 44.2 45.3 N GT NG 68.8 Long Island Power Authority Pinelawn Power 1 K 323563 Babylon 103 36 2005-06-01 82.0 78.0 72.4 76.5 CC NG KER 193.4 Long Island Power Authority Port Jefferson 3 K 23555 Port Jefferson 103 36 1958-11-01 188.0 192.5 192.7 190.0 N ST T A FO6 NG 238.2 Long Island Power Authority Port Jefferson 4 K 23616 Port Jefferson 103 36 1960-11-01 188.0 198.7 195.5 190.0 N ST T A FO6 NG 192.0 Long Island Power Authority Port Jefferson GT 01 K 23713 Port Jefferson 103 36 1966-12-01 16.0 14.1 0.0 0.0 N GT C FO2 0.0 Long Island Power Authority Port Jefferson GT 02 K 24210 P Jefferson 103 36 2002-07-01 53.0 42.0 42.8 46.0 N GT NG 46.9 Long Island Power Authority Port Jefferson GT 03 K 24211 P Jefferson 103 36 2002-07-01 53.0 41.1 42.7 48.6 N GT NG 45.4 Long Island Power Authority S Hampton 1 K 23720 South Hampton 103 36 1963-03-01 11.5 10.3 9.1 10.9 N GT C FO2 2.7 Long Island Power Authority Shoreham 1 K 23715 Shoreham 103 36 1971-07-01 52.9 48.9 47.2 58.0 N GT C FO2 2.2 41

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Long Island Power Authority Shoreham 2 K 23716 Shoreham 103 36 1984-04-01 18.6 18.5 16.8 20.2 N GT C FO2 0.5 Long Island Power Authority Shoreham GT3 K 24213 Shoreham 103 36 2002-08-01 50.0 45.1 45.8 46.9 N GT NG 15.6 Long Island Power Authority Shoreham GT4 K 24214 Shoreham 103 36 2002-08-01 50.0 41.9 44.6 46.5 N GT NG 15.5 Long Island Power Authority Smithtown (LF) K x Smithtown 103 36 1985-12-01 1.1 0.0 0.0 N IC MTE 0.0 Long Island Power Authority South Oaks Hosp K x Amityville 103 36 1990-06-01 1.0 0.0 0.0 Y IC NG 0.0 Long Island Power Authority Southold 1 K 23719 Southold 103 36 1964-08-01 14.0 12.3 12.4 14.0 N GT C FO2 1.8 Long Island Power Authority Stony Brook K 24151 Stony Brook 103 36 1995-04-01 47.0 9.6 14.0 22.4 Y GT NG 305.4 Long Island Power Authority Trigen-NDEC K 23656 Garden City 059 36 1991-03-01 55.0 50.4 45.4 55.2 Y CC NG FO2 428.1 Long Island Power Authority Wading River 1 K 23522 Shoreham 103 36 1989-08-01 79.5 81.2 79.7 98.8 N GT C FO2 22.2 Long Island Power Authority Wading River 2 K 23547 Shoreham 103 36 1989-08-01 79.5 81.3 78.2 98.7 N GT C FO2 21.4 Long Island Power Authority Wading River 3 K 23601 Shoreham 103 36 1989-08-01 79.5 81.3 77.9 99.1 N GT C FO2 21.6 Long Island Power Authority West Babylon 4 K 23714 West Babylon 103 36 1971-08-01 52.4 49.0 49.1 60.9 N GT C FO2 1.4 Long Island Power Authority Yaphank (LF) K x Yaphank 103 36 1983-09-01 1.6 0.0 0.0 N IC MTE 4.7 Lyonsdale BioMass, LLC Lyonsdale Power E 23803 Lyonsdale 049 36 1992-08-01 21.1 20.2 19.8 19.7 Y ST WD 128.3 Macquarie Energy LLC Lyons Falls Hydro E 23570 Lyons Falls 049 36 1986-01-01 8.0 7.3 6.7 6.9 HY WAT 40.7 Madison Windpower, LLC Madison Wind Power E 24146 Madison 053 36 2000-09-01 11.6 11.5 1.2 3.5 WT WND 18.0 (W )

Mirant Energy Trading, LLC Bowline 1 G 23526 West Haverstraw 087 36 1972-09-01 621.0 577.7 578.3 558.0 N ST T A NG FO6 180.4 Mirant Energy Trading, LLC Bowline 2 G 23595 West Haverstraw 087 36 1974-05-01 621.0 557.4 529.1 561.8 N ST W A NG FO6 112.6 MM Albany Energy LLC Albany LFGE F 323615 Albany 001 36 1998-05-01 3.8 0.0 0.0 N IC MTE 18.8 Model City Energy LLC Model City Energy A 24167 Lewiston 063 36 2001-06-01 5.6 5.6 5.6 5.6 N IC MTE 43.4 Modern Innovative Energy, LLC Modern LF A 323580 Lewiston 063 36 2006-02-01 6.4 6.4 6.4 6.4 N IC MTE 43.2 New York Power Authority Ashokan 1 G 23654 Ashokan 111 36 1982-11-01 2.3 1.8 2.4 1.8 HY WAT 4.4 New York Power Authority Ashokan 2 G 23654 Ashokan 111 36 1982-11-01 2.3 1.8 2.4 1.8 HY WAT 2.1 New York Power Authority Astoria CC 1 J 323568 Queens 081 36 2006-01-01 288.0 246.2 234.8 260.0 CC NG JF KER 3,013.6 ( G)

New York Power Authority Astoria CC 2 J 323569 Queens 081 36 2006-01-01 288.0 246.2 234.8 260.0 CC NG JF KER New York Power Authority Blenheim - Gilboa 1 F 23756 Gilboa NY 095 36 1973-07-01 290.0 290.7 291.2 291.2 PS WAT 45.5 New York Power Authority Blenheim - Gilboa 2 F 23757 Gilboa NY 095 36 1973-07-01 290.0 291.2 290.7 291.5 PS WAT 163.2 New York Power Authority Blenheim - Gilboa 3 F 23758 Gilboa NY 095 36 1973-07-01 290.0 291.7 291.8 290.7 PS WAT 63.3 New York Power Authority Blenheim - Gilboa 4 F 23759 Gilboa NY 095 36 1973-07-01 290.0 291.5 290.7 290.7 PS WAT 27.0 New York Power Authority Brentwood K 24164 Brentwood 103 36 2001-08-01 50.0 47.1 47.0 47.0 N GT NG 67.7 New York Power Authority Crescent 1 F 24018 Crescent 001 36 1991-07-01 2.8 3.1 3.0 2.3 HY WAT 12.7 New York Power Authority Crescent 2 F 24018 Crescent 001 36 1991-07-01 2.8 3.1 3.0 2.3 HY WAT 14.5 New York Power Authority Crescent 3 F 24018 Crescent 001 36 1991-07-01 3.0 3.3 3.0 2.3 HY WAT 17.6 New York Power Authority Crescent 4 F 24018 Crescent 001 36 1991-07-01 3.0 3.3 3.0 2.3 HY WAT 16.6 New York Power Authority Flynn K 23794 Holtsville 103 36 1994-05-01 170.0 135.5 135.1 164.7 N CC NG FO2 958.3 New York Power Authority Gowanus 5 J 24156 Brooklyn 047 36 2001-08-01 50.0 45.4 40.1 43.5 N GT NG 77.0 New York Power Authority Gowanus 6 J 24157 Brooklyn 047 36 2001-08-01 50.0 46.1 42.1 47.0 N GT NG 70.7 42

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes New York Power Authority Grahamsville G 23607 Grahamsville 105 36 1956-12-01 18.0 16.3 18.0 16.0 HY WAT 97.6 New York Power Authority Greenport IC 4 K 1652 Greenport 103 36 1957-06-06 1.2 0.0 1.0 N IC FO2 0.0 New York Power Authority Greenport IC 5 K 1652 Greenport 103 36 1965-07-08 1.8 0.0 1.5 N IC FO2 0.0 New York Power Authority Greenport IC 6 K 1652 Greenport 103 36 1971-09-17 3.8 0.0 2.5 N IC FO2 0.0 New York Power Authority Harlem River 1 J 24160 Bronx 005 36 2001-08-01 50.0 46.0 40.0 42.2 N GT NG 20.0 New York Power Authority Harlem River 2 J 24161 Bronx 005 36 2001-08-01 50.0 45.2 40.0 42.5 N GT NG 21.6 New York Power Authority Hellgate 1 J 24158 Bronx 005 36 2001-08-01 50.0 45.0 40.0 45.2 N GT NG 18.2 New York Power Authority Hellgate 2 J 24159 Bronx 005 36 2001-08-01 50.0 45.0 40.0 46.0 N GT NG 22.7 New York Power Authority Jarvis 1 E 23743 Hinckley 065 36 1991-07-01 4.5 4.5 4.5 2.3 HY WAT 15.3 New York Power Authority Jarvis 2 E 23743 Hinckley 065 36 1991-07-01 4.5 4.5 4.5 2.3 HY WAT 13.4 New York Power Authority Kensico 1 I 23655 Kensico 119 36 1983-07-01 1.0 0.6 1.0 0.6 HY WAT 0.4 New York Power Authority Kensico 2 I 23655 Kensico 119 36 1983-07-01 1.0 0.6 1.0 0.6 HY WAT 0.4 New York Power Authority Kensico 3 I 23655 Kensico 119 36 1983-07-01 1.0 0.6 1.0 0.6 HY WAT 0.4 New York Power Authority Kent J 24152 Brooklyn 047 36 2001-08-01 50.0 46.9 45.8 47.0 N GT NG 54.7 New York Power Authority Lewiston PS (Fleet) A 23760 Niagara Falls 063 36 1961-01-01 240.0 240.0 240.0 240.0 PS WAT 501.7 New York Power Authority Moses Niagara (Fleet) A 23760 Niagara Falls 063 36 1961-01-01 2,860.0 2,460.0 2,439.7 2,447.0 HY WAT 12,041.7 New York Power Authority Neversink G 23608 Grahamsville 105 36 1953-12-01 25.0 22.0 24.9 21.0 HY WAT 38.9 New York Power Authority Poletti 1 (Ret.- 1/31/10) J 23519 Queens 081 36 1977-02-01 926.0 891.0 0.0 0.0 N ST A FO6 NG 255.7 ( R ) ( 7 )

New York Power Authority Pouch J 24155 Staten Island 085 36 2001-08-01 50.0 47.1 46.5 47.1 N GT NG 87.1 New York Power Authority St Lawrence - FDR (Fleet) D 23600 Massena 089 36 1958-07-01 1,088.0 856.0 828.5 828.2 HY WAT 6,623.4 New York Power Authority Vernon Blvd 2 J 24162 Queens 081 36 2001-08-01 50.0 46.2 40.1 46.1 N GT NG 30.4 New York Power Authority Vernon Blvd 3 J 24163 Queens 081 36 2001-08-01 50.0 43.8 40.3 43.8 N GT NG 38.0 New York Power Authority Vischer Ferry 1 F 24020 Vischer Ferry 091 36 1991-07-01 2.8 3.1 3.0 2.4 HY WAT 11.6 New York Power Authority Vischer Ferry 2 F 24020 Vischer Ferry 091 36 1991-07-01 2.8 3.1 3.0 2.4 HY WAT 14.8 New York Power Authority Vischer Ferry 3 F 24020 Vischer Ferry 091 36 1991-07-01 3.0 3.3 3.0 2.4 HY WAT 15.7 New York Power Authority Vischer Ferry 4 F 24020 Vischer Ferry 091 36 1991-07-01 3.0 3.3 3.0 2.4 HY WAT 16.6 New York State Elec. & Gas Corp. AA Dairy C x Ithaca 109 36 1998-06-01 0.1 0.0 0.0 N IC MTE 0.0 New York State Elec. & Gas Corp. Alice Falls 1 D 23915 Ausable 019 36 1991-11-01 1.5 2.2 0.0 0.0 HY WAT 0.0 New York State Elec. & Gas Corp. Alice Falls 2 D 23915 Ausable 019 36 1991-11-01 0.6 2.2 0.0 0.0 HY WAT 0.0 New York State Elec. & Gas Corp. Allegheny 8 C 23528 Kittanning 005 42 1990-10-01 16.0 14.7 16.0 16.0 HY WAT 77.4 New York State Elec. & Gas Corp. Allegheny 9 C 23528 Kittanning 005 42 1990-10-01 22.0 20.2 22.0 22.0 HY WAT 90.7 New York State Elec. & Gas Corp. Auburn - Mill St. C x Auburn 011 36 1981-10-01 0.4 0.0 0.0 HY WAT 0.0 New York State Elec. & Gas Corp. Auburn - No. Div.St C x Auburn 011 36 1992-12-01 0.8 0.0 0.0 HY WAT 0.0 New York State Elec. & Gas Corp. Auburn - State St. C 24147 Auburn 011 36 1995-01-01 7.4 5.8 5.4 7.8 GT NG 0.4 New York State Elec. & Gas Corp. Broome LFGE C 323600 Binghamton 007 36 2007-09-01 2.1 2.1 2.1 2.1 IC MTE 16.9 New York State Elec. & Gas Corp. Cadyville 1 D 23628 Schuyler Falls 019 36 1921-08-01 1.2 1.2 1.3 1.3 HY WAT 4.5 New York State Elec. & Gas Corp. Cadyville 2 D 23628 Schuyler Falls 019 36 1921-08-01 1.2 1.2 1.3 1.3 HY WAT 2.5 43

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes New York State Elec. & Gas Corp. Cadyville 3 D 23628 Schuyler Falls 019 36 1986-09-01 3.1 3.2 3.2 3.2 HY WAT 17.4 New York State Elec. & Gas Corp. Chasm Hydro D x Chateaugay 033 36 1982-03-01 1.6 0.0 0.0 HY WAT 0.0 New York State Elec. & Gas Corp. Cowee F x Berlin 083 36 1985-12-01 0.5 0.0 0.0 Y ST WD 0.0 (R)

New York State Elec. & Gas Corp. Croton Fall Hydro I x North Salem 119 36 1987-01-01 0.2 0.0 0.0 HY WAT 0.0 New York State Elec. & Gas Corp. Goodyear Lake E x Milford 077 36 1980-07-01 1.5 0.0 0.0 HY WAT 0.0 New York State Elec. & Gas Corp. Harris Lake D x Newcomb 031 36 1967-08-01 1.7 0.0 0.0 IC C FO2 0.0 New York State Elec. & Gas Corp. High Falls 1 D 23628 Saranac 019 36 1948-08-01 4.0 4.1 4.1 4.1 HY WAT 18.6 New York State Elec. & Gas Corp. High Falls 2 D 23628 Saranac 019 36 1949-08-01 4.0 4.1 4.1 4.1 HY WAT 25.9 New York State Elec. & Gas Corp. High Falls 3 D 23628 Saranac 019 36 1956-08-01 7.0 7.1 7.1 7.1 HY WAT 37.5 New York State Elec. & Gas Corp. Kent Falls 1 D 23628 Schuyler Falls 019 36 1928-08-01 3.2 3.3 3.3 3.3 HY WAT 14.0 New York State Elec. & Gas Corp. Kent Falls 2 D 23628 Schuyler Falls 019 36 1928-08-01 3.2 3.3 3.3 3.3 HY WAT 15.6 New York State Elec. & Gas Corp. Kent Falls 3 D 23628 Schuyler Falls 019 36 1985-07-01 6.0 6.1 6.1 6.1 HY WAT 33.0 New York State Elec. & Gas Corp. Lower Saranac 1 D 23913 Schuyler Falls 019 36 1990-10-01 3.2 9.9 0.0 0.0 HY WAT 0.0 New York State Elec. & Gas Corp. Lower Saranac 2 D 23913 Schuyler Falls 019 36 1990-10-01 3.2 9.9 0.0 0.0 HY WAT 0.0 New York State Elec. & Gas Corp. Lower Saranac 3 D 23913 Schuyler Falls 019 36 1990-10-01 0.3 9.9 0.0 0.0 HY WAT 0.0 New York State Elec. & Gas Corp. Mechanicville 1 F 23645 Stillwater 091 36 1983-09-01 8.2 20.0 9.3 9.3 HY WAT 44.4 New York State Elec. & Gas Corp. Mechanicville 2 F 23645 Stillwater 091 36 1983-09-01 8.2 20.0 9.3 9.3 HY WAT 40.2 New York State Elec. & Gas Corp. Mill C 1 D 23628 Plattsburgh 019 36 1944-08-01 1.0 1.0 1.1 1.1 HY WAT 5.4 New York State Elec. & Gas Corp. Mill C 2 D 23628 Plattsburgh 019 36 1943-08-01 1.2 1.2 1.3 1.3 HY WAT 5.2 New York State Elec. & Gas Corp. Mill C 3 D 23628 Plattsburgh 019 36 1984-11-01 3.8 3.9 3.8 3.8 HY WAT 16.1 New York State Elec. & Gas Corp. Montville Falls C x Moravia 011 36 1992-08-01 0.2 0.0 0.0 HY WAT 0.0 New York State Elec. & Gas Corp. Rainbow Falls 1 D 23628 Ausable 019 36 1926-08-01 1.3 1.3 1.4 1.4 HY WAT 8.1 New York State Elec. & Gas Corp. Rainbow Falls 2 D 23628 Ausable 019 36 1927-08-01 1.3 1.3 1.4 1.4 HY WAT 9.0 New York State Elec. & Gas Corp. Seneca Falls 1 C 23627 Seneca Falls 099 36 1998-06-01 1.8 0.0 0.0 HY WAT New York State Elec. & Gas Corp. Seneca Falls 2 C 23627 Seneca Falls 099 36 1998-06-01 1.8 0.0 0.0 HY WAT New York State Elec. & Gas Corp. Seneca Falls 4 C 23627 Seneca Falls 099 36 1998-06-01 2.0 0.0 0.0 HY WAT New York State Elec. & Gas Corp. Waterloo 2 C x Waterloo 099 36 1998-06-01 0.5 0.0 0.0 HY WAT 0.0 New York State Elec. & Gas Corp. Waterloo 3 C x Waterloo 099 36 1998-06-01 0.5 0.0 0.0 HY WAT 0.0 New York State Elec. & Gas Corp. Waterloo 4 C x Waterloo 099 36 1998-06-01 0.5 0.0 0.0 HY WAT 0.0 Niagara Generation, LLC Niagara Bio-Gen A 23895 Niagara Falls 063 36 1991-08-01 56.0 50.5 0.0 0.0 Y ST WD 56.7 Niagara Mohawk Power Corp. Adir-Resource Recovery F 23798 115 36 1991-10-01 14.4 12.7 0.0 0.0 Y ST REF 83.5 Niagara Mohawk Power Corp. Boralex - Hudson Falls F 24011 Hudson Falls 091 36 1995-10-01 44.0 43.7 44.0 44.0 HY WAT 255.2 Niagara Mohawk Power Corp. Boralex - South Glens Falls F 24028 Moreau 091 36 1994-12-01 13.8 14.8 0.0 0.0 HY WAT 93.7 Niagara Mohawk Power Corp. CHI-Lachute F 1654 031 36 1987-12-01 9.0 0.0 0.0 HY WAT 37.0 Niagara Mohawk Power Corp. Fortis - Dolgeville E 23807 Dolgeville 043 36 1985-07-01 5.0 6.3 0.0 0.0 HY WAT 20.1 Niagara Mohawk Power Corp. Fortis Energy - Philadelphia E 1656 045 36 1986-08-01 3.6 0.0 0.0 HY WAT 11.5 Niagara Mohawk Power Corp. Fortis Energy - Moose River E 24016 049 36 1987-09-01 12.6 12.0 0.0 0.0 HY WAT 49.1 44

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Niagara Mohawk Power Corp. Fortistar - N.Tonawanda A 24026 N Tonawanda 029 36 1993-06-01 55.3 57.0 53.7 60.6 Y CC NG 32.3 Niagara Mohawk Power Corp. General Mills Inc A 23808 029 36 1988-12-01 3.8 3.8 0.0 0.0 Y GT NG 4.2 Niagara Mohawk Power Corp. International Paper - Curtis F 1655 Corinth 091 36 1986-01-01 29.5 0.0 0.0 HY WAT 420.8 ( G)

Niagara Mohawk Power Corp. International Paper - Palmer F 1655 Corinth 091 36 1986-01-01 29.5 0.0 0.0 HY WAT Niagara Mohawk Power Corp. Little Falls Hydro E 24013 Little Falls 043 36 1987-01-01 13.0 12.6 0.0 0.0 HY WAT 56.7 Niagara Mohawk Power Corp. Onondaga County C 23987 067 36 1994-12-01 39.5 32.6 32.4 32.3 Y ST REF 190.3 Niagara Mohawk Power Corp. Pyrites Assoc. E 24023 Canton 089 36 1985-12-01 8.2 7.5 0.0 0.0 HY WAT 30.8 Niagara Mohawk Power Corp. Adams Hydro E 23633 045 36 1987-11-01 0.2 0.0 0.0 HY WAT 0.0 Niagara Mohawk Power Corp. Algon.-Burt Dam Assoc. A 23774 063 36 1987-12-01 0.4 0.0 0.0 HY WAT 2.0 Niagara Mohawk Power Corp. Algon.-Christine.Falls F 23643 041 36 1987-12-01 0.8 0.0 0.0 HY WAT 3.4 Niagara Mohawk Power Corp. Algon.-Cranberry. Lake E 23633 049 36 1987-12-01 0.5 0.0 0.0 HY WAT 1.8 Niagara Mohawk Power Corp. Algon.-Forresport E 23633 065 36 1987-12-01 3.4 0.0 0.0 HY WAT 10.6 Niagara Mohawk Power Corp. Algon.-Herkimer E 23633 043 36 1987-12-01 1.6 0.0 0.0 HY WAT 0.0 Niagara Mohawk Power Corp. Algon.-Hollow Dam Power E 23633 089 36 1987-12-01 1.0 0.0 0.0 HY WAT 2.9 Niagara Mohawk Power Corp. Algon.-Kayuta E 23633 065 36 1988-05-01 0.4 0.0 0.0 HY WAT 1.7 Niagara Mohawk Power Corp. Algon.-Ogdensburg E 23633 089 36 1987-12-01 3.5 0.0 0.0 HY WAT 12.4 Niagara Mohawk Power Corp. Algon.-Otter Creek E 23633 049 36 1986-11-01 0.5 0.0 0.0 HY WAT 1.6 Niagara Mohawk Power Corp. Allied Frozen Storage A 23774 029 36 2008-05-01 0.1 0.0 0.0 IC NG 0.0 Niagara Mohawk Power Corp. Azure Mnt. Pwr Co E 23633 033 36 1993-08-01 0.6 0.0 0.0 HY WAT 2.4 Niagara Mohawk Power Corp. Beaver Falls #1 E 23633 049 36 1986-01-01 1.5 0.0 0.0 HY WAT 8.5 Niagara Mohawk Power Corp. Beaver Falls #2 E 23633 049 36 1986-01-01 1.0 0.0 0.0 HY WAT 3.7 Niagara Mohawk Power Corp. Bellows Towers E 23633 033 36 1987-06-01 0.2 0.0 0.0 HY WAT 0.5 Niagara Mohawk Power Corp. Black River Hyd#1 E 23633 Port Leyden 049 36 1984-07-01 1.9 0.0 0.0 HY WAT 4.5 Niagara Mohawk Power Corp. Black River Hyd#2 E 23633 Port Leyden 049 36 1985-12-01 1.6 0.0 0.0 HY WAT 1.7 Niagara Mohawk Power Corp. Black River Hyd#3 E 23633 Port Leyden 049 36 1984-07-01 2.2 0.0 0.0 HY WAT 15.9 Niagara Mohawk Power Corp. Boralex - Middle Falls F 23643 Easton 115 36 1989-12-01 2.2 0.0 0.0 HY WAT 11.3 Niagara Mohawk Power Corp. Burrstone Energy Center, LLC LU E 23633 065 36 2009-11-01 1.1 0.0 0.0 Y CG NG 0.6 Niagara Mohawk Power Corp. Burrstone Energy Center, LLC U E 23633 065 36 2009-11-01 2.2 0.0 0.0 Y CG NG 0.1 Niagara Mohawk Power Corp. Cal Ban Power A 23774 003 36 1995-06-01 0.1 0.0 0.0 Y IC NG 0.0 Niagara Mohawk Power Corp. Cellu-Tissue Corp - Natural Dam E 23633 Natural Dam 089 36 1986-01-01 1.0 0.0 0.0 HY WAT 0.0 Niagara Mohawk Power Corp. Champlain Spinner F 23643 031 36 1992-07-01 0.4 0.0 0.0 HY WAT 1.9 Niagara Mohawk Power Corp. CHI Dexter Hydro E 23633 Dexter 045 36 1988-01-01 4.2 0.0 0.0 HY WAT 20.7 Niagara Mohawk Power Corp. CHI Diamond Is HY E 23633 Watertown 045 36 1986-01-01 1.2 0.0 0.0 HY WAT 6.4 Niagara Mohawk Power Corp. CHI Fowler E 23633 Fowler 049 36 1986-01-01 0.6 0.0 0.0 HY WAT 1.1 Niagara Mohawk Power Corp. CHI Hailsboro #3 E 23633 Hailsboro 089 36 1986-01-01 0.8 0.0 0.0 HY WAT 4.6 Niagara Mohawk Power Corp. CHI Hailsboro #4 E 23633 Hailsboro 089 36 1986-01-01 1.4 0.0 0.0 HY WAT 8.3 Niagara Mohawk Power Corp. CHI Hailsboro #6 E 23633 Hailsboro 089 36 1986-01-01 0.8 0.0 0.0 HY WAT 5.5 45

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Niagara Mohawk Power Corp. CHI Theresa Hydro E 23633 Theresa 089 36 1986-01-01 1.3 0.0 0.0 HY WAT 6.6 Niagara Mohawk Power Corp. Chittenden Falls E 23633 089 36 1995-12-01 0.6 0.0 0.0 HY WAT 2.1 Niagara Mohawk Power Corp. City of Oswego (H.D.) C 23634 075 36 1994-02-01 11.9 0.0 0.0 HY WAT 41.9 Niagara Mohawk Power Corp. City of Utica - Sand Road E 23633 065 36 1993-05-01 0.2 0.0 0.0 HY WAT 1.5 Niagara Mohawk Power Corp. City of Utica -Trenton Falls E 23633 065 36 1993-02-01 0.2 0.0 0.0 HY WAT 0.8 Niagara Mohawk Power Corp. City of Watertown E 23633 045 36 1986-01-01 8.1 0.0 0.0 HY WAT 9.8 Niagara Mohawk Power Corp. City of Watervliet F 23643 001 36 1986-01-01 1.2 0.0 0.0 HY WAT 2.5 Niagara Mohawk Power Corp. Cons. HY-Victory F 23643 091 36 1986-12-01 1.7 0.0 0.0 HY WAT 3.8 Niagara Mohawk Power Corp. Copenhagen Assoc. E 23633 Copenhagen 049 36 1986-01-01 3.3 0.0 0.0 HY WAT 12.2 Niagara Mohawk Power Corp. Cottrell Paper F 23643 091 36 1987-01-01 0.3 0.0 0.0 HY WAT 0.1 Niagara Mohawk Power Corp. Edison Hydro Electric F 23643 021 36 2009-11-01 0.0 0.0 HY WAT 1.9 Niagara Mohawk Power Corp. Empire HY Partner E 23633 049 36 1984-11-01 1.0 0.0 0.0 HY WAT 4.8 Niagara Mohawk Power Corp. Finch Paper LLC - Glens Falls F 23643 113 36 2009-11-01 0.0 0.0 HY WAT 2.8 Niagara Mohawk Power Corp. Finch Pruyn F 23643 113 36 1989-12-01 29.0 0.0 0.0 HY WAT 0.0 Niagara Mohawk Power Corp. Fort Miller Assoc F 23643 091 36 1985-10-01 5.0 0.0 0.0 HY WAT 23.1 Niagara Mohawk Power Corp. Fortis Energy - Diana E 23633 049 36 1985-07-01 1.8 0.0 0.0 HY WAT 6.7 Niagara Mohawk Power Corp. Franklin Hydro D 24055 033 36 1995-03-01 0.3 0.0 0.0 HY WAT 0.0 Niagara Mohawk Power Corp. Green Island Power Authority F 23643 Green Island 001 36 1971-01-01 6.0 0.0 0.0 HY WAT 40.1 Niagara Mohawk Power Corp. Hewittville Hydro E 23633 089 36 1984-07-01 3.0 0.0 0.0 HY WAT 17.3 Niagara Mohawk Power Corp. Hollings&Vose-Center F 23643 115 36 1986-01-01 0.4 0.0 0.0 HY WAT 0.2 Niagara Mohawk Power Corp. Hollings&Vose-Lower F 23643 115 36 1986-01-01 0.4 0.0 0.0 HY WAT 0.0 Niagara Mohawk Power Corp. Hollings&Vose-Upper F 23643 115 36 1986-01-01 0.4 0.0 0.0 HY WAT 4.1 Niagara Mohawk Power Corp. Hoosick Falls F 23643 083 36 1988-08-01 0.6 0.0 0.0 HY WAT 2.6 Niagara Mohawk Power Corp. Hydrocarbon-Algny A 23774 003 36 1992-12-01 0.2 0.0 0.0 Y IC NG 0.0 Niagara Mohawk Power Corp. Indian Falls HY E 23633 045 36 1986-01-01 0.3 0.0 0.0 HY WAT 1.2 Niagara Mohawk Power Corp. Kings Falls E 23633 049 36 1988-05-01 1.6 0.0 0.0 HY WAT 1.5 Niagara Mohawk Power Corp. Laidlaw Energy A 23774 Ellicottville 009 36 1991-07-01 3.4 0.0 0.0 Y GT NG 0.0 Niagara Mohawk Power Corp. Laidlaw Energy A 23774 Ellicottville 009 36 1991-07-01 2.4 0.0 0.0 Y ST NG 0.0 Niagara Mohawk Power Corp. Laquidara-Long Falls E 23633 045 36 1991-06-01 3.3 0.0 0.0 HY WAT 8.8 Niagara Mohawk Power Corp. Lyonsdale Assoc. (Burrows) E 23633 Lyons Falls 049 36 1984-07-01 3.0 0.0 0.0 HY WAT 12.3 Niagara Mohawk Power Corp. Mechanicville F 23643 091 36 2005-03-01 2.0 0.0 0.0 HY WAT 15.6 Niagara Mohawk Power Corp. Moutainaire Massage Spa F 23643 113 36 2009-11-01 0.0 0.0 HY WAT 0.0 Niagara Mohawk Power Corp. Mt. Ida Assoc. F 23643 083 36 1986-01-01 3.0 0.0 0.0 HY WAT 8.5 Niagara Mohawk Power Corp. Newport HY Assoc E 23633 043 36 1987-12-01 1.7 0.0 0.0 HY WAT 7.7 Niagara Mohawk Power Corp. Nottingham High School C 23634 067 36 1988-06-01 0.2 0.0 0.0 Y CC NG 0.0 Niagara Mohawk Power Corp. Oakvale Construction D 24055 031 36 2009-11-01 0.0 0.0 HY WAT 1.8 Niagara Mohawk Power Corp. Onondaga Energy Partners C 23634 067 36 1987-12-01 1.4 0.0 0.0 Y IC MTE 1.2 46

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Niagara Mohawk Power Corp. Oswego County C 23634 075 36 1986-03-01 3.6 0.0 0.0 Y ST REF 4.4 Niagara Mohawk Power Corp. Oswego HY Partners (Phoenix) C 23634 067 36 1990-12-01 3.4 0.0 0.0 HY WAT 11.3 Niagara Mohawk Power Corp. Riverrat Glass&Electric F 23643 031 36 1986-01-01 0.6 0.0 0.0 HY WAT 2.5 Niagara Mohawk Power Corp. Sandy Hollow HY E 23633 045 36 1986-09-01 0.6 0.0 0.0 HY WAT 2.1 Niagara Mohawk Power Corp. Seneca Limited C 23634 067 36 1985-12-01 0.2 0.0 0.0 HY WAT 0.0 Niagara Mohawk Power Corp. Stevens&Thompson Paper Co. F 23643 115 36 1987-12-01 10.5 0.0 0.0 HY WAT 34.2 Niagara Mohawk Power Corp. Stillwater Assoc. E 23633 043 36 1987-01-01 1.8 0.0 0.0 HY WAT 5.2 Niagara Mohawk Power Corp. Stillwater HY Partners F 23643 091 36 1993-04-01 3.4 0.0 0.0 HY WAT 14.3 Niagara Mohawk Power Corp. Synergics - Middle Greenwich F 23643 115 36 1987-12-01 0.2 0.0 0.0 HY WAT 0.4 Niagara Mohawk Power Corp. Synergics - Union Falls D 24055 019 36 1987-12-01 3.0 0.0 0.0 HY WAT 13.2 Niagara Mohawk Power Corp. Synergics - Upper Greenwich F 23643 115 36 1987-12-01 0.4 0.0 0.0 HY WAT 1.5 Niagara Mohawk Power Corp. Tannery Island E 23633 045 36 1986-01-01 1.5 0.0 0.0 HY WAT 8.1 Niagara Mohawk Power Corp. Town of Wells F 23643 Wells 041 36 1987-12-01 0.5 0.0 0.0 HY WAT 1.9 Niagara Mohawk Power Corp. Tri-City JATC F 23643 001 36 2009-11-01 0.0 0.0 IC NG 0.0 Niagara Mohawk Power Corp. Unionville Hydro E 23633 089 36 1984-07-01 3.0 0.0 0.0 HY WAT 12.0 Niagara Mohawk Power Corp. United States Gypsum A 23774 037 36 2009-11-01 0.0 0.0 Y CG NG 1.2 Niagara Mohawk Power Corp. Valatie Falls F 23643 021 36 1992-12-01 0.1 0.0 0.0 HY WAT 0.0 Niagara Mohawk Power Corp. Valley Falls Assoc. F 23643 083 36 1985-08-01 2.5 0.0 0.0 HY WAT 8.3 Niagara Mohawk Power Corp. Village of Gouverneur E 23633 089 36 1986-01-01 0.1 0.0 0.0 HY WAT 0.4 Niagara Mohawk Power Corp. Village of Potsdam E 23633 089 36 1986-01-01 0.8 0.0 0.0 HY WAT 4.7 Niagara Mohawk Power Corp. Village of Saranac Lake E 23633 033 36 1996-12-01 0.2 0.0 0.0 HY WAT 0.5 Niagara Mohawk Power Corp. West End Dam Assoc. E 23633 045 36 1986-01-01 4.4 0.0 0.0 HY WAT 20.7 Nine Mile Point Nuclear Station, LLC Nine Mile Pt 1 C 23575 Scriba 075 36 1969-11-01 641.8 630.5 628.2 630.0 NB A UR 5,294.1 Nine Mile Point Nuclear Station, LLC Nine Mile Pt 2 C 23744 Scriba 075 36 1988-08-01 1,259.3 1,148.3 1,141.0 1,154.0 NB B UR 8,945.0 Noble Altona Windpark, LLC Altona Wind Power D 323606 Altona 019 36 2008-09-23 97.5 97.5 9.8 29.3 WT WND 188.1 (W )

Noble Bliss Windpark, LLC Bliss Wind Power A 323608 Bliss 121 36 2008-03-20 100.5 100.5 10.1 30.2 WT WND 187.6 (W )

Noble Chateaugay Windpark, LLC Chateaugay Wind Power D 323614 Chateaugay 033 36 2008-10-07 106.5 106.5 10.7 32.0 WT WND 192.2 (W )

Noble Clinton Windpark 1, LLC Clinton Wind Power D 323605 Clinton 019 36 2008-04-09 100.5 100.5 10.1 30.2 WT WND 173.8 (W )

Noble Ellenburg Windpark, LLC Ellenburg Wind Power D 323604 Ellenburg 019 36 2008-03-31 81.0 81.0 8.1 24.3 WT WND 157.5 (W )

Noble Wethersfield Windpark, LLC Wethersfield Wind Power C 323626 Wethersfield 121 36 2008-12-11 126.0 126.0 12.6 37.8 WT WND 255.4 (W )

NRG Power Marketing LLC Arthur Kill GT 1 J 23520 Staten Island 085 36 1970-06-01 20.0 16.5 11.6 15.3 N GT C KER 1.2 NRG Power Marketing LLC Arthur Kill ST 2 J 23512 Staten Island 085 36 1959-08-01 376.2 357.7 337.4 346.0 N ST A NG 530.3 NRG Power Marketing LLC Arthur Kill ST 3 J 23513 Staten Island 085 36 1969-06-01 535.5 518.0 508.0 505.6 N ST A NG 392.9 NRG Power Marketing LLC Astoria GT 05 J 24106 Queens 081 36 1970-06-01 19.2 16.0 11.9 14.6 N GT C FO2 0.0 NRG Power Marketing LLC Astoria GT 07 J 24107 Queens 081 36 1970-06-01 19.2 15.5 12.0 13.6 N GT C FO2 0.0 NRG Power Marketing LLC Astoria GT 08 J 24108 Queens 081 36 1970-06-01 19.2 15.3 12.7 15.8 N GT C FO2 0.0 NRG Power Marketing LLC Astoria GT 10 J 24110 Queens 081 36 1971-01-01 31.8 24.9 16.7 22.8 N GT C FO2 0.1 47

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes NRG Power Marketing LLC Astoria GT 11 J 24225 Queens 081 36 1971-02-01 31.8 23.6 19.0 25.1 N GT C FO2 0.1 NRG Power Marketing LLC Astoria GT 12 J 24226 Queens 081 36 1971-05-01 31.8 22.7 17.7 23.1 N GT C FO2 0.1 NRG Power Marketing LLC Astoria GT 13 J 24227 Queens 081 36 1971-05-01 31.8 24.0 16.6 23.0 N GT C FO2 0.1 NRG Power Marketing LLC Astoria GT 2-1 J 24094 Queens 081 36 1970-06-01 46.5 41.2 38.0 43.9 N GT C KER NG 2.3 NRG Power Marketing LLC Astoria GT 2-2 J 24095 Queens 081 36 1970-06-01 46.5 42.4 32.7 43.1 N GT C KER NG 4.7 NRG Power Marketing LLC Astoria GT 2-3 J 24096 Queens 081 36 1970-06-01 46.5 41.2 33.5 42.8 N GT C KER NG 2.5 NRG Power Marketing LLC Astoria GT 2-4 J 24097 Queens 081 36 1970-06-01 46.5 41.0 33.1 43.5 N GT C KER NG 3.1 NRG Power Marketing LLC Astoria GT 3-1 J 24098 Queens 081 36 1970-06-01 46.5 41.2 33.9 43.0 N GT C KER NG 1.2 NRG Power Marketing LLC Astoria GT 3-2 J 24099 Queens 081 36 1970-06-01 46.5 43.5 34.3 43.0 N GT C KER NG 3.9 NRG Power Marketing LLC Astoria GT 3-3 J 24100 Queens 081 36 1970-06-01 46.5 43.0 32.6 42.8 N GT C KER NG 1.4 NRG Power Marketing LLC Astoria GT 3-4 J 24101 Queens 081 36 1970-06-01 46.5 43.0 33.8 42.9 N GT C KER NG 4.7 NRG Power Marketing LLC Astoria GT 4-1 J 24102 Queens 081 36 1970-07-01 46.5 42.6 32.8 43.6 N GT C KER NG 2.0 NRG Power Marketing LLC Astoria GT 4-2 J 24103 Queens 081 36 1970-07-01 46.5 41.4 32.6 43.5 N GT C KER NG 2.1 NRG Power Marketing LLC Astoria GT 4-3 J 24104 Queens 081 36 1970-07-01 46.5 41.1 34.2 43.2 N GT C KER NG 2.3 NRG Power Marketing LLC Astoria GT 4-4 J 24105 Queens 081 36 1970-07-01 46.5 42.8 32.6 43.1 N GT C KER NG 5.5 NRG Power Marketing LLC Dunkirk 1 A 23563 Dunkirk 013 36 1950-11-01 100.0 96.2 75.0 74.9 N ST T A BIT 358.7 NRG Power Marketing LLC Dunkirk 2 A 23564 Dunkirk 013 36 1950-12-01 100.0 97.2 75.0 74.9 N ST T A BIT 365.7 NRG Power Marketing LLC Dunkirk 3 A 23565 Dunkirk 013 36 1959-09-01 217.6 201.4 185.0 185.0 N ST T A BIT 1,053.1 NRG Power Marketing LLC Dunkirk 4 A 23566 Dunkirk 013 36 1960-08-01 217.6 199.1 185.0 184.9 N ST T A BIT 889.8 NRG Power Marketing LLC Dunkirk IC 2 A x Dunkirk 013 36 1990-01-01 0.5 0.0 0.0 N IC FO2 0.0 NRG Power Marketing LLC Huntley 67 A 23561 Tonawanda 029 36 1957-12-01 218.0 196.5 189.5 187.5 N ST T A BIT 973.9 NRG Power Marketing LLC Huntley 68 A 23562 Tonawanda 029 36 1958-12-01 218.0 198.0 189.5 187.5 N ST T A BIT 1,073.6 NRG Power Marketing LLC Huntley IC 1 A x Tonawanda 029 36 1967-08-01 0.7 0.0 0.0 N IC FO2 0.0 NRG Power Marketing LLC Oswego 5 C 23606 Oswego 075 36 1976-02-01 901.8 850.3 822.0 844.5 N ST W A FO6 31.9 NRG Power Marketing LLC Oswego 6 C 23613 Oswego 075 36 1980-07-01 901.8 835.2 826.0 843.0 N ST W A FO6 32.8 NRG Power Marketing LLC Oswego IC 1 C x Oswego 075 36 1967-08-01 0.7 0.0 0.0 N IC FO2 0.0 NRG Power Marketing LLC Oswego IC 2 C x Oswego 075 36 1976-02-01 0.8 0.0 0.0 N IC FO2 0.0 NRG Power Marketing LLC Oswego IC 3 C x Oswego 075 36 1980-07-01 0.8 0.0 0.0 N IC FO2 0.0 NYSEG Solutions, Inc. Carthage Energy E 23857 Carthage 045 36 1991-08-01 62.9 59.0 55.0 67.1 Y CC NG 12.4 Orange and Rockland Utilities Buttermilk Falls G x Highland Falls 071 36 1986-12-01 0.1 0.0 0.0 HY WAT 0.0 Orange and Rockland Utilities Intl. Crossroads G x Mahwah NJ 003 34 1987-12-01 3.0 0.0 0.0 Y IC NG FO2 0.0 Orange and Rockland Utilities Landfill G.Part19 G x Goshen 071 36 1988-12-01 2.5 0.0 0.0 N IC MTE 0.0 Orange and Rockland Utilities Middletown LFG G x Goshen 071 36 1988-12-01 3.0 0.0 0.0 N IC MTE 0.0 Project Orange Associates Project Orange 1 (Ret. - 11/12/10) C 24174 Syracuse 067 36 1992-06-01 49.0 43.6 0.0 0.0 Y GT NG 55.5 ( R ) ( 8 )

Project Orange Associates Project Orange 2 (Ret. - 11/12/10) C 24166 Syracuse 067 36 1992-06-01 49.0 44.0 0.0 0.0 Y GT NG 78.3 ( R ) ( 9 )

PSEG Energy Resource & Trade, LLC Bethlehem GS1 F 323560 Bethlehem 001 36 2005-07-01 297.7 252.3 246.6 282.4 CC NG FO2 4,227.4 ( G)

PSEG Energy Resource & Trade, LLC Bethlehem GS2 F 323561 Bethlehem 001 36 2005-07-01 297.7 252.3 246.6 282.4 CC NG FO2 48

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes PSEG Energy Resource & Trade, LLC Bethlehem GS3 F 323562 Bethlehem 001 36 2005-07-01 297.7 252.3 246.6 282.4 CC NG FO2 R.E. Ginna Nuclear Power Plant, LLC Ginna B 23603 Ontario 117 36 1970-07-01 614.0 582.0 580.9 581.8 NP A UR 4,948.9 Rochester Gas and Electric Corp. Allegany GT B 23514 Hume 003 36 1995-03-01 42.0 39.4 37.0 43.5 Y CT NG 46.9 ( G)

Rochester Gas and Electric Corp. Allegany ST B 23514 Hume 003 36 1995-03-01 25.0 23.5 22.0 25.9 Y CW NG Rochester Gas and Electric Corp. Beebee GT B 23619 Rochester 055 36 1969-06-01 19.0 15.0 15.3 18.2 N GT C FO2 0.1 Rochester Gas and Electric Corp. Mills Mills B X Fillmore 003 36 1906-07-01 0.2 0.0 0.0 HY WAT 0.0 Rochester Gas and Electric Corp. Mt Morris B X Mt Morris 051 36 1916-07-01 0.3 0.0 0.0 HY WAT 0.0 Rochester Gas and Electric Corp. Station 2 1 B 23604 Rochester 055 36 1913-07-01 6.5 6.0 6.5 6.5 HY WAT 26.1 Rochester Gas and Electric Corp. Station 26 1 B 23604 Rochester 055 36 1952-08-01 3.0 2.8 3.0 3.0 HY WAT 8.8 Rochester Gas and Electric Corp. Station 5 1 B 23604 Rochester 055 36 1918-07-01 12.9 12.0 12.9 12.9 HY WAT 0.0 Rochester Gas and Electric Corp. Station 5 2 B 23604 Rochester 055 36 1918-07-01 12.9 12.0 12.9 12.9 HY WAT 0.0 Rochester Gas and Electric Corp. Station 5 3 B 23604 Rochester 055 36 1918-07-01 18.0 16.8 18.0 18.0 HY WAT 0.0 Rochester Gas and Electric Corp. Station 9 B 23652 Rochester 055 36 1969-11-01 19.0 15.8 15.3 21.0 GT C NG 2.5 Rochester Gas and Electric Corp. Wiscoy 1 B X Fillmore 003 36 1922-07-01 0.6 0.0 0.0 HY WAT 0.0 Rochester Gas and Electric Corp. Wiscoy 2 B X Fillmore 003 36 1922-07-01 0.5 0.0 0.0 HY WAT 0.0 Rockville Centre, Village of Charles P Keller 07 K 1661 Rockville Centre 059 36 1942-09-01 2.0 2.0 2.0 N IC FO2 0.0 Rockville Centre, Village of Charles P Keller 08 K 1661 Rockville Centre 059 36 1950-09-01 2.7 2.5 2.5 N IC FO2 0.0 Rockville Centre, Village of Charles P Keller 09 K 1661 Rockville Centre 059 36 1954-09-01 3.5 3.0 3.0 N IC FO2 NG 0.1 Rockville Centre, Village of Charles P Keller 10 K 1661 Rockville Centre 059 36 1954-09-01 3.5 3.0 3.0 N IC FO2 NG 0.2 Rockville Centre, Village of Charles P Keller 11 K 1661 Rockville Centre 059 36 1962-09-01 5.2 5.0 5.0 N IC FO2 NG 0.4 Rockville Centre, Village of Charles P Keller 12 K 1661 Rockville Centre 059 36 1967-09-01 5.5 5.3 5.3 N IC FO2 NG 0.5 Rockville Centre, Village of Charles P Keller 13 K 1661 Rockville Centre 059 36 1974-09-01 5.5 5.3 5.3 N IC FO2 NG 1.9 Rockville Centre, Village of Charles P Keller 14 K 1661 Rockville Centre 059 36 1994-09-01 6.3 6.2 6.2 N IC FO2 NG 1.3 Selkirk Cogen Partners, L.P. Selkirk-I F 23801 Selkirk 001 36 1992-03-01 107.2 82.1 78.7 107.0 Y CC NG 442.1 Selkirk Cogen Partners, L.P. Selkirk-II F 23799 Selkirk 001 36 1994-09-01 338.8 291.3 281.9 337.3 Y CC NG FO2 1,247.7 Seneca Energy II, LLC Ontario LFGE C 23819 Canandaigua 069 36 2003-12-01 5.6 5.6 5.6 5.6 N IC MTE 45.7 Seneca Energy II, LLC Seneca Energy 1 C 23797 Seneca Falls 099 36 1996-03-01 8.8 8.8 8.8 8.8 N IC MTE 139.8 ( G)

Seneca Energy II, LLC Seneca Energy 2 C 23797 Seneca Falls 099 36 1997-08-01 8.8 8.8 8.8 8.8 N IC MTE Seneca Power Partners, L.P. Batavia B 24024 Batavia 037 36 1992-06-01 67.3 57.1 49.1 60.8 Y CC NG 34.0 Seneca Power Partners, L.P. Hillburn GT G 23639 Hillburn 087 36 1971-04-01 46.5 37.9 33.1 41.9 N GT C NG KER 0.2 Seneca Power Partners, L.P. Shoemaker GT G 23640 Middletown 071 36 1971-05-01 41.9 33.1 32.3 38.9 N GT C NG KER 1.0 Sheldon Energy LLC High Sheldon Wind Farm C 323625 Sheldon 121 36 2009-02-01 112.5 112.5 11.3 33.8 WT WND 241.0 (W )

Shell Energy North America (US), L.P. Fort Drum E 23780 Watertown 045 36 1989-07-01 58.0 55.6 0.0 0.0 Y ST BIT 81.5 Shell Energy North America (US), L.P. Glen Park Hydro E 23778 Glen Park 045 36 1986-01-01 32.6 40.4 31.8 42.0 HY WAT 138.2 Shell Energy North America (US), L.P. Lockport Cogen GT1 A 23791 Lockport 063 36 1992-07-01 48.7 49.6 45.1 49.1 Y CT NG FO2 51.4 ( G)

Shell Energy North America (US), L.P. Lockport Cogen GT2 A 23791 Lockport 063 36 1992-07-01 48.7 49.6 45.1 49.1 Y CT NG FO2 Shell Energy North America (US), L.P. Lockport Cogen GT3 A 23791 Lockport 063 36 1992-07-01 48.7 49.6 45.1 49.1 Y CT NG FO2 49

TABLE III-2 (contd)

Existing Generating Facilities Owner, Name S UM 2011 2010 Operator, Location In-Service Plate CRIS Capability (B) Co- Fuel Net and / or Date Rating Cap (A) (MW) Gen Unit F C Type Type Type Energy Billing Organization S tation Unit Zone PTID Town Cnty S t YY- M M - D D (MW) (MW) SUM WIN Y/N Type T S 1 2 3 GWh Notes Shell Energy North America (US), L.P. Lockport Cogen ST1 A 23791 Lockport 063 36 1992-07-01 75.2 76.5 69.6 75.8 Y CW NG FO2 Shell Energy North America (US), L.P. Munnsville Wind Power E 323609 Bouckville 053 36 2007-08-20 34.5 34.5 3.5 10.4 WT WND 84.7 (W )

Shell Energy North America (US), L.P. Saranac Energy 1 D 23793 Plattsburgh 019 36 1994-06-01 95.2 84.6 84.0 92.0 Y CT NG 166.7 Shell Energy North America (US), L.P. Saranac Energy 2 D 23793 Plattsburgh 019 36 1994-06-01 95.2 84.6 84.0 92.0 Y CT NG 99.0 Shell Energy North America (US), L.P. Saranac Energy 3 D 23793 Plattsburgh 019 36 1994-06-01 95.2 84.6 84.0 92.0 Y CW NG 135.7 Stephentown Regulation Services LLC Beacon LESR F 323632 Stephentown 083 36 2010-11-29 20.0 0.0 0.0 0.0 ES FW (N)

Sterling Power Partners, L.P. Sterling E 23777 Sherrill 065 36 1991-06-01 65.3 57.4 51.7 63.2 Y CC NG 12.1 TC Ravenswood, LLC Ravenswood 01 J 23729 Queens 081 36 1967-07-01 18.6 8.8 9.5 10.2 N GT C NG 0.3 TC Ravenswood, LLC Ravenswood 04 J 24252 Queens 081 36 1970-09-01 21.1 15.2 11.5 15.1 N GT C KER NG 0.4 TC Ravenswood, LLC Ravenswood 05 J 24254 Queens 081 36 1970-08-01 21.1 15.7 13.5 16.8 N GT C KER 0.4 TC Ravenswood, LLC Ravenswood 06 J 24253 Queens 081 36 1970-08-01 22.0 16.7 13.7 16.8 N GT C KER NG 0.5 TC Ravenswood, LLC Ravenswood 07 J 24255 Queens 081 36 1970-08-01 22.0 16.5 13.4 17.9 N GT C KER NG 0.3 TC Ravenswood, LLC Ravenswood 09 J 24257 Queens 081 36 1970-07-01 25.0 21.7 20.5 24.4 N GT C KER NG 2.0 TC Ravenswood, LLC Ravenswood 10 J 24258 Queens 081 36 1970-08-01 25.0 21.2 19.6 23.9 N GT C KER NG 2.1 TC Ravenswood, LLC Ravenswood 11 J 24259 Queens 081 36 1970-08-01 25.0 20.2 19.1 23.4 N GT C KER NG 2.2 TC Ravenswood, LLC Ravenswood 2-1 J 24244 Queens 081 36 1970-12-01 42.9 40.4 37.2 43.6 N GT C KER NG 3.4 TC Ravenswood, LLC Ravenswood 2-2 J 24245 Queens 081 36 1970-12-01 42.9 37.6 36.2 45.5 N GT C KER NG 1.8 TC Ravenswood, LLC Ravenswood 2-3 J 24246 Queens 081 36 1970-12-01 42.9 39.2 39.5 45.3 N GT C KER NG 2.8 TC Ravenswood, LLC Ravenswood 2-4 J 24247 Queens 081 36 1970-12-01 42.9 39.8 32.4 40.1 N GT C KER NG 2.4 TC Ravenswood, LLC Ravenswood 3-1 J 24248 Queens 081 36 1970-08-01 42.9 40.5 38.7 44.9 N GT C KER NG 3.4 TC Ravenswood, LLC Ravenswood 3-2 J 24249 Queens 081 36 1970-08-01 42.9 38.1 36.9 45.0 N GT C KER NG 2.8 TC Ravenswood, LLC Ravenswood 3-3 J 24250 Queens 081 36 1970-08-01 42.9 37.7 38.2 44.0 N GT C KER NG 2.6 TC Ravenswood, LLC Ravenswood 3-4 J 24251 Queens 081 36 1970-08-01 42.9 35.8 31.7 40.3 N GT C KER NG 2.7 TC Ravenswood, LLC Ravenswood CC 04 J 23820 Queens 081 36 2004-05-01 250.0 231.2 218.8 253.5 N CC NG FO2 1,223.0 TC Ravenswood, LLC Ravenswood ST 01 J 23533 Queens 081 36 1963-02-01 400.0 365.1 365.2 379.2 N ST A FO6 NG 633.2 TC Ravenswood, LLC Ravenswood ST 02 J 23534 Queens 081 36 1963-05-01 400.0 391.6 352.2 361.7 N ST A FO6 NG 502.9 TC Ravenswood, LLC Ravenswood ST 03 J 23535 Queens 081 36 1965-06-01 1,027.0 986.8 954.2 965.2 N ST A FO6 NG 1,143.3 Trigen-Syracuse Energy Corp. Syracuse Energy ST1 C 323597 Syracuse 067 36 1991-08-01 11.0 11.0 11.0 11.0 Y ST BIT FO2 109.7 ( G)

Trigen-Syracuse Energy Corp. Syracuse Energy ST2 C 323598 Syracuse 067 36 1991-08-01 90.6 58.9 62.8 61.9 N ST BIT FO2 Triton Power Company Chateaugay High Falls D 323578 Chateaugay 033 36 1987-12-01 3.0 0.0 0.0 HY WAT 8.1 Western New York Wind Corp. Western NY Wind Power B 24143 Wethersfield 121 36 2000-10-01 6.6 6.6 0.0 0.0 WT WND 13.3 (W )

Wheelabrator Westchester, LP Wheelabrator Westchester H 23653 Peekskill 119 36 1984-04-01 59.7 53.5 51.9 53.9 N ST REF 406.3 46,064.1 40,827.8 37,707.3 40,407.6 139,357.3 50

NOTES FOR TABLE III-2 (Existing Generating Facilities)

Note # Owner / Operator Station Unit Zone PTID Note 1 Constellation Energy Commodities Group, Inc. Madison County LF E 323628 Generation (Apr - Dec 2010).

2 Empire Generating Co, LLC EMPIRE_CC_1 F 323656 Generation (Sep - Dec 2010).

3 Empire Generating Co, LLC EMPIRE_CC_2 F 323658 Generation (Sep - Dec 2010).

4 Energy Systems North East LLC Energy Systems North East A 23901 Generation (Jan - Oct 2010).

5 Innovative Energy Systems, Inc. Chautauqua LFGE A 323629 Generation (Mar - Dec 2010).

6 Innovative Energy Systems, Inc. Fulton LFGE F 323630 Generation (Jun - Dec 2010).

7 New York Power Authority Poletti 1 J 23519 Generation (Jan 2010).

8 Project Orange Associates Project Orange 1 C 24174 Generation (Jan - Nov 2010).

9 Project Orange Associates Project Orange 2 C 24166 Generation (Jan - Nov 2010).

Summer CRIS caps reflect capacity level of the unit that is deemed deliverable. See Definitions of A Various Generating Units A-K Various Labels for the Load & Capacity Schedules (Section V) for description.

Summer 2011 capability reflects the most recent unadjusted DMNC values. DMNC stands for B Various Generating Units A-K Various Dependable Maximum Net Generating Capability.

G Various Generating Station A-K Various Generation is reported as Station Total.

N Various New Generator A-K Various Unit(s) added since the publication of the 2010 Load and Capacity Data Report.

As filed with the NY DPS and NYISO, this unit is under "protective lay-up" starting 3/18/2011.

Given its inactive status, this unit shall be treated as retired (as per PSC order in Case 05-E-0889, P Various Generating Units C Various footnote 1) and, hence, excluded from Installed Capacity calculations for 2011. The unit could return to an active status in the future.

R Various Retired Generator A,C,J Various Unit(s) retired since the publication of the 2010 Load and Capacity Data Report.

W Various Wind Generators A-E Various Wind Generators - SumCap = 10% of Nameplate, WinCap = 30% of Nameplate.

51

Table III-3a: Capability by Zone and Type - Summer ZONE Generator Type A B C D E F G H I J K TOTAL Summer Capability Period (MW) (3)

Fossil Steam Turbine (Oil) 0.0 0.0 1,648.0 0.0 0.0 9.8 0.0 0.0 0.0 0.0 0.0 1,657.8 Steam Turbine (Oil & Gas) 0.0 0.0 0.0 0.0 0.0 0.0 2,447.8 0.0 0.0 3,301.8 2,441.2 8,190.8 Steam Turbine (Gas) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 845.4 229.2 1,074.6 Steam Turbine (Coal) 1,618.3 0.0 386.5 0.0 0.0 0.0 375.2 0.0 0.0 0.0 0.0 2,380.0 Combined Cycle 385.7 108.1 1,202.4 334.9 185.8 2,870.6 0.0 0.0 0.0 2,649.5 692.6 8,429.6 Jet Engine (Oil) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 518.0 518.0 Jet Engine (Gas & Oil) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 163.2 163.2 Combustion Turbine (Oil) 0.0 15.3 0.0 0.0 0.0 0.0 16.9 0.0 0.0 485.1 522.8 1,040.1 Combustion Turbine (Oil & Gas) 0.0 0.0 41.3 0.0 0.0 0.0 84.9 0.0 0.0 1,369.9 116.6 1,612.7 Combustion Turbine (Gas) 39.3 15.3 5.4 0.0 0.0 0.0 0.0 0.0 0.0 439.5 692.1 1,191.6 Internal Combustion 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 54.0 54.0 Pumped Storage Pumped Storage Hydro 240.0 0.0 0.0 0.0 0.0 1,164.4 0.0 0.0 0.0 0.0 0.0 1,404.4 Nuclear Steam (PWR Nuclear) 0.0 580.9 0.0 0.0 0.0 0.0 0.0 2,037.0 0.0 0.0 0.0 2,617.9 Steam (BWR Nuclear) 0.0 0.0 2,597.3 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 2,597.3 Renewable (1) Conventional Hydro 2,444.3 59.7 108.7 888.0 374.5 317.6 77.8 0.0 3.0 0.0 0.0 4,273.6 Internal Combustion (Methane) 24.8 13.6 34.9 4.8 6.4 4.8 0.0 0.0 0.0 0.0 0.0 89.3 Steam Turbine (Wood) 0.0 0.0 0.0 18.7 19.8 0.0 0.0 0.0 0.0 0.0 0.0 38.5 Steam Turbine (Refuse) 31.2 0.0 32.4 0.0 0.0 0.0 7.6 51.9 0.0 0.0 119.7 242.8 Wind (2) 12.1 0.0 36.4 38.6 44.2 0.0 0.0 0.0 0.0 0.0 0.0 131.1 Totals 4,795.7 792.9 6,093.3 1,285.0 630.7 4,367.2 3,010.2 2,088.9 3.0 9,091.2 5,549.4 37,707.3 (1) - The Renewable Category does not necessarily match the New York State Renewable Portfolio Standard (RPS) Definition.

(2) - Wind generator Summer Rating is 10% of nameplate. At full nameplate rating, wind resources total 1,311.4 MW; total NYCA capability with wind generators at nameplate rating is 38,887.6 MW.

(3) - Values are from the Summer Capability column in Table III-2: Existing Generators.

52

Table III-3b: Capability by Zone and Type - Winter ZONE Generator Type A B C D E F G H I J K TOTAL Winter Capability Period (MW) (3)

Fossil Steam Turbine (Oil) 0.0 0.0 1,687.5 0.0 0.0 10.2 0.0 0.0 0.0 0.0 0.0 1,697.7 Steam Turbine (Oil & Gas) 0.0 0.0 0.0 0.0 0.0 0.0 2,480.2 0.0 0.0 3,354.1 2,433.2 8,267.5 Steam Turbine (Gas) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 851.6 221.7 1,073.3 Steam Turbine (Coal) 1,617.6 0.0 382.5 0.0 0.0 0.0 373.5 0.0 0.0 0.0 0.0 2,373.6 Combined Cycle 427.5 130.2 1,427.0 368.4 223.0 3,434.4 0.0 0.0 0.0 2,943.5 788.7 9,742.7 Jet Engine (Oil) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 622.5 622.5 Jet Engine (Gas & Oil) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 197.2 197.2 Combustion Turbine (Oil) 0.0 18.2 0.0 0.0 0.0 0.0 22.7 0.0 0.0 631.6 644.5 1,317.0 Combustion Turbine (Oil & Gas) 0.0 0.0 49.4 0.0 0.0 0.0 105.9 0.0 0.0 1,715.1 156.4 2,026.8 Combustion Turbine (Gas) 47.5 21.0 7.8 0.0 0.0 0.0 0.0 0.0 0.0 478.7 744.9 1,299.9 Internal Combustion 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 59.2 59.2 Pumped Storage Pumped Storage Hydro 240.0 0.0 0.0 0.0 0.0 1,164.1 0.0 0.0 0.0 0.0 0.0 1,404.1 Nuclear Steam (PWR Nuclear) 0.0 581.8 0.0 0.0 0.0 0.0 0.0 2,070.0 0.0 0.0 0.0 2,651.8 Steam (BWR Nuclear) 0.0 0.0 2,631.7 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 2,631.7 Renewable (1) Conventional Hydro 2,451.6 59.7 108.7 887.7 380.5 312.4 71.9 0.0 1.8 0.0 0.0 4,274.3 Internal Combustion (Methane) 24.8 13.6 34.9 4.8 6.4 4.8 0.0 0.0 0.0 0.0 0.0 89.3 Steam Turbine (Wood) 0.0 0.0 0.0 18.4 19.7 0.0 0.0 0.0 0.0 0.0 0.0 38.1 Steam Turbine (Refuse) 35.4 0.0 32.3 0.0 0.0 0.0 7.7 53.9 0.0 0.0 118.2 247.5 Wind (2) 36.2 0.0 109.1 115.7 132.5 0.0 0.0 0.0 0.0 0.0 0.0 393.4 Totals 4,880.6 824.5 6,470.9 1,395.0 762.1 4,925.9 3,061.9 2,123.9 1.8 9,974.6 5,986.5 40,407.6 (1) - The Renewable Category does not necessarily match the New York State Renewable Portfolio Standard (RPS) Definition.

(2) - Wind Generators - Winter Rating = 30% of Nameplate (3) - Values are from the Winter Capability column in Table III-2: Existing Generators.

53

Figure III-1: 2011 NYCA Capability by Fuel Type Summer 2011 = 37,707 MW GAS - 6,415 (17%)

1% 1% OIL - 3,242 (9%)

GAS & OIL - 14,275 (38%)

4% 11% 17%

COAL - 2,380 (6%)

9%

14% NUCLEAR - 5,215 (14%)

6% HYDRO (PS) - 1,404 (4%)

38%

HYDRO - 4,274 (11%)

WIND (2) - 131 (1%)

(1) - All values are from the Summer Capability column in Table III-2 and are rounded to the nearest whole MW.

OTHER (3) - 371 (1%)

(2) - Wind Generators - Summer Rating = 10% of Nameplate (3) - Includes Methane, Refuse, Solar & Wood (PS) - Pumped Storage 54

Figure III-2: 2010 NYCA Generation by Fuel Type Renewable Resources (3) GWh (1)

Hydro 17%

Wind 2%

Other 2%

Total 21% GAS - 18,223 (13%)

2% 2%

OIL - 242 (1%)

13% 1%

GAS & OIL - 34,705 (25%)

17%

1% COAL - 13,852 (10%)

25% NUCLEAR - 41,870 (30%)

HYDRO (PS) - 801 (1%)

30%

10% HYDRO - 24,214 (17%)

WIND - 2,533 (2%)

OTHER (2) - 2,917 (2%)

Total 2010 = 139,357 GWh (1) - All values are rounded to the nearest whole GWh.

(2) - Includes Methane, Refuse, Solar & Wood (3) - Renewable Resources do not necessarily match the NYS Renewable Portfolio Standard (RPS) Definition (PS) - Pumped Storage 55

Figure III-3a: NYCA Wind Plants - Historic Installed Nameplate Capacity*

1500 1,348 1,274 1,274 1250 1,162 1000 750 MW 425 500 279 250 48 48 48 0

2003 2004 2005 2006 2007 2008 2009 2010 2011

2011 figure as of March 2011. Not all wind generation participates in the NYISO Capacity Market.

56

Figure III-3b: NYCA Wind Plants - Historic Generation 3000 2,533 2500 2,108 2000 1500 1,282 GWh 873 1000 518 500 103 112 101 0

2003 2004 2005 2006 2007 2008 2009 2010 57

58 SECTION IV:

PROPOSED CHANGES IN GENERATING CAPACITY AS OF APRIL 2011

60 Table IV-1: Proposed Generator Additions QUEUE CRIS (MW) Class OWNER / OPERATOR STATION UNIT ZONE DATE Rating (MW) SUMMER (1) WINTER (1) UNIT TYPE Notes POS. (3) Year Completed Class Year Facilities Study 234 Steel Winds, LLC Steel Winds II A 2011/08 15.0 0.0 1.5 4.5 Wind Turbines 2008 (2) 213 Noble Environmental Power, LLC Ellenburg II Windfield D 2011/10 21.0 21.0 2.1 6.3 Wind Turbines 2007 182 Howard Wind, LLC Howard Wind C 2011/12 62.5 62.5 6.3 18.8 Wind Turbines 2007 186 Jordanville Wind, LLC Jordanville Wind E 2011/12 80.0 80.0 8.0 24.0 Wind Turbines 2006 231 Seneca Energy II, LLC Seneca C 2011/12 6.4 0.0 6.4 6.4 Methane 2008 119 ECOGEN, LLC Prattsburgh Wind Farm C 2012/05 78.2 78.2 7.8 23.5 Wind Turbines 2003-05 147 NY Windpower, LLC West Hill Windfarm C 2012/09 31.5 31.5 3.2 9.5 Wind Turbines 2006 166 AES-Acciona Energy NY, LLC St. Lawrence Wind Farm E 2012/09 79.5 79.5 8.0 23.9 Wind Turbines 2007 161 Marble River, LLC Marble River Wind Farm D 2012/10 84.0 84.0 8.4 25.2 Wind Turbines 2006 171 Marble River, LLC Marble River II Wind Farm D 2012/10 132.3 132.3 13.2 39.7 Wind Turbines 2006 197 PPM Roaring Brook, LLC / PPM Roaring Brook Wind E 2012/12 78.0 0.0 7.8 23.4 Wind Turbines 2008 207 BP Alternative Energy NA, Inc. Cape Vincent E 2012/12 210.0 0.0 21.0 63.0 Wind Turbines 2008 Class 2009 Projects 222 Noble Ball Hill Windpark, LLC Ball Hill Windpark A 2011/12 90.0 TBD 9.0 27.0 Wind Turbines 232 Bayonne Energy Center, LLC Bayonne Energy Center J 2012/05 500.0 TBD 500.0 500.0 Dual Fuel (2) 251 CPV Valley, LLC CPV Valley Energy Center G 2012/10 753.0 TBD 656.0 753.0 Combined Cycle Class 2010 Projects 308 Astoria Energy II, LLC Astoria Energy II J 2011/05 617.2 TBD 576.0 617.2 Combined Cycle (2) 330 Long Island Solar Farm LLC Upton Solar Farms K 2011/05 32.0 TBD 20.8 5.1 Solar 237 Allegany Wind, LLC Allegany Wind A 2011/10 72.5 TBD 7.3 21.8 Wind Turbines 254 Ripley-Westfield Wind, LLC Ripley-Westfield Wind A 2011/12 124.2 TBD 12.4 37.3 Wind Turbines 261 Astoria Generating Company South Pier Improvement J 2012/05 108.0 TBD 105.0 108.0 Combustion Turbine(s) (2) 263 Stony Creek Wind Farm, LLC Stony Creek Wind Farm C 2012/12 88.5 TBD 8.9 26.6 Wind Turbines 266 NRG Energy, Inc. Berrians GT III J 2013/06 789.0 TBD 744.0 789.0 Combined Cycle Class 2011 Candidates 239A Innovative Energy System, Inc. Modern Innovative Plant A 2011/07 6.4 TBD 6.4 6.4 Methane 198 New Grange Wind Farm, LLC Arkwright Summit Wind Farm A 2011/09 79.8 TBD 8.0 23.9 Wind Turbines 169 Alabama Ledge Wind Farm, LLC Alabama Ledge Wind Farm B 2011 79.8 TBD 8.0 23.9 Wind Turbines 349 Taylor Biomass Energy, LLC Taylor Biomass F 2012/Q4 22.6 TBD 22.6 22.6 Solid Waste 152 Moresville Energy LLC Moresville Energy Center E 2012/12 99.0 TBD 9.9 29.7 Wind Turbines 201 NRG Energy Berrians GT J 2013/06 200.0 TBD 200.0 200.0 Combined Cycle 224 NRG Energy, Inc. Berrians GT II J 2013/06 90.0 TBD 50.0 90.0 Combined Cycle 310 Cricket Valley Energy Center, LLC AP Dutchess G 2014/12 1115.0 TBD 1002.0 1115.0 Combined Cycle Other Non Class Year Generators Riverbay Corporation Co-op City J 2010/06 40.0 24.0 24.0 Combined Cycle 180A Green Power Cody Road C 2011/Q4 10.0 10.0 1.0 3.0 Wind Turbines 284 Broome Energy Resources, LLC Nanticoke Landfill C 2011 1.6 0.0 1.6 1.6 Methane 204A Duer's Patent Project, LLC Beekmantown Windfarm D 2013/06 19.5 19.5 2.0 5.9 Wind Turbines Total 4,068 4,699 Notes:

(1) The above capability values for wind generation projects reflect expected values of 10% of nameplate for summer capability and 30% of nameplate for winter capability and for solar generation projects reflect expected values of 65% of nameplate for summer capability and 16% of nameplate for winter capability.

(2) Projects that have met Base Case inclusion rules as described in the Comprehensive Reliability Planning Process (CRPP) Manual, Section 4.1, and are included as new additions in this year's Load and Capacity Schedule, Table V-2.

(3) CRIS caps reflect capacity level of the unit that is deemed deliverable. See Definitions of Labels on Load & Capacity Schedule (Sec. V) for description.

61

Table IV-2: Proposed Generator Reratings As of April 2011 INCREMENTAL CAPABILITY (MW) TOTAL CAPABILITY (MW) (2)

QUEUE Class Rating Rating OWNER / OPERATOR STATION UNIT ZONE DATE PTID CRIS(4) SUMMER WINTER CRIS(4) SUMMER WINTER Notes POS. Year (MW) (MW) 216A Nine Mile Point Nuclear, LLC Nine Mile Pt2 C 6/1/2012 23744 2008 115.0 0.0 115.0 115.0 1,374.3 1,148.3 1,256.0 1269.0 (3) 216B Nine Mile Point Nuclear, LLC Nine Mile Pt2 C 6/1/2014 23744 2008 53.0 0.0 53.0 53.0 1,427.3 1,148.3 1,309.0 1322.0 (3) 127A Airtricity Developments, LLC Munnsville Wind Power E 12/1/2013 323609 2006 6.0 6.0 0.6 1.8 40.5 40.5 4.1 12.2 (1), (3) 250 Seneca Energy II, LLC Ontario C 11/1/2011 23819 5.6 0.0 5.6 5.6 11.2 5.6 11.2 11.2 Total 179.6 6.0 174.2 175.4 1,479.0 1,194.4 1,324.3 1,345.4 Notes:

(1) The above capability values for wind generation projects reflect expected values of 10% of nameplate for summer capability and 30% of nameplate for winter capability. `

(2) Total capability values include current and incremental capability values.

(3) Projects that have met Base Case inclusion rules as of March 5, 2010 as described in the Comprehensive Reliability Planning Process (CRPP) Manual, Section 4.1, and projects that are included as new reratings in this year's Load and Capacity Schedule, Table V-2.

(4) CRIS caps reflect capacity level of the unit that is deemed deliverable. See Definitions of Labels on Load and Capacity Schedule (Sec. V) for description.

62

Table IV-3: Generator Retirements As of April 2011 CAPABILITY (MW)

OWNER / OPERATOR STATION UNIT ZONE DATE PTID SUMMER WINTER Units retired since 2010 Goldbook Erie Blvd. Hydro - Lower Hudson Johnsonville 2 F 1/1/2010 24059 0.0 0.0 Energy Systems North East LLC Energy Systems North East A 11/1/2010 23901 -79.4 -88.0 Project Orange Associates Project Orange 1 C 11/12/2010 24174 -40.0 -46.7 Project Orange Associates Project Orange 2 C 11/12/2010 24166 0.0 -47.6 AES Eastern Energy, LP Greenidge 4

C 3/18/2011 23583 -106.1 -105.4 AES Eastern Energy, LP Westover 8

C 3/18/2011 23580 -81.2 -81.5 Total -306.7 -369.2

As filed with the NY DPS and NYISO, both these units are under protective lay-up starting 3/18/2011. Given their inactive status, the units shall be treated as retired (as per PSC order in Case 05-E-0889, footnote 1) and, hence, excluded from Installed Capacity calculations for 2011. These units could return to an active status in the future.

Proposed Retirements NRG Power, Inc. Astoria GT 05 J 1/1/2015 24106 -11.9 -14.6 NRG Power, Inc. Astoria GT 07 J 1/1/2015 24107 -12.0 -13.6 NRG Power, Inc. Astoria GT 08 J 1/1/2015 24108 -12.7 -15.8 NRG Power, Inc. Astoria GT 10 J 1/1/2015 24110 -16.7 -22.8 NRG Power, Inc. Astoria GT 11 J 1/1/2015 24225 -19.0 -25.1 NRG Power, Inc. Astoria GT 12 J 1/1/2015 24226 -17.7 -23.1 NRG Power, Inc. Astoria GT 13 J 1/1/2015 24227 -16.6 -23.0 Total -106.6 -138.0 63

64 SECTION V:

PROPOSED SYSTEM RESOURCE CAPACITY AS OF APRIL 2011

66 Load and Capacity Schedule Description The peak demand shown in Table I-1 is for the New York Control Area (NYCA), which includes the load of the New York investor owned utilities, the New York Power Authority (NYPA), the Long Island Power Authority (LIPA), the Municipal Electric Systems and other load serving entities. These load serving entities include Transmission System customers that have opted for retail access programs being offered by the New York investor owned utilities, LIPA and partial requirements customers of NYPA.

Table III-2: Existing Generating Facilities reports the nameplate rating and seasonal capability of each generating facility. A nameplate rating is provided for energy-only and black start units, but a zero value is indicated for the summer and winter capabilities. Intermittent generators, such as wind, are reported with a nameplate rating and an expected value for summer and winter capability that is based upon the 2003 NYSERDA Wind Study. With respect to Summer capability value, an expected value of 10% of nameplate rating is used for onshore wind projects and 30% of the nameplate rating is used for off-shore wind projects. The expected Winter capability based upon the study is a uniform 30%. The existing generating facilities summarized in Tables V-2a & V-2b are based on summer and winter capability, not nameplate rating, for all generating facilities Special Case Resources, which are interruptible load customers and distributed generation resources, have been included with a historically-based growth projection for 2011. The projected levels of Special Case Resources are held constant beyond 2011.

The inclusion of Special Case Resources in this manner is an appropriate assumption for planning purposes as these resources can be added or removed with short lead times and are driven by uncertain market conditions. The Net Purchases of external capacity reflect the sales data publicly available as of March 18, 2011.

67

Definitions of Labels on Load and Capacity Schedule CRIS is required in order for capacity from a generator to be Installed Capacity for purposes of the NYISO's Installed Capacity Capacity Resource Interconnection market. CRIS values, in MW of Installed Capacity, for the Summer Service (CRIS) Capability Period are established pursuant to the deliverability test methodology and procedures contained in Attachments X, S and Z to the NYISO OATT.

Special Case Resources (SCRs) Distributed generation and interruptible load customers Additions Expected generating additions prior to the seasonal peak demand.

Reratings Generator reratings prior to the seasonal peak demand.

Retirements Generating retirements prior to the seasonal peak demand.

NYCA Resource Capability Summation of above plus all existing generation listed by type.

Net Purchases and Sales Net value of transactions with neighboring control areas.

Controllable transmission projects that provide a transmission Unforced Deliverability Rights (UDRs) interface into NYCA Total Resource Capability The sum of NYCA Resource Capability and Purchases minus Sales.

Peak Demand Forecast Forecasted Peak Demand before EDRP.

Expected Reserve Total Resource Capability minus Peak Demand.

Reserve Margin % Calculated margin of Expected Reserve divided by Peak Demand expressed as a percent.

Includes all generating projects that are not under construction but have met state and environmental permitting milestone requirements Proposed Resource Additions to qualify for inclusion in a class year.

Adjusted Resource Capability The Total Resource Capability plus Proposed Resource Additions.

Adjusted Expected Reserve Adjusted Resource Capability minus Peak Demand.

Calculated margin of Adjusted Expected Reserve divided by Peak Adjusted Reserve Margin %

Demand expressed as a percent.

68

Table V-1: Summary of Transactions External to NYCA Summer Net Purchases & Sales M W (1) (2) 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 1820.7 1959.3 1954.1 1904.1 1904.1 1904.1 1904.1 1904.1 1904.1 1904.1 1904.1 Winter Net Purchases & Sales M W (1) (2) 2011/12 2012/13 2013/14 2014/15 2015/16 2016/17 2017/18 2018/19 2019/20 2020/21 2021/22 965.2 1103.8 1096.7 1046.7 1046.7 1046.7 1046.7 1046.7 1046.7 1046.7 1046.7 Notes:

(1) Figures reflect the use of Unforced Capacity Deliverability Rights (UDRs) as currently known. For more information on the use of UDRs, please see section 4.14 of the ICAP M anual.

(2) Negative Net Purchases and Sales values represent higher total Sales out of NYCA than total Purchases into NYCA. The figures reflect data on external transactions as of M arch 2011.

69

Table V-2a: NYCA Load and Capacity Schedule - Summer MW SUMMER CAPABILITY 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 Totals Fossil Steam Turbine (Oil) 1657.8 1657.8 1657.8 1657.8 1657.8 1657.8 1657.8 1657.8 1657.8 1657.8 1657.8 Steam Turbine (Oil & Gas) 8190.8 8190.8 8190.8 8190.8 8190.8 8190.8 8190.8 8190.8 8190.8 8190.8 8190.8 Steam Turbine (Gas) 1074.6 1074.6 1074.6 1074.6 1074.6 1074.6 1074.6 1074.6 1074.6 1074.6 1074.6 Steam Turbine (Coal) 2380.0 2380.0 2380.0 2380.0 2380.0 2380.0 2380.0 2380.0 2380.0 2380.0 2380.0 Combined Cycle 8429.6 9005.6 9005.6 9005.6 9005.6 9005.6 9005.6 9005.6 9005.6 9005.6 9005.6 Jet Engine (Oil) 518.0 518.0 518.0 518.0 518.0 518.0 518.0 518.0 518.0 518.0 518.0 Jet Engine (Gas & Oil) 163.2 163.2 163.2 163.2 163.2 163.2 163.2 163.2 163.2 163.2 163.2 Combustion Turbine (Oil) 1040.1 1040.1 1040.1 1040.1 1040.1 1040.1 1040.1 1040.1 1040.1 1040.1 1040.1 Combustion Turbine (Oil & Gas) 1612.7 1612.7 2112.7 2112.7 2112.7 2112.7 2112.7 2112.7 2112.7 2112.7 2112.7 Combustion Turbine (Gas) 1191.6 1191.6 1296.6 1296.6 1296.6 1296.6 1296.6 1296.6 1296.6 1296.6 1296.6 Internal Combustion 54.0 54.0 54.0 54.0 54.0 54.0 54.0 54.0 54.0 54.0 54.0 Pumped Storage Pumped Storage Hydro 1404.4 1404.4 1404.4 1404.4 1404.4 1404.4 1404.4 1404.4 1404.4 1404.4 1404.4 Nuclear Steam (PWR Nuclear) 2617.9 2617.9 2617.9 2617.9 2617.9 2617.9 2617.9 2617.9 2617.9 2617.9 2617.9 Steam (BWR Nuclear) 2597.3 2597.3 2712.3 2712.3 2765.3 2765.3 2765.3 2765.3 2765.3 2765.3 2765.3 Renewable (5) Conventional Hydro 4273.6 4273.6 4273.6 4273.6 4273.6 4273.6 4273.6 4273.6 4273.6 4273.6 4273.6 Internal Combustion (Methane) 89.3 89.3 94.9 94.9 94.9 94.9 94.9 94.9 94.9 94.9 94.9 Steam Turbine (Wood) 38.5 38.5 38.5 38.5 38.5 38.5 38.5 38.5 38.5 38.5 38.5 Steam Turbine (Refuse) 242.8 242.8 242.8 242.8 242.8 242.8 242.8 242.8 242.8 242.8 242.8 Wind (6) 131.1 132.6 132.6 132.6 133.2 133.2 133.2 133.2 133.2 133.2 133.2 EXISTING GENERATING FACILITIES 37707.3 38284.8 39010.4 39010.4 39064.0 39064.0 39064.0 39064.0 39064.0 39064.0 39064.0 Special Case Resources - SCR (3) 2053.0 2053.0 2053.0 2053.0 2053.0 2053.0 2053.0 2053.0 2053.0 2053.0 2053.0 Changes Additions 577.5 605.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 1182.5 Reratings 0.0 120.6 0.0 53.6 0.0 0.0 0.0 0.0 0.0 0.0 0.0 174.2 Retirements 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 NYCA RESOURCE CAPABILITY 40337.8 41063.4 41063.4 41117.0 41117.0 41117.0 41117.0 41117.0 41117.0 41117.0 41117.0 Contracts Net Purchases and Sales (1) (7) 1820.7 1959.3 1954.1 1904.1 1904.1 1904.1 1904.1 1904.1 1904.1 1904.1 1904.1 TOTAL RESOURCE CAPABILITY 42158.5 43022.7 43017.5 43021.1 43021.1 43021.1 43021.1 43021.1 43021.1 43021.1 43021.1 BASE FORECAST Peak Demand Forecast 32712.0 33182.0 33433.0 33609.0 33678.0 33749.0 33916.0 34190.0 34533.0 34867.0 35192.0 Expected Reserve 9446.5 9840.7 9584.5 9412.1 9343.1 9272.1 9105.1 8831.1 8488.1 8154.1 7829.1 Reserve Margin % (4) 28.9 29.7 28.7 28.0 27.7 27.5 26.8 25.8 24.6 23.4 22.2 Proposed Resource Changes (2) 36.8 127.6 1859.8 1859.8 2755.2 2755.2 2755.2 2755.2 2755.2 2755.2 2755.2 Adjusted Resource Capability 42195.3 43150.3 44877.4 44881.0 45776.4 45776.4 45776.4 45776.4 45776.4 45776.4 45776.4 Adjusted Expected Reserve 9483.3 9968.3 11444.4 11272.0 12098.4 12027.4 11860.4 11586.4 11243.4 10909.4 10584.4 Adjusted Reserve Margin % 29.0 30.0 34.2 33.5 35.9 35.6 35.0 33.9 32.6 31.3 30.1 70

Table V-2b: NYCA Load and Capacity Schedule - Winter MW WINTER CAPABILITY 2011/12 2012/13 2013/14 2014/15 2015/16 2016/17 2017/18 2018/19 2019/20 2020/21 2021/22 Totals Fossil Steam Turbine (Oil) 1697.7 1697.7 1697.7 1697.7 1697.7 1697.7 1697.7 1697.7 1697.7 1697.7 1697.7 Steam Turbine (Oil & Gas) 8267.5 8267.5 8267.5 8267.5 8267.5 8267.5 8267.5 8267.5 8267.5 8267.5 8267.5 Steam Turbine (Gas) 1073.3 1073.3 1073.3 1073.3 1073.3 1073.3 1073.3 1073.3 1073.3 1073.3 1073.3 Steam Turbine (Coal) 2373.6 2373.6 2373.6 2373.6 2373.6 2373.6 2373.6 2373.6 2373.6 2373.6 2373.6 Combined Cycle 9742.7 10359.9 10359.9 10359.9 10359.9 10359.9 10359.9 10359.9 10359.9 10359.9 10359.9 Jet Engine (Oil) 622.5 622.5 622.5 622.5 622.5 622.5 622.5 622.5 622.5 622.5 622.5 Jet Engine (Gas & Oil) 197.2 197.2 197.2 197.2 197.2 197.2 197.2 197.2 197.2 197.2 197.2 Combustion Turbine (Oil) 1317.0 1317.0 1317.0 1317.0 1317.0 1317.0 1317.0 1317.0 1317.0 1317.0 1317.0 Combustion Turbine (Oil & Gas) 2026.8 2026.8 2526.8 2526.8 2526.8 2526.8 2526.8 2526.8 2526.8 2526.8 2526.8 Combustion Turbine (Gas) 1299.9 1299.9 1407.9 1407.9 1407.9 1407.9 1407.9 1407.9 1407.9 1407.9 1407.9 Internal Combustion 59.2 59.2 59.2 59.2 59.2 59.2 59.2 59.2 59.2 59.2 59.2 Pumped Storage Pumped Storage Hydro 1404.1 1404.1 1404.1 1404.1 1404.1 1404.1 1404.1 1404.1 1404.1 1404.1 1404.1 Nuclear Steam (PWR Nuclear) 2651.8 2651.8 2651.8 2651.8 2651.8 2651.8 2651.8 2651.8 2651.8 2651.8 2651.8 Steam (BWR Nuclear) 2631.7 2631.7 2746.7 2746.7 2799.7 2799.7 2799.7 2799.7 2799.7 2799.7 2799.7 Renewable (5) Conventional Hydro 4274.3 4274.3 4274.3 4274.3 4274.3 4274.3 4274.3 4274.3 4274.3 4274.3 4274.3 Internal Combustion (Methane) 89.3 94.9 94.9 94.9 94.9 94.9 94.9 94.9 94.9 94.9 94.9 Steam Turbine (Wood) 38.1 38.1 38.1 38.1 38.1 38.1 38.1 38.1 38.1 38.1 38.1 Steam Turbine (Refuse) 247.5 247.5 247.5 247.5 247.5 247.5 247.5 247.5 247.5 247.5 247.5 Wind (6) 393.4 397.9 397.9 399.7 399.7 399.7 399.7 399.7 399.7 399.7 399.7 EXISTING GENERATING FACILITIES 40407.6 41034.9 41757.9 41759.7 41812.7 41812.7 41812.7 41812.7 41812.7 41812.7 41812.7 Changes Additions 621.7 608.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 1229.7 Reratings 5.6 115.0 1.8 53.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 175.4 Retirements 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 NYCA RESOURCE CAPABILITY 41034.9 41757.9 41759.7 41812.7 41812.7 41812.7 41812.7 41812.7 41812.7 41812.7 41812.7 Contracts Net Purchases and Sales (1) (7) 965.2 1103.8 1096.7 1046.7 1046.7 1046.7 1046.7 1046.7 1046.7 1046.7 1046.7 TOTAL RESOURCE CAPABILITY 42000.1 42861.7 42856.4 42859.4 42859.4 42859.4 42859.4 42859.4 42859.4 42859.4 42859.4 BASE FORECAST Peak Demand Forecast 24533.0 24693.0 24761.0 24810.0 24828.0 24908.0 25014.0 25232.0 25500.0 25909.0 26210.0 Expected Reserve 17467.1 18168.7 18095.4 18049.4 18031.4 17951.4 17845.4 17627.4 17359.4 16950.4 16649.4 Reserve Margin % (4) 71.2 73.6 73.1 72.8 72.6 72.1 71.3 69.9 68.1 65.4 63.5 (1) - Purchases & Sales are with neighboring Control Areas. Negative Net Purchases and Sales values represent higher total Sales out of NYCA than total Purchases into NYCA.

(2) - Proposed Resource Changes - Includes all proposed generator additions, reratings and retirements from Section IV, except those that have met Base Case inclusion rules as described in the Comprehensive Reliability Planning Process (CRPP) manual. Total net capacity is shown.

(3) - Special Case Resources (SCR) are loads capable of being interrupted upon demand and distributed generators that are not visible to the ISO's Market Information System and that are subject to special rules in order to participate as Capacity suppliers.

(4) - The current Reserve Margin requirement for the 2011-2012 Capability Year is 15.5%.

(5) - The Renewable Category does not necessarily match the New York State Renewable Portfolio Standard (RPS) definition.

(6) - Existing wind generators are listed at their seasonal capability rating.

(7) - Figures reflect the use of Unforced Capacity Delivery Rights (UDRs) as currently known. For more information on the use of UDRs, please see Section 4.14 of the ICAP Manual.

71

72 SECTION VI:

EXISTING TRANSMISSION FACILITIES AS OF MARCH 2011

74 Table VI-1a: Existing Transmission Facilities - Central Hudson Gas & Electric Corporation Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Roseton Hurley Avenue 345 25.74 1 2-1033.5 ACSR 2336 2866 B 1 345 2.50 1 2-1033.5 ACSR 2336 2866 B 4 345 1.52 1 2-1033.5 ACSR 2336 2866 D 1 345 0.55 1 2-1033.5 ACSR 2336 2866 E 2 Hurley Avenue Leeds 345 21.87 1 2-1033.5 ACSR 2336 2866 B 1 345 3.36 1 2-1033.5 ACSR 2336 2866 B 2 345 2.82 1 2-1033.5 ACSR 2336 2866 B 3 345 0.56 1 2-1033.5 ACSR 2336 2866 D 1 Roseton Rock Tavern 345 8.13 1 2-1033.5 ACSR 2336 2866 B 2 345 9.03 1 2-1033.5 ACSR 2336 2866 B 3 Fishkill Plains Todd Hill 115 5.23 1 397.5 ACSR 718 873 B 2 Todd Hill Pleasant Valley 115 5.60 1 397.5 ACSR 718 873 B 2 Fishkill Plains Sylvan Lake 115 4.41 1 1033.5 ACSR 1168 1283 B 1 115 1.59 1 1033.5 ACSR 1168 1283 B 2 Danskamer North Chelsea 115 0.82 1 1250 CU 968 1082 A 1 115 1.00 1 2-397.5 ACSR 968 1082 B 2 Danskamer M arlboro 115 2.26 1 605 ACSR 937 1141 B 2 M arlboro West Balmville 115 4.67 1 795 ACSR 1091 1283 B 1 Danskammer NYBWS Tap 115 0.81 1 1250 CU 893 1005 A 1 NYBWS Tap North Chelsea 115 0.97 1 2-397.5 ACSR 1172 1284 B 2 NYBWS Tap NYBWS 115 0.25 1 336.4 ACSR 588 717 B 1 Danskammer Reynolds Hill 115 2.16 1 795 ACSR 1065 1189 E 3 115 8.30 1 795 ACSR 1065 1189 B 1 115 0.70 1 2000 CU 1065 1189 A 2 Danskammer Chadwick Lake 115 1.61 1 795 ACSR 884 1128 B 1 115 1.99 1 795 ACSR 884 1128 B 2 115 3.66 1 795 ACSR 884 1128 B 3 West Balmville Chadwick Lake 115 4.00 1 795 AA 877 1097 D 1 East Walden Chadwick Lake 115 4.16 1 795 AA 884 1128 D 2 North Chelsea Forgebrook 115 3.05 1 795 AA 884 1128 B 1 Forgebrook M erritt Park 115 0.36 1 795 AA 973 1218 E 2 115 1.32 1 795 AA 973 1218 B 1 M erritt Park Wiccopee 115 2.82 1 795 AAC 973 1227 B 1 115 0.02 1 1272 AAC 973 1227 B 1 Forgebrook Tioronda 115 4.98 1 336.4 ACSR 629 764 B 1 115 0.36 1 795 AAC 629 764 E 2 Fishkill Plains East Fishkill 115 2.05 1 795 ACSR 995 1218 B 1 East Fishkill Shenandoah 115 1.98 1 795 ACSR 995 1218 B 1 Lincoln Park Hurley Avenue 115 2.03 1 1272 AA 995 1218 B 1 115 2.54 1 795 ACSR 995 1218 B 2 East Walden Rock Tavern 115 7.55 1 1033.5 ACSR 1168 1283 E 3 North Chelsea Sand Dock 115 5.24 1 795 ACSR 1091 1283 B 1 115 1.79 1 1272 AA 1091 1283 B 1 Sand Dock Barnegat 115 0.03 1 795 ACSR 995 1218 B 1 Barnegat Knapps Corners 115 2.91 1 795 ACSR 995 1196 C 2 COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 75

Table VI-1a (contd)

Existing Transmission Facilities - Central Hudson Gas & Electric Corporation Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Rhinebeck East Kingston 115 1.27 1 1500 CU 877 1097 A 1 115 3.46 1 795 AA 877 1097 B 1 East Kingston Lincoln Park 115 2.04 1 795 AA 973 1218 B 1 Wiccopee Shenandoah 115 1.04 1 1272 AA 973 1218 B 1 115 0.31 1 795 AA 973 1218 B 1 Pleasant Valley M anchester 115 4.72 1 795 ACSR 1019 1196 B 1 115 0.76 1 795 ACSR 1019 1196 B 2 Spackenkill Knapps Corners (c) 115 2.36 1 795 ACSR 995 1196 B 1 Spackenkill M anchester (c) 115 2.64 1 795 ACSR 995 1196 B 1 M ilan Rhinebeck 115 6.77 1 795 AA 877 1097 B 1 North Chelsea Fishkill Plains 115 5.97 1 795 ACSR 1091 1330 B 1 Reynolds Hill Highland (c) 115 0.91 1 795 ACSR 995 1189 D 1 (c) 115 0.58 1 2000 CU 995 1189 A 2 Highland Ohioville 115 0.21 1 795 ACSR 648 846 D 1 115 5.58 1 795 AA 648 846 D 1 Ohioville Hurley Avenue 115 7.13 1 795 ACSR 647 845 B 1 115 0.82 1 795 ACSR 647 845 B 2 115 4.63 1 795 ACSR 647 845 B 3 115 2.39 1 795 ACSR 647 845 B 4 East Walden M odena 115 5.66 1 1033.5 ACSR 1168 1433 E 1 M odena Ohioville 115 7.51 1 1033.5 ACSR 1168 1433 E 1 Rock Tavern Bethlehem Road 115 5.47 1 336.4 ACSR 629 764 B 2 Bethlehem Road Union Avenue 115 3.67 1 336.4 ACSR 629 764 B 2 Rock Tavern Union Avenue 115 9.14 1 795 ACSR 807 855 B 2 Rock Tavern Sugarloaf 115 12.10 1 2-4/0 ACSR 888 897 E 1 Sugarloaf N.J. State Line 115 10.31 1 4/0 ACSR 400 488 E 2 Sugarloaf N.J. State Line 115 10.31 1 4/0 ACSR 400 488 E 2 Athens Tap(T-7) North Catskill (c) 115 2.23 1 605 ACSR 648 846 D 1 (c) 115 0.68 1 605 ACSR 648 846 D 2 Athens Tap(2) North Catskill 115 1.11 1 605 ACSR 584 708 D 1 115 0.68 1 605 ACSR 584 708 D 2 Pleasant Valley Inwood Avenue 115 4.94 1 795 AA 877 1097 E 2 Inwood Avenue Reynolds Hill 115 1.82 1 795 AA 877 1097 E 2 East Walden Coldenham 115 4.85 1 1033.5 ACSR 1168 1283 E 3 Coldenham Rock Tavern 115 6.92 1 1033.5 ACSR 1168 1283 E 3 St. Pool Rosendale Tap (1) 69 115 2.09 1 795 ACSR 376 454 B 1 Rosendale Tap High Falls (1) 69 115 3.55 1 795 ACSR 1016 1245 B 1 High Falls Kerhonkson (1) 69 115 10.10 1 795 ACSR 376 454 B 1 Kerhonkson Honk Falls (1) 69 115 5.60 1 795 ACSR 275 337 B 2 M odena Galeville (1) 69 115 4.72 1 795 ACSR 342 414 B 1 Galeville Kerhonkson (1) 69 115 8.96 1 795 ACSR 342 414 B 1 Kerhonkson Honk Falls (1) 69 115 4.97 1 795 ACSR 275 337 B 2 Central Hudson Notes (1) These facilities are not counted as part of the 115 kV transmission mileage.

(c) Data change since the publication of the 2010 Load and Capacity Data report.

COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 76

Table VI-1b: Existing Transmission Facilities - Consolidated Edison Company of New York Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Ramapo PJM 500 5.30 1 2-2493 ACAR 1210 1410 D 1 Pleasant Valley ISO-NE 345 17.80 1 2156 ACSR 2000 2260 D 1 Sprain Brook Dunwoodie (3) (c) 345 1.30 2 2-795 ACSR 4200 5000 E 2 2-2493 ACAR Fresh Kills Goethals 345 2.50 2 2-795 ACSR 1620 1710 E 2 Ramapo NY / NJ State Line (1) (c) 345 4.42 2 2-1590 ACSR 2160 2820 E 2 (c) 2-1590 ACSR 3030 3210 Buchannan South M illwood West 345 9.50 2 2-1172 ACAR 2630 3210 F 5 2-2493 ACAR 2630 3220 Dunwoodie M ott Haven 345 11.35 2 2000 CU 1310 1410 A 2500 CU M ott Haven Rainey 345 4.10 2 2000 CU 1310 1410 A 2500 CU Dunwoodie LIPA 345 10.16 1 2500 CU 1150 1270 A 3000 CU Rainey Farragut 345 7.40 3 2000 CU 1230 1410 A 2500 CU 1230 1410 (c) 2500 CU 1290 1480 Farragut East 13th St. (c) 345 1.98 4 2000 CU 1281 1393 A (c) 2500 CU 1341 1430 (c) 2500 CU 666 999 (c) 2500 CU 1030 1286 Sprain Brook Tremont 345 9.40 1 2000 CU 872 1010 A 2500 CU Farragut Gowanus 345 4.12 2 2000 CU 1150 1280 A 2500 CU Gowanus Goethals 345 13.03 2 2000 CU 886 1004 A 2500 CU Farragut PJM 345 3.25 1 2000 CU 965 1090 A 2500 CU Farragut PJM 345 3.36 1 2000 CU 925 1010 A 2500 CU M illwood West Eastview 345 9.30 3 2-2493 ACAR 4040 4280 E 4 Sprain Brook West 49th St. 345 17.89 2 2500 CU 1440 1370 A Ramapo Buchanan North (1) 345 15.10 1 2-2493 ACAR 3000 3210 E 2 Ladentown Buchanan South (1) 345 9.90 1 2-2493 ACAR 3000 3210 E 2 Ramapo Ladentown (1) 345 5.20 1 2-2493 ACAR 3030 3210 E 2 West Haverstraw Ladentown Switching (2) 345 5.10 2 2-2493 ACAR 3030 3480 E 2 Rock Tavern Ramapo 345 27.40 1 2-1590 ACSR 3030 3210 E 1 Buchanan North Eastview 345 18.80 1 2-2493 ACAR 3030 3210 D 5 COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 77

Table VI-1b (contd)

Existing Transmission Facilities - Consolidated Edison Company of New York Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Pleasantville Dunwoodie (c) 345 17.20 2 2-2493 ACAR 3030 3480 E 2 Eastview Sprain Brook 345 9.10 2 2-2493 ACAR 3030 3480 E 4 Eastview Sprain Brook 345 9.10 2 2-2493 ACAR 4040 4280 E 4 West 49th St. East 13th St. 345 4.25 2 2500 CU 1440 1540 A Pleasant Valley Wood St (c) 345 28.00 1 2-2385 ACSR 3030 3480 E 4 Wood St M illwood West (c) 345 17.20 1 2-2385 ACSR 3030 3480 E 4 Pleasant Valley M illwood West (c) 345 45.20 1 2-2385 ACSR 3030 3480 E 4 Pleasant Valley East Fishkill 345 12.10 2 2-2385 ACSR 3030 3480 E 4 East Fishkill Wood St 345 15.90 1 2-2385 ACSR 3240 4230 E 4 Wood St. Pleasantville (4) 345 16.20 1 2-2385 ACSR 3240 4230 E See Note 2-2493 ACAR East Fishkill Pleasantville (4) 345 32.10 1 2-2385 ACSR 3240 4230 E See Note 2-2493 ACAR Goethals PJM (c) 345 0.64 1 2500 CU 1141 1462 A Sprainbrook Academy (6) (c) 345 9.73 1 2000 CU 882 996 A Goethals PJM 230 0.47 1 2-804 ACSR 1600 1820 D 1 1-1590 ACSR M illwood West Buchanan 138 9.50 2 1590 ACSR 1210 1280 F 5 Dunwoodie Sprain Brook (c) 138 1.30 2 2-795 ACSR 1454 1824 E 4 1-2156 ACSR 1-2493 ACAR Dunwoodie South East 179th St. 138 7.42 1 2500 CU 1035 1170 A Dunwoodie North Sherman Creek 138 7.88 1 1500 CU 656 718 A 138 7.83 1 2500 CU 900 1038 A Sherman Creek East 179th St. 138 2.04 2 1500 CU 750 855 A 2000 CU Greenwood Gowanus 138 0.69 2 2000 CU 1050 1220 A 2500 CU Greenwood Fox Hills 138 6.41 2 1500 CU 790 880 A 2000 CU Fox Hills Fresh Kills 138 7.45 2 2000 CU 875 990 A 2500 CU Hudson Avenue East Jamaica 138 11.12 2 1500 CU 710 815 A Hudson Avenue East Farragut 138 0.28 3 2000 CU 510 605 A (c) 2500 CU 790 940 Bowline Point M inisceongo (1) 138 0.70 2 2000 CU 995 1150 A East 179th St. Parkchester 138 2.19 4 1250 CU 670 760 A 1500 CU 2500 CU East 179th St. Hell Gate 138 4.26 3 1500 CU 750 855 A 2000 CU 750 855 2500 CU 1030 1165 Hell Gate Astoria 138 1.60 7 1500 CU 690 840 A 2 2000 CU 750 855 2500 CU 760 895 (c) 2500 CU 825 940 COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 78

Table VI-1b (contd)

Existing Transmission Facilities - Consolidated Edison Company of New York Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Astoria East Corona 138 5.07 6 1500 CU 715 825 A 2000 CU Corona Jamaica 138 4.55 2 1500 CU 710 825 A 2000 CU Jamaica LIPA 138 5.62 2 900 CU 1160 1310 A Jamaica LIPA 138 7.95 1 2500 CU 1050 1180 A Astoria West Queensbridge 138 2.87 2 1500 CU 1430 1650 A 2000 CU 138 2.72 2 1500 CU 715 825 A 2000 CU Queensbridge Vernon 138 0.59 1 2000 CU 1740 1970 A 1500 CU 138 0.92 1 2000 CU 1740 1970 A 1500 CU Vernon Greenwood 138 8.91 2 1500 CU 785 825 A 2000 CU Vernon West 49th Street (c) 138 4.64 1 2000 CU 729 842 A Others:

Linden Cogen Goethals (G23L/M ) (5) 345 345 1.50 2 CU 1252 1252 A PJM (VFT) Linden Cogen (5) 345 345 1 599 599 Indian Pt. #3 Buchanan South (7) (c) 345 0.50 1 2-1172 ACAR 2634 3000 E 2 Consolidated Edison Notes (1) Facilities jointly owned by Consolidated Edison Company of N.Y. Inc.,

and Orange and Rockland Utilities, Inc., (Consolidated Edison of N.Y.

Inc., 85% and Orange and Rockland Utilities, Inc., 15% from Ramapo Substation to Rockland/Westchester County Line).

(2) Facilities jointly owned by Consolidated Edison Company of N.Y. Inc.,

and Orange and Rockland Utilities, Inc., (Consolidated Edison of N.Y.

Inc., 66.67% and Orange and Rockland Utilities, Inc., 33.33%).

(3) Rating is for two circuits in parallel.

(4) There are four circuits on a common R.O.W. North of Millwood West and two circuits on a common R.O.W. South of Millwood West.

(5) Facility owned by East Coast Power, LLC (6) In service as of February 24, 2011 (7) Circuit owned by Entergy (c) Data change since the publication of the 2010 Load and Capacity Data report.

COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 79

Table VI-1c: Existing Transmission Facilities - Long Island Power Authority Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Execution Rocks Shore Road (Glenwood) 345 7.60 1 2500 CU 1040 1170 A Duffy Ave Convertor Station Newbridge Rd 345kv (2) 345 1.70 1 HDD 1600 mm2 1216 - A 1 Newbridge Ruland Road 138 7.93 2 795 ACSR 1099 1340 E 2 Queens / Nassau County Line Valley Stream (c) 138 2.49 1 1500 CU 1160 1310 A Ruland Road Pilgrim 138 9.92 2 1272 SSAC 2370 2533 E 2 Holbrook SuperCon (c) 138 0.47 1 1192 ACSR 1399 1709 D (c) 138 0.05 1 2300 AL 1851 2371 D SuperCon Port Jefferson (c) 138 8.33 1 1192 ACSR 1399 1709 D Holbrook Port Jefferson (c) 138 8.96 1 1192 ACSR 1399 1709 D Valley Stream Barrett 138 4.36 1 1500 CU 996 1177 A Valley Stream Barrett 138 4.28 1 1500 CU 996 1177 A Newbridge E. Garden City 138 3.84 2 1500 CU 931 1100 A Barrett Freeport (c) 138 5.33 1 1500 CU 857 1023 A Freeport Newbridge (c) 138 6.33 1 1500 CU 857 1023 A Valley Stream E. Garden City 138 6.83 1 1500 CU 962 1138 A Northport Pilgrim (c) 138 7.80 2 2-1500 CU 1800 2130 A 2 Northport Elwood 138 3.64 2 2-2000 CU 1548 1856 A 2 Newbridge Locust Groove (c) 138 3.18 1 2-2000 CU 1580 1962 A (c) 138 1.80 1 2300 AL 1851 2371 D Locust Groove Syosset (c) 138 3.26 1 2300 AL 1851 2371 D 1 Northport NY/CT State Border (c) 138 5.57 1 3/C 800mm2 CU 648 648 A 2

Northport NY/CT State Border (c) 138 5.57 1 3/C 800mm CU 648 648 A Northport NY/CT State Border (c) 138 5.57 1 3/C 800mm2 CU 648 648 A Carle Place E. Garden City (c) 138 1.49 1 795 ACSR 1099 1340 E Roslyn E. Garden City (c) 138 2.71 1 795 ACSR 1099 1340 E (c) 138 1.35 1 1192 AL 1243 1580 E (c) 138 0.63 1 2500 CU 1588 1642 A Glenwood Carle Place (c) 138 6.87 1 1192 AL 1243 1580 E (c) 138 0.63 1 2500 CU 1588 1642 A Glenwood Roslyn (c) 138 4.20 1 1192 AL 1243 1580 E Elwood Greenlawn (c) 138 1.91 1 2300 AL 1851 2371 D 2 (c) 138 0.87 1 2-3000 AL 1734 2146 A Greenlawn Syosset (c) 138 3.54 1 2300 A 1851 2371 D 2 (c) 138 2.56 1 2500 CU 1147 1356 A Elwood Oakwood (c) 138 4.41 1 2300 AL 1851 2371 D 2 (c) 138 0.87 1 2-3000 AL 1734 2146 A Oakwood Syosset (c) 138 1.04 1 2300 AL 1851 2371 D 2 (c) 138 2.56 1 2500 CU 1147 1356 A Holbrook Sills Rd (c) 138 7.81 1 2-1750 AL 3124 3996 E (c) 138 0.11 1 2300 AL 1851 2371 D (c) 138 0.09 1 2493 ACSR 2087 2565 D Sills Rd Brookhaven (c) 138 5.00 1 2-1590ACSR 3324 4078 E (c) 138 0.28 1 2493 ACSR 2087 2565 D Hauppauge Central Islip (c) 138 3.26 1 1192 ACSR 1399 1709 D 1,2 (c) 138 2.46 1 3500 AL 910 1043 A Hauppauge Pilgrim (c) 138 2.02 1 1192 ACSR 1343 1531 D 1 COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit ;

Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 80

Table VI-1c (contd)

Existing Transmission Facilities - Long Island Power Authority Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Holbrook Ronkonkoma (c) 138 1.86 1 2-1192 ACSR 2798 3418 D Ronkonkoma Central Islip (c) 138 2.65 1 2493ACAR 2087 2565 D (c) 138 0.90 1 2-1192ACSR OH 2798 3418 D (c) 138 0.73 1 3500 AL 1640 2062 A Northport Pilgrim (c) 138 7.80 1 1500 CU 825 1010 A 1 Shore Road Lake Success (c) 138 8.72 2 3500 AL 1003 1203 A Queens / Nassau County Line Lake Success (c) 138 0.10 1 1500 CU 1050 1180 A Holbrook M iller Place (c) 138 7.54 1 2493 ACAR 2087 2565 E (c) 138 4.73 1 2300 AL 1851 2371 E M iller Place Shoreham (c) 138 8.41 1 2300 AL 1851 2371 E Riverhead Canal 138 16.40 1 2368 KCM IL (1200 mm²) 1057 1216 A 1 Shoreham Wildwood (c) 138 1.00 1 2300 AL 1851 2371 D Wildwood Riverhead (c) 138 10.40 1 1192 AL 1243 1580 E Holbrook North Shore Beach (c) 138 7.54 1 1192 ACSR 1399 1709 E (c) 138 8.92 1 2300 AL 1851 2371 E North Shore Beach Wading River (c) 138 0.23 1 2493 ACAR 2087 2565 E (c) 138 3.52 1 2300 AL 1851 2371 E Wading River Shoreham (c) 138 0.46 1 2300 AL 1851 2371 E (c) 138 0.22 1 2493 ACAR 2087 2565 E Shoreham Brookhaven 138 7.30 1 2300 AL 1851 2372 D 1 Ruland Road Sterling 138 5.96 1 3500 AL 857 1078 A Holbrook Ruland (c) 138 345 21.60 1 2-1590 ACSR 3324 4078 E 2,4 (c) 138 0.29 1 2493 ACAR 2087 2565 E Newbridge Bagatelle (1) (c) 138 3.93 1 2500 CU parallel with 1626 2007 A 3500 AL (c) 138 4.12 1 2493 ACAR 2087 2565 D (c) 138 2.65 1 1590 ACSR 2324 4078 D Bagatelle Pilgrim (c) 138 7.20 1 2-1590 ACSR 2324 4078 E Brookhaven Edwards Ave (c) 138 6.50 1 2-1590 ACSR 3324 4078 E (c) 138 0.10 1 1272 SSAC 2370 2533 E 2

(c) 138 0.73 1 2000 mm Cu 1313 1313 A Edwards Ave Riverhead (c) 138 2.72 1 795 ACSR 1099 1340 E (c) 138 0.11 1 1192 AL 1243 1580 E 2

(c) 138 0.76 1 2000 mm CU 1313 1313 A Holtsville Gt. Pilgrim (c) 138 11.70 1 2-1590 ACSR 3324 4078 E 2 (c) 138 0.16 1 2493 ACAR 2087 2565 E E.Garden City Newbridge 138 345 3.84 1 2500 CU 921 1117 A 3 Holtsville Gt. Sills Rd (c) 138 0.47 1 2-1750 AL 3124 3996 E (c) 138 9.00 1 2-1590 ACSR 3324 4078 E Sills Rd Brookhaven (c) 138 0.20 1 2493ACAR 2087 2565 E (c) 138 4.85 1 2-1750AL 3124 3996 E (c) 138 0.15 1 2300AL 1851 2371 E (c) 138 0.05 1 2000 mm2 Cu 3423 3915 A Holbrook Holtsville Gt. (c) 138 0.32 1 2-1750 AL 3121 3661 E 2 Newbridge E. Garden City (c) 138 345 4.00 1 2000 mm2 CU 1204 1204 A 4 2

Newbridge Ruland (c) 138 345 9.10 1 2000 mm CU 1193 1193 A 3 COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 81

Table VI-1c (contd)

Existing Transmission Facilities - Long Island Power Authority Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Glenwood Shore Road (c) 138 0.36 1 2493 ACAR 2087 2565 E Glenwood Shore Road (c) 138 0.36 1 2493 ACAR 2087 2565 E Holtsville Gt. Union Ave (c) 138 0.17 1 1250 CU 758 758 A Caithness Sills Road (c) 138 0.34 1 1192 AL 1399 1709 E (c) 138 0.04 1 1200 mm2 CU 1094 1251 A Caithness Sills Road (c) 138 0.34 1 1192 AL 1399 1709 E (c) 138 0.04 1 1200 mm2 CU 1244 1422 A Shoreham East Shore (3) 150 DC 24.00 1 2-1300 CU 2350 2350 A 1 Duffy Ave Convertor Station PJM (2) 500 DC 66.00 1 2100 mm2 1345 - A 1 Long Island Power Authority Notes (1) Second cable energized in 1983 operated in parallel with existing 3500AL between Bethpage and Ruland Road that was energized in 1980 (2) Cables owned by NRTS-Neptune Regional Transmission System (3) Cables owned by Cross-Sound Cable Company, LLC (c) Data change since the publication of the 2010 Load and Capacity Data report.

COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 82

Table VI-1d: Existing Transmission Facilities - New York Power Authority Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

M assena Intnl Boundary 765 21.04 1 4-1351.5 ACSR 3000 3000 D 1 M assena M arcy 765 133.85 1 4-1351.5 ACSR 3000 3000 D 1 Sprain Brook East Garden City 345 26.60 1 2500 CU 1184 1289 A 1 1 3950 CU Astoria Unit #6 East 13th St 345 7.00 2 2500 CU 900 1000 A 2 Blenheim-Gilboa Fraser 345 33.62 1 2-954 ACSR 2389 2924 D 1 1 3410 ACAR 1 2-1033.5 ACSR M arcy Coopers Corners 345 134.90 1 2-1431 ACSR 2250 2250 E/D 2 Edic Fraser 345 76.30 1 2-1431 ACSR 3072 3768 E 2 Blenheim-Gilboa Leeds (3) (c) 345 765 36.90 1 2-1351.5 ACSR 2389 2949 D 1 1 3410 ACAR Blenheim-Gilboa New Scotland (3) (c) 345 31.82 1 2-954 ACSR 2389 2924 D 1 1 3410 ACAR Coopers Corners Rock Tavern 345 46.10 1 2-1431 ACSR 3072 3768 E 2 Coopers Corners M iddletown Tap 345 32.30 1 2-1431 ACSR 3072 3768 E 2 M iddletown Tap Rock Tavern 345 13.80 1 2-1431 ACSR 3072 3768 E 2 Edic M arcy 345 1.53 1 3-1351.5 ACSR 2806 3210 D 1 Fitzpatrick Edic 345 68.30 1 2-1113 ACSR 2400 2400 D 1 Fitzpatrick Scriba 345 0.93 1 2-1113 ACSR 2400 2400 D 1 Niagara Intnl Boundary 345 0.84 2 2-2500 CU 1791 1975 A 2 345 0.16 2 932.7 ACSR E Niagara Rochester (c) 345 70.20 1 2-795 ACSR 2178 2662 D 2 Niagara Dysinger Tap (c) 345 26.20 1 2-795 ACSR 2178 2662 D 2 Dysinger Tap Rochester (c) 345 44.00 1 2-795 ACSR 2178 2662 D 2 Rochester Pannell (c) 345 17.00 2 2-795 ACSR 2178 2662 D 2 Roseton East Fishkill 345 7.40 1 2-2156 ACSR 3992 4400 D 1 345 0.90 1 2500 CU A Pannell Clay (c) 345 61.60 2 2-795 ACSR 2178 2662 D 2 Clay Edic (c) 345 50.10 2 2-795 ACSR 2178 2662 D 2 Niagara Intnl Boundary (1) 230 3.90 1 1158.4 ACSR 1212 1284 E Note (1)

M oses-St.Lawrence Intnl Boundary (c) 230 2.14 2 795 ACSR 952 1163 E 4 2 636 ACSR M oses-St.Lawrence Adirondack 230 8.19 2 795 ACSR E 10 (c) 230 77.27 2 500 CU 873 1121 B 2 230 0.43 2 795 ACSR D 2 M oses-St.Lawrence Willis (c) 230 37.11 2 795 ACSR 876 1121 B 2 Willis Ryan (c) 230 6.460 1 795 ACSR 996 1200 B 2 Ryan Plattsburgh (c) 230 27.24 1 795 ACSR 624 722 B 2 Willis Duley (c) 230 24.38 1 795 ACSR 996 1200 B 2 Duley Plattsburgh (c) 230 9.32 1 795 ACSR 624 722 B 3 M assena M oses-St.Lawrence 230 8.17 2 2-1351.5 ACSR 2349 2702 E 2 Reynolds Tap General M otors 115 0.97 2 795 ACSR 201 231 C 2 M oses-St.Lawrence Reynolds (c) 115 4.34 3 795 ACSR 728 728 B 3 M oses-St.Lawrence Alcoa (2) (c) 115 7.09 1 954 ACSR 1093 1284 C 1 M oses-St.Lawrence Alcoa (2) (c) 115 7.09 2 954 ACSR 1093 1400 C 1 COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 83

Table VI-1d (contd)

Existing Transmission Facilities - New York Power Authority Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Plattsburgh Vermont State Line (c) 115 7.46 1 954 ACSR 1147 1316 B 1 115 1 804.5 ACSR (c) 115 1.63 1 500 CU A (c) 1 1000 CU Plattsburgh Saranac 115 8.37 1 4/0 EK CW/CU 484 643 B 1 1 477 ACSR New York Power Authority Notes (1) Row shared with second double circuit consisting of a 69kV-25hz NGRID Line and a strung de-energized line (2) Circuits owned by Alcoa (3) Ratings dependent on circuit breaker status and contingent upon continous ECC/Operations monitoring (c) Data change since the publication of the 2010 Load and Capacity Data report COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor EK CW/CU - Copper Weld / Copper Conductor 84

Table VI-1e: Existing Transmission Facilities - New York State Electric and Gas Corporation Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Oakdale Fraser 345 56.90 1 2-1033.5 ACSR 2100 2309 B 1 Fraser Coopers Corners 345 46.64 1 2156 ACSR 2020 2480 B 1 Watercure Road Oakdale 345 42.50 1 2156 ACSR 1549 1800 B 2 Homer City Watercure Road 345 177.00 1 2156 ACSR 1549 1552 B 1 Homer City Stolle Rd (2) 345 166.64 1 2-1033.5 ACSR 1013 1200 B 1 Oakdale Clarks Corners (2) (c) 345 21.15 1 2-1280.5 ACAR 2020 2140 E 1 Clarks Corners Lafayette (2) (c) 345 4.06 1 2-1280.5 ACAR 2020 2140 E 1 Somerset Dysinger 345 17.60 2 2-1192 ACSR 2760 3000 B 1 Watercure Oakdale 230 42.50 1 1192.5 ACSR 1190 1200 B 2 Hillside State Line 230 11.85 1 1033.5 ACSR 1212 1284 B 2 (East Towanda)

Hillside Watercure Road 230 1.27 1 1192.5 ACSR 1265 1543 E 3 M eyer Canandaigua (c) 230 11.03 1 1033.5 ACSR 1212 1284 B 1 Canandaigua Avoca (c) 230 5.43 1 1033.5 ACSR 1212 1284 B 1 Avoca Hillside 230 46.75 1 1033.5 ACSR 1212 1284 B 1 Stolle Road High Sheldon (c) 230 12.00 1 795 ACSR 1080 1284 B 1 High Sheldon Wethersfield (c) 230 10.00 1 795 ACSR 1080 1284 B 1 Wethersfield M eyer (c) 230 31.40 1 795 ACSR 1080 1284 B 1 Gardenville Stolle Road 230 12.44 1 1192.5 ACSR 1190 1200 E 2 Robinson Road Lewiston 230 17.96 1 1192.5 ACSR 1380 1690 B 1 Robinson Road Stolle Road 230 30.52 1 1192.5 ACSR 1380 1690 B 1 Katonah Croton Falls 115 6.87 1 795 ACSR 1080 1310 B 1 Croton Falls Carmel 115 7.65 1 1033.5 ACSR 1080 1310 C 2 Carmel Wood St 115 1.34 1 795 ACSR 1080 1310 C 2 Coddington M ontour Falls 115 20.79 1 336.4 ACSR 265 535 B 1 Coddington Etna 115 8.07 1 1033.5 ACSR 1140 1337 B 1 Ridge Tap M ontour Falls 115 9.45 1 336.4 ACSR 540 670 E 2 Ridge Road M ontour Falls 115 9.45 1 336.4 ACSR 640 740 E 2 Ridge Tap Hillside 115 6.71 1 336.4 ACSR 540 670 E 3 Wright Avenue State Street 115 3.47 1 795 ACSR 930 1160 E 1 M illiken Etna 115 16.87 1 795 ACSR 930 1160 B 2 M illiken Wright Avenue 115 27.61 1 795 ACSR 930 1160 B 1 Greenidge M ontour Falls 115 26.61 1 795 ACSR 624 792 B 2 Greenidge M ontour Falls 115 26.61 1 336.4 ACSR 540 670 B 2 M ontour Falls Bath 115 22.00 1 602.5 ACSRTW 540 670 B 1 Hickling Ridge Tap 115 10.69 1 4/0 EK CWDCU 455 550 B 1 Ridge Road Hillside 115 6.71 1 336.4 ACSR 540 670 E 3 North Waverly Lounsberry (1) 115 10.90 1 4/0 ACSR 755 940 E 1 North Waverly Hillside (1) 115 16.35 1 4/0 ACSR 755 928 E 2 Goudey South Owego 115 18.10 1 336.4 ACSR 560 720 E 2 Stolle Rd. Roll Rd. 115 20.27 1 1033.5 AAL 624 732 B 1 Cold Springs Rd. Carrs Corners 115 4.92 1 336.4 ACSR 540 670 B 1 Lockport Hinman Road 115 0.11 1 795 ACSR 960 1230 B 1 Sylvan Lake Pawling 115 8.50 1 1033.5 ACSR 882 1035 B 1 COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor EK CW/CU - Copperweld/Copper Conductors; ACSR/TW - ACSR Trapezoidal Wedges 85

Table VI-1e (contd)

Existing Transmission Facilities - New York State Electric and Gas Corporation Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Grand Gorge Shandaken 115 20.77 1 477 ACSR 600 846 B 1 Hyatt Rd. Hyatt Tap 115 1.12 1 477 ACSR 700 900 B 1 Colliers Richfield Springs 115 29.39 1 1033.5 AAL 450 450 C 2 Amawalk M ohansic 115 2.25 1 750 392 442 A 2 Shandaken Belleayre 115 7.42 1 477 ACSR 630 750 B 1 Amawalk M ohansic 115 2.25 1 1250 624 732 A 2 Coddington E.Ithaca 115 5.37 1 336 ACSR 560 720 B 2 Etna E.Ithaca 115 5.37 1 336 ACSR 560 720 B 2 M illiken Etna 115 16.87 1 1033.5 ACSR 930 1160 B 2 Lounsberry South Oswego 115 7.29 1 336.4 ACSR 560 720 E 1 Belleayre Arkville 115 7.52 1 477 ACSR 630 750 B 1 Arkville Andes 115 7.46 1 477 ACSR 630 750 B 1 Andes Delhi 115 11.49 1 477 ACSR 540 600 B 1 Klinekill Craryville 115 14.00 1 1033.5 ACSR 770 925 B 1 Craryville Churchtown 115 8.48 1 1033.5 ACSR 566 691 B 1 M ulberry St. Tap Point 115 4.18 2 795 ACSR 400 400 B 1 South Owego Candor 115 14.34 1 1033.5 AAL 300 300 B 1 Oakdale North Endicott 115 7.57 1 1033.5 ACSR 808 856 B 1 North Endicott Castle Gardens 115 4.41 1 1033.5 ACSR 750 750 B 1 Castle Gardens Fuller Hollow 115 7.00 1 1033.5 ACSR 1250 1530 B 1 M organ Road Fuller Hollow 115 4.82 1 1033.5 ACSR 1200 1200 C 2 M organ Road Langdon 115 4.55 1 1033.5 ACSR 1019 1196 B 1 Northside Oakdale 115 4.13 1 1033.5 ACSR 930 1160 B 1 Windham Tap Point 115 10.50 1 477 ACSR 630 750 B 1 Brothertowne Rd. East Norwich 115 30.78 1 1033.5 ACSR 540 600 B 1 Oakdale Delhi 115 60.10 1 1033.5 ACSR 808 856 B 2 Depew Erie Street 115 2.50 1 477 ACSR 540 600 E 4 Gardenville Stolle Road 115 12.44 1 795 ACSR 1019 1196 E 2 Stolle Road Pavement Road 115 2.53 1 1033.5 ACSR 648 834 B 3 Pavement Road Erie 115 8.19 1 1033.5 ACSR 648 834 B 3 Stolle Road Davis Road 115 14.44 1 1033.5 ACSR 1019 1196 B 1 M eyer South Perry 115 19.60 1 4/0 ACSR 440 530 E 3 Goudey Oakdale 115 1.51 1 477 ACSR 1250 1530 E 2 1 336.4 ACSR Richfield Springs Inghams (2) 115 12.08 1 4/0 CU 400 570 B 1 Oakdale Kattelville 115 8.95 1 477 ACSR 700 900 B 1 Kattelville Jennison 115 21.00 1 477 ACSR 550 800 B 1 Jennison East Norwich 115 20.06 1 4/0 EK CWDCU 400 585 B 1 Lapeer Etna 115 14.82 1 336.4 ACSR 540 670 B 1 Jennison Delhi 115 29.73 1 4/0 EK CWDCU 400 585 B 1 Delhi Colliers 115 17.37 1 1033.5 AAL 1140 1200 B 1 Goudey State Line(Tiff.) 115 8.24 1 336.4 ACSR 540 670 B 1 Bath Bennett 115 20.41 1 602.5 ACSRTW 624 732 B 1 Jennison Hancock 115 27.22 1 477 ACSR 510 598 B 1 COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor EK CW/CU - Copper Weld / Copper Conductor; ACSR/TW - ACSR Trapeziodal Wedges 86

Table VI-1e (contd)

Existing Transmission Facilities - New York State Electric and Gas Corporation Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Hancock Ferndale 115 42.40 1 336.4 ACSR 510 598 B 1 North Waverly State Line (East Sayre) 115 2.92 1 336.4 ACSR 540 670 B 1 Coopers Corners West Woodbourne 115 22.98 1 477 ACSR 540 600 B 1 Hickling Caton Avenue 115 16.71 1 477 ACSR 510 598 B 1 Ferndale West Woodbourne 115 7.18 1 336.4 ACSR 450 450 B 1 Caton Avenue Hillside 115 4.94 1 477 ACSR 510 598 B 1 Etna Lapeer Area 115 14.95 1 1033.5 ACSR 770 925 B 1 Willet East Norwich 115 21.80 1 336.4 ACSR 540 670 B 1 Lapeer Area Willet 115 10.30 1 336.4 ACSR 630 750 B 1 Sciota Flatrock Kents Falls 115 13.83 1 477 ACSR 600 600 B 2 Hickling W. Erie Ave. 115 8.62 1 1033.5 ACSR 600 600 B 1 Greenidge Haley Road 115 11.24 1 1033.5 ACSR 883 900 B 1 Haley Road Guardian 115 7.68 1 1033.5 ACSR 883 1036 B 1 Guardian Border City 115 0.99 1 1033.5 ACSR 883 1036 B 1 Eelpot Rd. M eyer 115 15.10 1 336.4 ACSR 560 720 B 1 Erie St N. Broadway 115 3.79 1 447 ACSR 624 732 D 2 Coopers Corners Ferndale 115 10.45 1 1033.5ASCR 883 900 B 2 Clinton Corn Tap Clinton Corn 115 4.05 1 477 ACSR 780 950 B 1 Battenkill Salem 115 17.67 1 477 ACSR 200 228 B 1 Delhi Axtel Road 115 19.57 1 477 ACSR 450 450 B 1 Axtel Road Grand Gorge 115 7.90 1 477 ACSR 780 950 B 1 Gardenville Big Tree 115 7.55 1 1033.5 AAL 883 1036 C 2 Davis Road Big Tree 115 11.84 1 477 ACSR 540 670 C 2 M oraine Bennett 115 11.83 1 1033 ACSR 624 732 B 1 Nicholville M alone 115 20.06 1 477 ACSR 630 750 B 1 M alone Willis 115 11.07 1 477 ACSR 600 600 B 1 Lyon M t. Kents Falls 115 19.08 1 477 ACSR 630 750 B 1 Eelpot Rd. Flat St. 115 23.20 1 336.4 ACSR 560 720 B 1 Flat St Greenidge 115 5.32 1 336.4 ACSR 540 720 B 1 Hallock Hill Kents Falls 115 14.60 1 477 ACSR 270 270 B 1 Bennett Palmiter Road 115 7.31 1 336.4 ACSR 560 720 B 1 Palmiter Road Andover (2) 115 5.76 1 336.4 ACSR 396 481 B 1 M eyer M oraine Road 115 7.61 1 1033.5 ACSR 630 750 B 1 Robble Ave. North Endicott 115 1.17 1 1033.5 ACSR 1248 1274 B 1 M acedon Station #121 115 2.63 1 1033.5 AAL 301 343 B 1 Langdon Northside 115 10.03 1 1033.5 AAL 883 1036 B 1 Coopers Corners Short Cut Road 115 14.02 1 1033.5 AAL 301 343 B 1 Wood St. Amawalk 115 5.74 1 795 ACSR 1080 1310 C 2 Amawalk Katonah 115 5.76 1 795 ACSR 392 442 C 2 Gardenville New Gardenville 115 0.32 1 2156 ACSR 84/19 1250 1505 B 1 Cobble Hill N.M . 151,152 115 0.71 2 1033.5 AAL 630 750 C 2 Robinson Road Harrison 115 3.49 1 795 ACSR 1080 1310 B 1 Hinman Road Harrison 115 2.31 1 1033.5 ACSR 1195 1490 C 2 North Broadway Urban(N.M . Packard) 115 2.95 1 477 ACSR 700 900 B 1 COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor EK CW/CU - Copperweld/Copper Conductors; ACSR/TW - ACSR Trapezoidal Wedges 87

Table VI-1e (contd)

Existing Transmission Facilities - New York State Electric and Gas Corporation Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

State Street Auburn Steel 115 0.24 1 477 ACSR 600 600 B 1 Lapeer Cortland (2) 115 2.67 1 1280 ACAR 600 732 B 1 Texas Eastern Texas Tap 115 0.55 1 336.4 ACSR 560 720 B 1 Hamilton Road N.M . 1E,1W 115 0.17 2 477 ACSR 780 950 C 2 Sylvan Lake Fishkill 115 0.80 1 1033.5 ACSR 1110 1400 B 1 Pawling Croton Falls 115 24.61 1 1033.5 ACSR 883 900 B 1 Republic Barton Brook 115 13.60 1 477 ACSR 441 517 B 1 115 0.40 1 500 AL UG 427 479 A 1 Willis Willis Tap 115 0.04 1 477 ACSR 560 720 B 2 Willis Tap Lyon M t. 115 20.50 1 477 ACSR 630 750 B 1 Plattsburgh Northend 115 3.55 1 1272 ACSR 1440 1760 B 1 Plattsburgh Ashley Rd 115 4.16 1 795 ACSR 1110 1350 B 1 Ashley Rd Northend 115 5.00 1 1272 ACSR 1440 1760 C 2 Ashley Rd M ason Corners 115 16.80 1 477 ACSR 780 950 B 1 Willis Tap Chateaugay 115 2.71 1 336.4 ACSR 680 870 B 1 Sleight Road Clyde Rge (2) 115 0.29 1 477 ACSR 755 900 B 2 Sleight Road Quaker Rge (2) 115 0.29 1 477 ACSR 755 940 B 2 State St. Elbridge (2) 115 4.08 1 336.4 ACSR 540 670 B 2 State St. Clyde Rge 115 4.11 1 336.4 ACSR 540 670 B 2 Border City Junius Tap 115 4.27 2 477 ACSR 755 940 E 2 Goudey Robble Ave. 115 4.26 1 1280 ACAR 42/19 1195 1464 B 1 Sidney Tap Sidney R.R. 115 2.71 1 477 ACSR 700 900 D 1 Sciota Flatrock M asons Corners 115 13.80 1 477 ACSR 780 950 B 1 Northside Anitec 115 2.61 1 750 AL UG 490 540 A Etna Clarks Corners (c) 115 14.95 1 1277 KCM ACAR 1410 1725 B 1 Etna Clarks Corners (c) 115 14.95 1 1277 KCM ACAR 1410 1725 E 2 NYS EG Notes (1) 2 4/0 ACSR conductors paralleled (2) NYSEG part only (c) Data change since the publication of the 2010 Load and Capacity Data report.

COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor EK CW/CU - Copperweld/Copper Conductors; ACSR/TW - ACSR Trapezoidal Wedges 88

Table VI-1f: Existing Transmission Facilities - National Grid Western Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Homer City Stolle Road (1), (2) 345 37.47 1 2-1192.5 ACSR 2796 3416 B 3,1 Beck Packard (2) 230 4.12 1 1158.4 ACSR 1398 1708 E 4 1 1192.5 ACSR Dunkirk So. Ripley 230 31.34 1 1192.5 ACSR 1212 1284 B 1 Elm St. Gardenville 230 6.13 1 750 CU 560 560 A 2 1 1500 CU Elm St. Gardenville 230 6.13 1 750 CU 560 560 A 2 1 500 CU Gardenville Dunkirk 230 47.40 1 1192.5 ACSR 1398 1600 B 2 Gardenville Dunkirk 230 47.07 1 1192.5 ACSR 1398 1600 B 2 Huntley Elm 230 7.76 1 2500 AL 1085 1085 A 1 Huntley Gardenville 230 20.08 1 1192.5 ACSR 1421 1737 E 8 Huntley Gardenville 230 20.13 1 1192.5 ACSR 1421 1737 E 8 Niagara Packard 230 3.39 1 1431 ACSR 1573 1926 E 12 Niagara Packard 230 3.44 1 1431 ACSR 1573 1926 E 12 Packard Huntley 230 12.17 1 1192.5 ACSR 1398 1709 E 4 1 1158.4 ACSR Packard Huntley 230 12.03 1 1192.5 ACSR 1398 1709 E 4 1 1158.4 ACSR So. Ripley Erie,East (1) 230 0.15 1 1192.5 ACSR 1260 1500 B 1 Batavia S.E. Batavia 115 3.06 1 795 ACSR 1105 1200 B 1 M ountain Lockport (1) (c) 115 17.57 1 400 CU 847 1000 E 2 1 636 AL 1 636 ACSR 1 795 ACSR 1 795 AL Dunkirk Falconer 115 53.67 1 795 ACSR 884 1118 B 1,2 1 1192.5 ACSR Dunkirk Falconer 115 34.01 1 4/0 ACSR 444 538 E 2 1 795 ACSR 1 636 AL Dunkirk Falconer 115 34.07 1 4/0 ACSR 444 538 E 2 1 795 ACSR 1 636 AL Dupont Packard 115 4.45 1 795 ACSR 973 1234 E 2 1 795 AL Dupont Packard 115 4.45 1 795 AL 973 1234 E 2 1 795 ACSR Dupont Packard 115 3.43 1 795 ACSR 847 1072 E 2 1 795 AL 1 636 AL 1 1431 AL Dupont Packard 115 3.37 1 795 ACSR 847 1072 E 2 1 795 AL 1 636 AL 1 1431 AL COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 89

Table VI-1f (contd)

Existing Transmission Facilities - National Grid Western Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Falconer Homer Hill 115 42.67 1 336.4 ACSR 646 784 E 2 Falconer Homer Hill 115 42.67 1 336.4 ACSR 646 784 E 2 Falconer Warren (1) 115 7.85 1 4/0 CU 584 708 B 1 1 795 ACSR Gardenville Bethlehem 115 7.13 1 1192.5 ACSR 1008 1234 E 2 Gardenville Bethlehem 115 7.07 1 1192.5 ACSR 1008 1234 E 2 Gardenville Buffalo River 115 9.75 1 4/0 ACSR 444 538 E 2 115 1 336.4 ACSR 1 795 ACSR Gardenville Buffalo River 115 9.66 1 4/0 ACSR 444 538 E 2 1 795 ACSR Gardenville Dunkirk 115 44.88 1 4/0 ACSR 444 538 E 2 115 1 250 CU 115 1 336.4 ACSR 115 1 636 AL 115 1 795 ACSR Gardenville Dunkirk 115 44.86 1 4/0 ACSR 444 538 E 2 115 1 250 CU 115 1 336.4 ACSR 115 1 636 AL 115 1 795 ACSR Gardenville Erie St. (1) 115 6.70 1 636 ACSR 648 846 E 8 115 1 400 CU 115 1 795 ACSR Gardenville Arcade (c) 115 34.93 1 336.4 ACSR 584 708 B 2 115 1 795 ACSR 115 1 636 ACSR Arcade Homer HIll (c) 115 32.76 1 336.4 ACSR 584 708 B 2 (c) 115 1 795 ACSR (c) 4/0 CU Gardenville Homer Hill (c) 115 65.69 1 336.4 ACSR 584 708 E 2 115 1 795 ACSR 636 ACSR 4/0 CU Gardenville Seneca 115 2.71 1 400 CU 797 972 E 2 Gardenville Seneca 115 2.62 1 400 CU 797 972 E 2 Golah North Lakeville 115 13.88 1 795 ACSR 884 1118 B 1 Homer Hill Bennett (1) (c) 115 46.68 1 4/0 ACSR 400 488 B 2 115 1 336.4 ACSR 115 1 795 ACSR 115 1 2-1192.5 ACSR Homer Hill Dugan Road 115 6.74 1 336.4 ACSR 584 708 B 2 115 1 4/0 CU Homer Hill West Olean 115 0.56 1 336.4 ACSR 532 646 B 1 115 1 4/0 CU COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 90

Table VI-1f (contd)

Existing Transmission Facilities - National Grid Western Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Huntley Buffalo Sewer 115 5.18 1 795 ACSR 939 1144 E 2 115 1 500 CU 115 1 636 ACSR Huntley Buffalo Sewer 115 5.27 1 795 ACSR 1005 1222 E 2 115 1 500 CU Huntley Gardenville 115 23.51 1 300 CU 648 846 E 8 115 1 400 CU 115 1 500 CU 115 1 636 AL 115 1 636 ACSR 115 1 795 ACSR Huntley Gardenville 115 23.52 1 300 CU 648 846 E 8 115 1 400 CU 115 1 500 CU 115 1 636 AL 115 1 636 ACSR 115 1 795 ACSR Huntley Lockport 115 20.87 1 300 CU 731 887 E 4 115 1 400 CU 115 1 636 AL 115 1 795 ACSR 636 ACSR Huntley Lockport 115 20.80 1 300 CU 731 887 E 4 115 1 400 CU 115 1 556.5 AL 115 1 556.5 ACSR 115 1 636 AL 115 1 636 ACSR 115 1 795 ACSR Kensington Gardenville 115 5.94 1 636 AL 847 1072 E 2 115 1 636 ACSR Kensington Gardenville 115 5.93 1 636 AL 847 1072 E 2 115 1 636 ACSR Lockport Batavia 115 35.83 1 795 ACSR 657 797 B 2 Lockport Batavia 115 35.84 1 250 CU 629 764 B 2 115 1 795 ACSR 336.4 ACSR Lockport Batavia 115 33.76 1 250 CU 646 784 B 1 115 1 336.4 ACSR 115 1 428 AL 115 1 636 AL 115 1 795 ACSR Lockport Hinman (1) (c) 115 0.09 1 1250 CU 1105 1347 B COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 91

Table VI-1f (contd)

Existing Transmission Facilities - National Grid Western Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Lockport M ortimer 115 55.79 1 250 CU 648 650 D 3 115 1 428 AL 115 1 636 AL 115 1 795 ACSR 115 0.39 1 1250 CU A Lockport M ortimer 115 55.34 1 397.5 ACSR 650 650 E 3 115 1 795 ACSR 115 0.39 1 1250 CU A Lockport M ortimer 115 55.53 1 795 ACSR 648 650 E 3 115 1 397.5 ACSR 115 0.39 1 1250 CU A M ortimer Golah 115 9.58 1 250 CU 657 797 B 1 115 1 397.5 ACSR 115 1 795 ACSR M ortimer Pannell (1) 115 15.71 1 336.4 ACSR 649 788 E 5 115 1 795 ACSR M ortimer Pannell (1) 115 15.72 1 336.4 ACSR 629 764 E 5 115 1 795 ACSR M ortimer Quaker (1) 115 17.26 1 300 CU 731 887 F 5 115 1 556.5 AL 795 AL 115 1 795 ACSR M ountain Lockport 115 17.53 1 400 CU 847 1000 E 4 115 1 636 AL 115 1 636 ACSR 115 1 795 AL 115 1 795 ACSR M ountain Niagara (1) 115 1.02 1 1431 AL 884 1128 E 5 M ountain Niagara (1) 115 1.16 1 795 AL 884 1128 E 5 115 1 1431 AL M ountain Niagara (1) 115 1.08 1 795 AL 884 1128 E 5 115 1 1431 AL Niagara Gardenville (1) 115 31.56 1 350 CU 806 978 E 1 115 1 636 AL 115 1 400 CU 115 1 500 CU 1 636 ACSR 115 1 795 ACSR 115 1 2-400 CU 115 1 2-500 CU 115 1 2-795 AL 115 1 1431 AL Niagara Gibson (1) 115 1.66 1 1431 AL 648 846 E 12 Niagara Gibson (1) 115 1.65 1 1431 AL 648 846 E 12 COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 92

Table VI-1f (contd)

Existing Transmission Facilities - National Grid Western Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Niagara Lockport (1) (c) 115 18.34 1 1431 AL 1172 1434 E 12 115 1 2-636 AL Niagara Lockport (1) (c) 115 18.25 1 1431 AL 1172 1434 E 12 115 1 2-636 AL Niagara Packard (1) 115 3.62 1 1431 AL 1383 1761 E 12 1 1431 AL Niagara Packard (1) 115 3.37 1 1431 AL 1383 1761 E 12 Niagara Packard (1) 115 3.67 1 1431 AL 1383 1761 E 12 Niagara Packard (1) 115 3.67 1 1431 AL 1383 1761 E 12 Niagara Packard (1) 115 3.43 1 1431 AL 1383 1699 E 12 Packard Gardenville 115 28.32 1 400 CU 648 846 E 4 115 1 500 CU 115 1 636 AL 115 1 636 ACSR 115 1 795 ACSR Packard Huntley 115 19.62 1 636 ACSS 847 1063 E 4 115 1 636 AL Packard Urban(Erie St) (1) 115 22.09 1 400 CU 806 978 E 4 115 1 350 CU 115 1 500 CU (c) 115 1 636 AL 115 1 636 ACSR 115 1 795 ACSR Packard Walck Rd. 115 10.07 1 636 ACSS 1200 1200 E 4 1 596 ACCR 1 611 ACCC Packard Union Carbide 115 1.53 1 795 ACSR 973 1222 E 2 1 795 AL 1 500 CU Packard Union Carbide 115 1.53 1 795 ACSR 973 1222 E 2 1 795 AL 1 500 CU Pannell Geneva (1) 115 25.11 1 2-336.4 ACSR 785 955 E 4 115 1 795 ACSR 1 477 ACSR Quaker Sleight Road (1) 115 13.85 1 556.5 AL 776 982 B 1 115 1 795 ACSR S.E. Batavia Golah 115 27.74 1 397.5 ACSR 648 846 G 1 115 1 795 ACSR Walck Rd. Huntley 115 9.78 1 636 AL 847 1063 E 4 115 1 636 ACSS National Grid (Western) Notes (1) Denotes NGRID mileage to franchise line only (2) From NYSEG tower D-2 to NYSEG tower C-47 (c) Data change since the publication of the 2010 Load and Capacity Data report COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 93

Table VI-1g: Existing Transmission Facilities - National Grid Central Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Clay Dewitt 345 15.06 1 2167 ACSR 1856 2395 E 2 Dewitt Lafayette 345 8.32 1 2-1192.5 ACSR 2796 3200 E 2 Independence Clay 345 29.14 1 2-1192.5 ASCR 2796 3210 B 2,3,4 Independence Scriba 345 2.78 1 2-1192.5 ASCR 2796 3210 E 1,2 Lafayette Clarks Corners (1) (c) 345 38.62 1 2-1192.5 ACSR 2796 3200 E 2 Nine M ile Pt #1 Clay 345 27.56 1 2167 ACSR 1728 2140 B 2 Nine M ile Pt #1 Scriba 345 0.48 1 2167 ACSR 1728 2140 D 2 Nine M ile Pt #2 Scriba 345 0.45 1 2-1192.5 ACSR 2796 3416 D 1 Oswego Lafayette 345 48.14 1 2-1192.5 ACSR 1574 1574 B 1 345 0.39 1 2-2500 CU A 1 Oswego Volney 345 13.39 1 2-1192.5 ACSR 2009 2140 B 2 Oswego Volney 345 13.40 1 2-1192.5 ACSR 2009 2140 B 2 Scriba Volney 345 8.82 1 2167 ACSR 2009 2468 B 2 Scriba Volney 345 8.87 1 2-1192.5 ACSR 2796 3200 B 2 Volney Clay 345 18.48 1 2167 ACSR 1856 2395 B 2 Volney M arcy (1) 345 765 64.32 1 4-1351.5 ACSR 2796 3210 D 1,2 345 1.37 1 2-1192.5 ACSR D (c) 345 0.23 1 2-1431 ACSR D Adirondack Chases Lake 230 11.05 1 795 ACSR 1105 1347 B 2 Adirondack Porter (c) 230 54.41 1 795 ACSR 1105 1284 B 2 1 1431 ACSR Chases Lake Porter (c) 230 43.46 1 795 ACSR 1105 1284 B 2 1 1431 ACSR Edic Porter 230 0.42 1 2-795 ACSR 1203 1384 D 1 2167 ACSR Alcoa (NM PC) Dennison 115 2.99 1 556.5 ACSR 884 1081 E 1 1 795 ACSR 1 636 ACSR Alcoa (NM PC) M .E.F. 115 1.70 1 795 ACSR 600 732 B 1 Alcoa (NM PC) North Ogdensburg 115 35.02 1 336.4 ACSR 646 784 B 1 1 636 ACSR 1 795 ACSR Ash Teall 115 3.45 2 1250 CU 605 620 A 2 Ash Temple 115 1.50 1 1500 CU 1040 1040 A 1 Auburn(State St.) Elbridge (1) 115 10.26 1 336.4 ACSR 649 788 E 4 1 795 ACSR Battle Hill Balmat 115 5.95 1 336.4 ACSR 569 717 E 1 Black River Lighthouse Hill 115 35.51 1 4/0 CU 584 708 E 2 Black River North Carthage 115 11.88 1 4/0 CU 584 708 E 2 Black River Taylorville 115 26.06 1 4/0 CU 516 646 B 2 1 336.4 ACSR Boonville Porter 115 26.83 1 4/0 CU 584 708 E 2 Boonville Porter 115 26.81 1 4/0 CU 584 708 E 2 1 336.4 ACSR COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 94

Table VI-1g (contd)

Existing Transmission Facilities - National Grid Central Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Boonville Rome 115 24.06 1 4/0 CU 532 646 E 2 Boonville Rome 115 26.21 1 4/0 CU 532 646 E 2 Browns Falls Newton Falls Paper 115 3.87 1 336.4 ACSR 516 600 B 1 Browns Falls Taylorville 115 26.77 1 4/0 CU 516 654 E 2 Browns Falls Taylorville 115 26.79 1 4/0 CU 532 646 E 2 Carr St. Dewitt 115 3.06 1 636 ACSR 939 1144 B 1 1 795 ACSR Cedars Dennison (1) 115 0.02 1 795 ACSR 1105 1347 E 2 Cedars Dennison (1) 115 0.03 1 795 ACSR 973 1234 E 2 Clay Dewitt 115 19.21 1 795 ACSR 584 708 B 2 1 4/0 CU Clay Dewitt (c) 115 345 14.78 1 2167 ACSR 973 1234 E 2 (c) 115 0.68 1 795 ACSR B Clay Lockheed M artin 115 6.52 1 4/0 CU 584 708 E 2 1 477 ACSR 1 795 ACSR Clay Teall 115 15.52 1 4/0 CU 584 708 B 2 1 795 ACSR Clay Teall 115 11.35 1 795 ACSR 1105 1200 B 2 Clay Woodward 115 6.39 1 795 ACSR 1105 1347 B 2 Coffeen Black River 115 7.66 1 336.4 ACSR 600 600 B 1 Coffeen Lighthouse Hill-Black River 115 45.15 1 795 ACSR 584 600 B 1 1 4/0 CU Coffeen West Adams 115 14.11 1 795 ACSR 400 400 B 1 Colton Battle Hill 115 32.02 1 3/0 ACSR 385 467 E 2 1 336.4 ACSR Colton Browns Falls 115 30.48 1 336.4 ACSR 516 654 E 2 Colton Browns Falls 115 30.63 1 336.4 ACSR 516 654 E 2 Colton M alone (1) 115 18.37 1 336.4 ACSR 598 728 B 1 1 477 ACSR Colton Townline 115 16.29 1 397.5 ACSR 600 600 B 1 Corning Battle Hill 115 26.43 1 336.4 ACSR 385 467 E 2 Cortland Clarks Corners (1) (c) 115 7.93 1 336.4 ACSR 600 732 B 2 1 1192.5 ACSR Curtis St. Teall 115 29.44 1 636 ACSR 939 1144 B 2 1 795 ACSR Dennison Colton 115 28.49 1 795 ACSR 916 1118 E 2 Dennison Colton 115 28.49 1 795 ACSR 916 1118 E 2 Dewitt Tilden 115 7.92 1 636 ACSR 916 1118 B 1 1 795 ACSR 1 2-1192.5 ACSR Edic Porter 115 0.46 1 2-1351 ACSR 2286 2637 B 2 Edic Porter 115 0.40 1 2-1351 ACSR 2538 3028 B 2 COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 95

Table VI-1g (contd)

Existing Transmission Facilities - National Grid Central Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Elbridge Geres Lock 115 11.42 1 300 CU 731 887 E 4 1 477 ACSR 1 795 ACSR Elbridge Geres Lock 115 8.06 1 336.4 ACSR 649 788 E 4 1 795 ACSR Elbridge Geres Lock 115 8.07 1 336.4 ACSR 584 708 E 4 1 795 ACSR Elbridge Woodard 115 11.97 1 300 CU 785 955 E 4 1 477 ACSR 1 795 ACSR Fenner Cortland 115 34.45 1 336 ACSR 629 764 B 1 1 795 ACSR 1 1192.5 ACSR Fitzpatrick Lighthouse Hill 115 25.61 1 4/0 CU 584 708 E 2 1 795 ACSR Fort Drum Black River 115 7.47 1 795 ACSR 800 800 B 1 East Oswegatchie North Gouverneur 115 1.55 1 795 ACSR 629 764 B 1 Geneva(Border City) Elbridge (1) 115 31.25 1 336.4 ACSR 649 788 E 4 1 477 ACSR 1 795 ACSR Geres Lock Kamine/Syracuse 115 0.68 1 795 ACSR 537 537 B 1 Geres Lock Onondaga Co-Gen 115 1.01 1 795 ACSR 800 976 B 1 Geres Lock Solvay 115 0.92 1 4/0 CU 584 708 E 3 1 336.4 ACSR Geres Lock Solvay 115 0.94 1 4/0 CU 584 708 E 3 1 556.5 AL 1 336.4 ACSR Geres Lock Tilden 115 10.90 1 336.4 ACSR 584 708 D 1 1 397.5 ACSR 1 4/0 CU 1 636 ACSR 1 795 ACSR Hook Rd Elbridge 115 51.04 1 300 CU 731 887 E 4 1 477 ACSR 1 795 ACSR Indeck(Oswego) Lighthouse Hill 115 28.52 1 4/0 CU 573 698 E 2 1 336.4 ACSR Lake Colby Lake Placid (1) 115 10.45 1 336.4 ACSR 569 717 B 1 Levitt Rome 115 20.44 1 336.4 ACSR 629 764 B 1 Lighthouse Hill Clay 115 26.57 1 2-4/0 CU 584 708 E 2 1 4/0 CU 1 795 ACSR COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 96

Table VI-1g (contd)

Existing Transmission Facilities - National Grid Central Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Lockheed M artin Geres Lock 115 8.69 1 4/0 CU 584 708 E 3 1 795 ACSR 1 336.4 ACSR 1 477 ACSR M alone Lake Colby 115 43.70 1 795 ACSR 648 846 B 1 M cintyre Colton 115 31.38 1 3/0 ACSR 385 467 E 2 1 336.4 ACSR 1 795 ACSR M cintyre Corning 115 11.22 1 336.4 ACSR 646 784 E 2 M ortimer Hook Rd 115 21.16 1 300 CU 648 846 E 4 1 795 ACSR M ortimer Elbridge 115 71.99 1 477 ACSR 648 836 E 4 1 300 CU 1 428 AL 1 556.5 AL 1 795 ACSR Nine M ile Pt.#1 Fitzpatrick (1) 115 0.62 1 795 ACSR 600 600 D Nine M ile Pt.#2 Scriba 115 0.39 1 795 ACSR 1000 1000 B 3 Nine M ile Pt.#2 Scriba 115 0.90 1 795 ACSR 1000 1000 B 2 North Carthage Taylorville 115 14.09 1 4/0 CU 532 646 E 2 1 795 AL North Gouverneur Battle Hill 115 4.91 1 795 ACSR 385 467 B 1 1 3/0 ACSR North Ogdensburg M cintyre 115 5.48 1 795 ACSR 800 800 B 1 O.E.F. North Ogdensburg 115 0.86 1 795 ACSR 400 488 B 1 Ogdensburg M cintyre 115 2.45 1 336.4 ACSR 320 320 B 2 Oneida Fenner 115 11.07 1 795 ACSR 734 800 B 1 Oneida Oneida Energy 115 2.55 1 795 ACSR 400 488 B 1 Oneida Porter 115 21.19 1 4/0 CU 584 708 E 2 Oneida Yahnandasis 115 17.90 1 4/0 CU 532 646 E 2 1 336.4 ACSR Oswego South Oswego 115 1.45 1 2250 AL 1050 1050 A 2 Oswego South Oswego 115 1.43 1 2250 AL 1050 1050 A 2 Oswego South Oswego 115 1.45 1 2-1192 ACSR 2009 2400 E 4 1 2167 ACSR Peat Dewitt (c) 115 4.17 1 1192.5 ACSR 1334 1600 E 2 Porter Deerfield 115 0.73 1 4/0 CU 532 640 E 2 Porter Deerfield 115 0.74 1 4/0 CU 584 640 E 2 Porter Schuyler 115 6.63 1 795 ACSR 648 846 B 3 Porter Terminal 115 4.11 1 795 ACSR 1005 1200 B 1 Porter Valley 115 17.58 1 4/0 CU 584 708 E 2 1 336.4 ACSR COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 97

Table VI-1g (contd)

Existing Transmission Facilities - National Grid Central Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Porter Watkins Rd. 115 11.41 1 4/0 CU 584 708 E,B 2 1 795 ACSR Rome Oneida 115 12.47 1 2-4/0 CU 648 846 E 1 1 795 ACSR Sleight Road Auburn(State St.) (1) 115 28.24 1 556.5 AL 629 764 B 1 1 300 CU 1 336.4 ACSR 1 795 ACSR South Oswego Curtis St. 115 12.21 1 636 ACSR 939 1000 B 2 1 795 ACSR South Oswego Clay 115 34.27 1 336.4 ACSR 532 646 B 1 1 4/0 CU 1 795 ACSR South Oswego Geres Lock 115 31.54 1 636 ACSR 715 887 B 2 1 300 CU 1 477 ACSR 1 795 ACSR South Oswego Indeck(Oswego) 115 4.28 1 4/0 CU 573 698 E 2 1 336.4 ACSR 1 795 ACSR South Oswego Nine M ile Pt #1 115 10.30 1 4/0 CU 584 708 E 2 1 336.4 ACSR 1 795 ACSR S.U.N.Y.(Cortland) Cortland 115 5.87 1 795 ACSR 573 698 B 1 Taylorville Boonville 115 33.38 1 4/0 CU 516 646 E 2 1 336.4 ACSR Taylorville Boonville 115 33.91 1 4/0 CU 532 646 E 2 1 336.4 ACSR Taylorville M oshier 115 10.99 1 4/0 CU 250 250 E 1 1 3/0 ACSR 1 336.4 ACSR 1 2-4/0 CU Teall Carr St. 115 3.63 1 636 ACSR 939 1144 B 1 1 795 ACSR Teall Dewitt 115 8.77 1 795 ACSR 584 708 B 2 1 336.4 ACSR 1 4/0 CU Teall Oneida 115 28.85 1 4/0 CU 584 708 E 2 Teall Oneida 115 28.89 1 4/0 CU 584 708 E 2 Temple Dewitt 115 2.50 1 1500 CU 884 1040 A 1 115 4.17 1 1192.5 ACSR B Terminal Schuyler 115 4.70 1 477 ACSR 584 708 B 1 1 4/0 CU 1 336.4 ACSR 1 1192.5 ACSR COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 98

Table VI-1g (contd)

Existing Transmission Facilities - National Grid Central Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Thousand Islands Coffeen 115 19.56 1 336.4 ACSR 600 600 B 1 Tilden Cortland 115 35.11 1 795 ACSR 884 1128 B 1 Valley Fairfield (c) 115 5.38 1 4/0 CU 584 708 E 2 1 336.4 ACSR (c) 1 795 ACSR Fairfield Inghams (c) 115 7.01 1 4/0 CU 584 708 E 2 (c) 1 795 ACSR Watkins Rd. Ilion M unicipal 115 3.43 1 336.4 ACSR 646 784 B 1 1 795 ACSR Watkins Rd. Inghams 115 15.64 1 4/0 CU 584 708 B,E 2 1 336.4 ACSR 1 795 ACSR Willis M alone (1) 115 0.03 1 477 ACSR 648 846 E 2 Yahundasis Chadwicks 115 5.91 1 795 ACSR 532 646 B 1 1 336.4 ACSR Yahundasis Porter 115 9.38 1 4/0 CU 584 708 E 2 1 336.4 ACSR National Grid (Central) Notes (1) Denotes NGRID mileage to franchise line only (c) Data change since the publication of the 2010 Load and Capacity Data report COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 99

Table VI-1h: Existing Transmission Facilities - National Grid Eastern Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Alps Berkshire (1) 345 8.79 1 2-1192.5 ACSR 2796 3200 D 1 Athens Pleasant Valley (1) 345 39.39 1 2-795 ACSR 2228 2718 D 6,4 Edic New Scotland 345 83.52 1 2-795 ACSR 2228 2718 D 2 Leeds Hurley Ave (1) 345 0.18 1 2-1033.5 ACSR 2560 3126 D 1 Leeds Athens 345 0.49 1 2-795 ACSR 2228 2718 D 6,4 Leeds Pleasant Valley (1) 345 39.34 1 2-795 ACSR 2228 2718 D 6,4 M arcy New Scotland (c) 345 765 82.92 1 4-1351.5 ACSR 2796 3210 D 2 345 0.29 1 2-1192.5 ACSR 2 345 1.36 1 2-1351.5 ACSR 2 New Scotland Alps 345 765 12.44 1 3-1590 ACSR 2015 2140 B 1 345 18.13 1 2-1192.5 ACSR B New Scotland Leeds 345 25.74 1 2-795 ACSR 2228 2568 D 4,2 New Scotland Leeds 345 25.87 1 2-795 ACSR 2228 2568 D 4,2 Reynolds Rd. Alps 345 11.08 1 2-1192.5 ACSR 2080 2440 D 1 Porter Rotterdam 230 71.80 1 795 ACSR 1105 1284 B 2 1 1431 ACSR Porter Rotterdam (c) 230 71.96 1 795 ACSR 1105 1284 B 2 1 1431 ACSR Rotterdam Bear Swamp (1) 230 43.64 1 795 ACSR 1105 1284 B 1,2 1 1033.5 ACSR Albany Steam Greenbush 115 3.07 1 605 ACSR 937 1141 E 2 Albany Steam Greenbush 115 3.07 1 605 ACSR 937 1141 E 2 Altamont New Scotland 115 8.48 1 4/0 CU 584 708 E 2 1 795 ACSR 1 336.4 ACSR Arsenal Reynolds Rd. 115 6.47 1 336.4 ACSR 646 784 E 2 1 795 ACSR 1 795 AWAC Battenkill North Troy (c) 115 22.39 1 605 ACSR 916 1118 E 2 1 795 ACSR Bethlehem Albany Steam 115 2.80 1 2-605 ACSR 1654 1952 E 4,2 1 2-795 ACSR CESTM M ckownville 115 0.98 1 1192.5 ACSR 1296 1692 D 2 Churchtown Pleasant Valley (1) 115 32.11 1 605 ACSR 806 978 E 6,4 1 350 CU Clinton M arshville 115 1.60 1 336.4 ACSR 629 764 B 2 Costal Tech Greenbush 115 4.56 1 795 ACSR 600 732 B 2 1 1192.5 ACSR Curry Road Wolf Road 115 7.29 1 4/0 CU 584 708 E 2 1 336.4 ACSR Feura Bush North Catskill (1) 115 22.99 1 4/0 CU 584 708 E 5 1 336.4 ACSR 1 795 ACSR Firehouse Rd. N. Troy 115 8.10 1 336.4 ACSR 646 784 B 1 1 795 ACSR COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 100

Table VI-1h (contd)

Existing Transmission Facilities - National Grid Eastern Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Forts Ferry Johnson 115 1.89 1 795 ACSR 1105 1347 B 2,1 Front Street Rosa Road 115 4.04 1 795 ACSR 1008 1200 B 2 G.E.(R&D) Inman 115 6.26 1 795 ACSR 1008 1234 B 2 Greenbush Hudson 115 26.43 1 605 ACSR 648 800 E 2 1 350 CU Greenbush Schodack 115 4.37 1 350 CU 648 846 E 2 1 605 ACSR Greenbush Stephentown (1) (c) 115 19.49 1 4/0 CU 584 708 B 1 336.4 ACSR Grooms Road Inman Road 115 4.21 1 795 ACSR 1105 1347 B 2 Grooms Road Forts Ferry 115 7.58 1 795 ACSR 1105 1347 B 2,1 Hoosick Bennington (1) 115 4.19 1 795 ACSR 1000 1220 B 1 Hudson Pleasant Valley (1) 115 39.22 1 605 ACSR 648 800 E 6,4 1 350 CU 1 795 ACSR Inghams M eco (1) 115 30.83 1 336.4 ACSR 532 646 E 2 1 4/0 CU Inghams Richfield Springs (1) 115 13.92 1 4/0 CU 532 646 B 1 Inghams St. Johnsville 115 7.11 1 2/0 CU 436 527 B 2,1 1 4/0 CU 1 636 ACSR Inghams Stoner 115 23.87 1 336.4 ACSR 532 646 E 2 1 4/0 CU Johnson M aplewood 115 2.59 1 795 ACSR 1105 1200 B 1 Krumkill Albany Steam 115 6.24 1 1192.5 ACSR 1383 1708 D 1,2 Lafarge Pleasant Valley (1) 115 60.39 1 605 ACSR 584 708 E 6,4 1 4/0 CU 1 336.4 ACSR Long Lane Lafarge 115 7.69 1 4/0 CU 584 708 E 5 1 336.4 ACSR 1 795 ACSR M aplewood Arsenal 115 2.15 1 795 ACSR 648 846 E 2 M aplewood M enands 115 5.41 1 336.4 ACSR 569 717 E 2 1 795 ACSR M ckownville Krumkill 115 2.31 1 1192.5 ACSR 1296 1692 D 1,2 M eco Rotterdam 115 30.79 1 336.4 ACSR 584 708 E 2 1 4/0 CU M enands Reynolds Rd. 115 2.46 1 795 AWAC 1092 1284 E 2 1 795 ACSR M enands Riverside 115 1.87 1 1192.5 ACSR 932 1141 B 1 M ilan Pleasant Valley (1) 115 16.80 1 605 ACSR 806 978 E 6 1 350 CU COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 101

Table VI-1h (contd)

Existing Transmission Facilities - National Grid Eastern Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

M ohican Battenkill (c) 115 14.18 1 4/0 CU 532 646 E 2 1 605 ACSR 1 795 ACSR (c) 1 336.4 ACSR M ohican Butler (c) 115 3.73 1 4/0 CU 584 708 E 2 1 336.4 ACSR M ohican Luther Forest (c) 115 34.47 1 4/0 CU 584 708 E 2 1 795 ACSR 1 605 ACSR (c) 1 1033.5 ACSR Luther Forest N. Troy (c) 115 14.14 1 1033.5 ACSR 532 646 E 2 (c) 1 795 ACSR (c) 1 605 ACSR New Scotland Albany Steam (1) 115 8.31 1 1192.5 ACSR 1398 1708 D 2,3 New Scotland Bethlehem 115 5.62 1 2-336.4 ACSR 1280 1563 E 2,3 1 1033.5 ACSR 1 1192.5 ACSR New Scotland Feura Bush 115 4.30 1 4/0 CU 584 708 E 5 1 795 ACSR New Scotland Feura Bush 115 230 5.33 1 1033.5 ACSR 1280 1563 B 3,5 1 1192.5 ACSR New Scotland Long Lane 115 4.24 1 4/0 CU 584 708 E 5 1 795 ACSR North Catskill M ilan (1) ) 115 23.85 1 605 ACSR 937 1141 E 2 North Troy Hoosick 115 17.73 1 795 ACSR 1008 1302 B 1 North Troy Reynolds Rd. 115 10.36 1 605 ACSR 916 1118 E 2 1 795 ACSR North Troy Wynantskill 115 7.30 1 605 ACSR 648 846 E 2 1 795 ACSR Patroon CESTM 115 1.63 1 1192.5 ACSR 1398 1708 D 2 Queensburry Cedar 115 3.63 1 336.4 ACSR 646 784 E 2 Greenbush Feura Bush 115 230 10.91 1 1033.5 ACSR 884 1118 B 3,5 1 1192.5 ACSR Reynolds Rd. Greenbush 115 4.83 1 2-605 ACSR 1654 2000 E 5 1 2-795 ACSR Riverside Reynolds Rd. 115 3.47 1 2-4/0 CU 1105 1200 E 5 1 795 ACSR Riverside-Reyn Rd. Greenbush 115 3.88 1 2-4/0 CU 884 1128 E 5 1 2-397.5 ACSR 1 795 ACSR Riverside Trinity 115 2.02 1 1000 CU 742 801 A Riverside Trinity 115 2.00 1 1750 CU 995 1076 A Rosa Road G.E.(R&D) 115 1.87 1 795 ACSR 1008 1234 B 2 Rotterdam Altamont 115 8.42 1 4/0 CU 584 708 E 2 1 336.4 ACSR 1 795 ACSR COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 102

Table VI-1h (contd)

Existing Transmission Facilities - National Grid Eastern Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Rotterdam Curry Road 115 7.10 1 4/0 CU 584 708 E 4,2 1 336.4 ACSR 1 795 ACSR Rotterdam Front Street 115 3.62 1 795 ACSR 1105 1347 B 2 Rotterdam G.E. (1) (c) 115 2.46 1 2/0 CU 436 527 E 1 4/0 CU 1 336.4 ACSR Rotterdam G.E. (1) (c) 115 2.56 1 2/0 CU 436 527 E 1 4/0 CU 1 336.4 ACSR 605 ACSR Rotterdam New Scotland 115 230 18.08 1 1033.5 ACSR 1212 1284 B 1 1192.5 ACSR Rotterdam New Scotland 115 16.93 1 4/0 CU 532 646 E 2 1 795 ACSR Rotterdam Woodlawn 115 10.60 1 4/0 CU 584 708 E 2 Schodack Churchtown (1) 115 26.74 1 605 ACSR 937 1141 E 2 Spier Butler (c) 115 5.71 1 4/0 CU 532 646 E 4 1 795 ACSR Spier M ohican 115 9.42 1 795 ACSR 584 708 E 2 1 4/0 CU Spier Queensburry (c) 115 9.15 1 4/0 CU 532 646 B 2 1 636 ACSR Spier Queensburry (c) 115 9.49 1 4/0 CU 584 708 B 4,2 1 636 ACSR Spier Rotterdam 115 32.71 1 4/0 CU 584 708 E 2 1 397.5 SSAC Spier Luther Forest (c) 115 33.11 1 4/0 CU 584 708 E 1 (c) 115 1.10 1 2500 CU A (c) 1 795 ACSR (c) 1 336.4 ACSR Rotterdam Luther Forest (c) 115 22.36 1 795 ACSR 990 1070 E 1 (c) 115 1.10 1 2500 CU A (c) 1 397.5 SSAC Spier West 115 14.08 1 4/0 CU 532 646 B 1 1 336.4 ACSR St. Johnsville M arshville 115 9.88 1 795 ACSR 800 800 E 2 1 2-2/0 CU State Campus M enands 115 4.77 1 4/0 CU 584 708 E 2 115 1 795 ACSR 115 0.23 1 1500 CU A Stoner Rotterdam 115 23.21 1 336.4 ACSR 584 708 E 2 1 4/0 CU COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 103

Table VI-1h (contd)

Existing Transmission Facilities - National Grid Eastern Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Ticonderoga Hague Rd 115 1.48 1 4/0 CU 200 200 B 2,1 1 336.4 ACSR Ticonderoga Republic (1) 115 19.70 1 4/0 CU 360 360 B 2,1 1 336.4 ACSR Ticonderoga Whitehall 115 22.51 1 4/0 CU 584 708 B 1 1 336.4 ACSR Trinity Albany 115 2.50 1 795 ACSR 742 801 B 4,1 115 1.57 1 1000 CU A Trinity Albany 115 2.50 1 795 ACSR 995 1076 B 2 115 1.56 1 1750 CU A Warrensburg North Creek 115 22.88 1 795 ACSR 465 465 C 1 115 0.18 1 750 CU A 115 0.19 1 750 CU A Warrensburg Scofield Rd. 115 10.45 1 795 ACSR 532 600 B 1 Whitehall Cedar 115 21.05 1 4/0 CU 584 708 E 2 1 336.4 ACSR Whitehall M ohican 115 22.91 1 4/0 CU 584 708 E 2 Whitehall Rutland (1) 115 5.96 1 795 ACSR 1008 1200 B 1 Wolf Road M enands 115 4.54 1 4/0 CU 532 646 E 2 1 336.4 ACSR Woodlawn State Campus 115 7.60 1 4/0 CU 584 708 E 2 115 1 605 ACSR 115 1 795 ACSR 115 0.23 1 1500 CU A Wynantskill Reynolds Rd. (1) 115 3.22 1 605 ACSR 937 1141 E 2 1 795 ACSR National Grid (Eastern) Notes (1) Denotes NGRID mileage to franchise line only (c) Data change since the publication of the 2010 Load and Capacity Data report COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 104

Table VI-1i: Existing Transmission Facilities - Orange & Rockland Utilities Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

Ramapo Buchanan (ConEd) (1) 345 15.10 1 2-2493 ACAR 3000 3210 E 2 Ramapo Ladentown (1) 345 5.20 1 2-2493 ACAR 3030 3210 E 1 Ladentown Buchanan (ConEd) (1) 345 9.90 1 2-2493 ACAR 3000 3210 E 2 Ladentown West Haverstraw (2) 345 5.10 2 2-2493 ACAR 3030 3480 E 2 West Haverstraw Bowline Point (3) 345 1.72 2 2500 CU 1150 1300 A 2 Ramapo NY / NJ State Line (1) (c) 345 4.42 2 2-1590 AL 2160 2820 E 2 Lovett M inisceongo Switch 138 4.37 1 795 ACSR 1089 1298 C/E 2 M inisceongo Switch Bowline Point (1) 138 0.70 2 2000 CU 995 1150 A 1 M inisceongo Switch Congers 138 6.32 1 1272 ACSR 1475 1759 B/D 1 Ramapo Hillburn 138 1.98 1 1272 ACSR 870 870 B/D 2 Ramapo Sugarloaf 138 1.21 1 1272 ACSR 1229 1461 B 1 138 0.86 1 1033.5 ACSR 1229 1461 D 1 138 14.64 1 2-336.4 ACSR 1229 1461 D Ramapo Tallman 138 3.24 1 1272 ACSS 1978 2122 D Tallman M onsey 138 3.14 1 1272 ACSS 1978 2122 D M onsey Burns 138 2.94 1 1272 ACSS 1978 2122 B 1 Ramapo NY / NJ State Line 138 0.17 1 795 ACSR 1098 1312 B 138 1.21 1 1272 ACSR 1098 1312 B 1 138 3.94 1 1033.5 ACSR 1098 1312 D 1 Lovett Transition Structure 138 0.93 1 2000 CU 1098 1312 A Transition Structure West Haverstraw 138 3.31 1 795 ACSR 1098 1312 D 1 Lovett Transition Structure 138 0.93 1 2000 CU 1098 1312 D Transition Structure Stony Point 138 1.97 1 795 ACSR 1098 1312 D 1 Stony Point West Haverstraw 138 1.34 1 795 ACSR 1098 1312 D 1 West Haverstraw Burns 138 6.64 1 795 ACSR 1040 1270 D 2 West Haverstraw New Hempstead 138 4.21 1 795 ACSR 1098 1312 B/D 1 New Hempstead Burns 138 2.65 1 795 ACSR 1098 1312 B/D 1 Burns NY / NJ State Line 138 0.25 1 795 ACSR 880 880 B 138 4.76 1 556.5 ACSR 880 880 B/D 1 138 0.17 1 795 ACSR 880 880 B 138 4.58 1 1590 ACSR 880 880 D 1 M iddletown 345kv Tap Shoemaker, M iddletown 138 0.88 1 1033.5 ACSR 2453 2927 E 1 Shoemaker, M iddle Sugarloaf, Chester 138 8.82 1 795 ACSR 1098 1312 B 1 138 2.29 1 2-336.4 ACSR 1098 1312 E 138 0.88 1 1033.5 ACSR 1098 1312 D 1 Orange & Rockland Notes (1) Facilities owned jointly by Orange & Rockland, Inc. (15%) and Consolidated Edison Company of New York (85%).

(2) Facilities owned jointly by Orange & Rockland, Inc. (33.3%) and Consolidated Edison Company of New York (66.7%).

(3) Facilities owned by GenOn Energy, Inc.

(c) Data change since the publication of the 2010 Load and Capacity Data report.

COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 105

Table VI-1j: Existing Transmission Facilities - Rochester Gas & Electric Corporation Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

82 - Brighton,N.Y. #33 - Rochester,N.Y. 115 2.00 1 795 AL 970 1230 B 2

33 - Rochester,N.Y. #23 - Rochester,N.Y. 115 4.41 1 2750 370 400 A 1

82 - Brighton,N.Y. #33 - Rochester,N.Y. 115 2.00 1 795 AL 970 1230 D 2

82 - Brighton,N.Y. #67 - Chili,N.Y. 115 2.00 1 1431 ACSR 1575 1890 C 2 115 0.40 1 2000CU//1250EPR 1560 1720 A

80 - Henrietta,N.Y. #82 - Brighton,N.Y. 115 3.50 2 2-1033.5 ACSR 2540 3050 B 2

82 - Brighton,N.Y. #162 - Perry,N.Y. 115 37.60 1 336.4 ACSR 640 780 B 1

162 - Perry,N.Y. #180 - Houghton,N.Y. 115 5.50 1 336.4 ACSR 640 780 B 1 115 18.50 1 336.4 ACSR 640 780 B 1

13A - Ontario,N.Y. #121 - M acedon,N.Y. 115 4.20 1 1033 AL 1140 1450 B 5 115 6.10 1 1033 AL 1140 1450 B 2 115 3.60 1 1431 AL 1300 1760 C 5

121 - M acedon,N.Y. #122 - M acedon,N.Y. 115 4.00 1 1431 AL 1300 1760 B 3

13A - Ontario,N.Y. #135 - Ontario,N.Y. 115 3.17 1 1033.5 AL 1135 1415 B 5

135 - Ontario,N.Y. #216 - Sodus,N.Y. 115 12.36 1 1033.5 AL 1135 1415 B 1

67 - Chili,N.Y. #418 - Gates,N.Y. 115 3.00 1 1033.5 AL 1140 1450 C 1 115 0.50 1 795 ACSR 1100 1360 C 1

13A - Ontario,N.Y. #124 - Rochester,N.Y. 115 345 3.50 1 1431 AL 1300 1760 C 5 115 3.60 1 2-795 ACSR 2200 2720 B 5 115 4.00 1 1431 AAL 1300 1760 B 2

124 - Rochester,N.Y. #42 - Rochester,N.Y. 115 0.11 1 1033 AAL 1140 1450 B 2 115 8.60 1 1750 CU 930 1070 A 1

13A - Ontario,N.Y. #42 - Rochester,N.Y. 115 3.50 1 1431 AL 1300 1760 C 5 115 3.90 1 1431 AL 1300 1760 B 5 115 4.00 1 1431 AL 1300 1760 B 2 115 8.50 1 1750 CU 930 1070 A 2

13A - Ontario,N.Y. #122 - M acedon,N.Y. 115 345 3.60 1 1431 AL 1300 1760 C 5 115 4.00 1 2-795 ACSR 2200 2720 B 5 115 10.00 1 1033.5 AL 1130 1440 B 2

122 - M acedon,N.Y. #121 - M acedon,N.Y. 115 4.00 1 1033.5 AL 1130 1440 B 2

7 - Rochester,N.Y. #418 - Gates,N.Y. 115 0.63 1 1033 AL 1130 1440 B 1 115 2.18 1 795 ACSR 1100 1360 B 1 115 13.86 1 336.4 ACSR 650 780 B 1 115 6.09 1 336.4 AAL 570 720 B 1

80 - Henrietta,N.Y. #419 - Henrietta,N.Y. 115 0.70 2 1033 AAL 200 220 B 2

80 - Henrietta,N.Y. #67 - Chili,N.Y. 115 5.31 1 1431 ACSR 1575 1890 B 2 115 0.53 1 3250AL/1250EPR 1560 1720 A 1

42 - Rochester,N.Y. #23 - Rochester,N.Y. 115 4.05 1 2750 AL 1019 1195 A 1

67 - Chili,N.Y. 104 Tap - Chili,N.Y. 115 4.50 1 1033 AL 1040 1330 B 1 104 Tap - Chili,N.Y. 104 - Chili,N.Y. 115 2.05 1 1033 AL 1040 1330 B 1

82 - Brighton N.Y. #48 - Rochester,N.Y. 115 4.16 1 1033 AL 1140 1450 B 1 115 1.17 1 2-2000 EPR 2120 2300 A 2 115 4.31 1 2-795 ACSR 2200 2630 B 2

7 - Rochester,N.Y. #48 - Rochester,N.Y. 115 7.50 1 1033 AL 1135 1415 B 2 115 COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 106

Table VI-1j (contd)

Existing Transmission Facilities - Rochester Gas & Electric Corporation Length Thermal Ckts/

Voltage in # of Type of Ratings Principal Common From To Note Operating Design Miles Ckts Conductor S ummer Winter S tructure R.O.W.

37 - Rochester,N.Y. #48 - Rochester,N.Y. 115 2.20 1 1431 AL 1160 1590 B 2

67 - Chili,N.Y. #37 - Rochester,N.Y. 115 0.36 1 2-1500 Cu 1650 1700 A 2 115 2.10 1 1431 AL 1160 1590 B 2

128 - Leicester, N.Y. Amer Rock Salt - Geneseo, NY 115 3.60 1 336 26/7 ACSR 490 650 B 1

1185 - Hume, N.Y. #133 - Hume, N.Y. 115 0.95 1 636 26/7 ACSR 490 650 B 1

7 - Rochester,N.Y. #48 - Rochester,N.Y. 115 7.50 1 1033 ACSR 1270 1525 B 2

135 - Ontario,N.Y. #424 - Webster,N.Y. 115 4.98 1 1033 AL 1135 1415 B 1

230 - Walworth,N.Y. #121 - M acedon,N.Y. 115 5.80 1 1033 ACSR 1270 1525 B 1

135 - Ontario,N.Y. #230 - Walworth,N.Y. 115 4.98 1 1033 AL 1135 1415 B 1 COLUMN HEADING FOOTNOTE:

Oper. / Design Voltage: Design voltage provided if different than operating. Principal Structure / Design Type:

A - Underground / water Circuit; B - Wood Structure Single Circuit; Type of Conductor : Conductor sizes given in thousands of circular mils (MCM) C - Wood Structure Double Circuit; D - Steel Structure Single Circuit; unless otherwise specified. E - Steel Structure Double Circuit ; F - Steel Structure Quadruple Circuit; Thermal Ratings : Thermal ratings given in amperes.

Conductor Acronyms: ACSR - Aluminum Conductor Steel Reinforced; ACSS - Aluminum Conductor Steel Supported; ACAR - Aluminum Conductor Alloy Reinforced; AAC - All Aluminum Conductor; AAAC - All Aluminum Alloy Conductor 107

Table VI-2: Mileage of Existing Transmission Facilities As of March 2011 Facilities by kV Class 115 kV 138 kV 230 kV 345 kV 500 kV 765 kV 150 kV DC 500 kV DC Overhead (OH) Underground (UG) OH UG OH UG OH UG OH UG OH OH UG UG CENTRAL HUDSON GAS

& ELECTRIC CORPORATION 230.03 4.18 0.00 0.00 0.00 0.00 76.08 0.00 0.00 0.00 CONSOLIDATED EDISON 0.00 0.00 21.60 207.39 (a) 0.47 0.00 417.84 (b) (i) 179.14 (h) 5.30 0.00 LONG ISLAND POWER AUTHORITY 0.00 0.00 243.88 161.74 (e) 0.00 0.00 0.00 9.30 (g) 0.00 0.00 24.00 66.00 (g)

NEW YORK POWER AUTHORITY 52.06 (f) 1.63 0.00 0.00 337.92 0.00 882.02 (f) 43.18 0.00 154.89 NEW YORK STATE ELECTRIC & GAS CORP. 1453.94 7.51 0.00 0.00 233.15 0.00 550.09 0.00 0.00 0.00 NATIONAL GRID 4055.66 25.13 0.00 0.00 498.06 20.02 686.44 0.39 0.00 0.00 ORANGE AND ROCKLAND UTILITIES INC. 0.00 0.00 87.70 2.33 (a) 0.00 0.00 49.24 (b) 3.44 (d) 0.00 0.00 ROCHESTER GAS AND ELECTRIC CORPORATION 239.84 28.02 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 TOTALS BY kV CLASS (c) 6,031.53 66.47 353.18 370.06 1,069.60 20.02 2,612.47 235.45 5.30 154.89 24.00 66.00 TOTAL OVERHEAD = 10,226.97 (c)

TOTAL UNDERGROUND = 782.00 (c)

TOTAL = 11,008.97 (c)

Notes: (a) 1.40 circuit miles of transmission jointly owned by Con Ed and Orange & Rockland (b) 49.24 circuit miles of transmission jointly owned by Con Ed and Orange & Rockland (c) These totals reflect the appropriate adjustments for jointly owned facilities (footnotes: a,b)

(d) 3.44 circuit miles are owned by GenOn Energy, Inc. as indicated in the list of existing transmission facilities (e) Includes 5.57 miles of three parallel cables from LIPA's Northport to the NY/CT State Border (middle of Long Island Sound).

Additional 3.93 miles energized in 1983 is part of an existing cable circuit between Newbridge and Bagatelle.

(f) 21.27 circuit miles (115kV) are owned by Alcoa (g) 67.7 circuit miles are owned by NRTS-Neptune Regional Transmission as indicated in the list of existing transmission facilities (h) 3 circuit miles are owned by East Coast Power, LLC as indicated in the list of existing transmission facilities (i) 0.5 miles (345 kV) are owned by Entergy as indicated in the list of existing transmission facilities 108

SECTION VII:

PROPOSED TRANSMISSION FACILITY ADDITIONS AS OF MARCH 2011

110 Table VII-1: Proposed Transmission Facilities Expected Line Service Nominal Voltage Thermal Ratings

Project Description / Class Year / Type Transmission Length Date/Yr in kV # of Conductor Size of Construction Queue Pos. Owner Terminals miles (1) Prior to (2) Year Operating Design ckts Summer Winter Merchant 206 Hudson Transmission Partners Bergen 230 kV (New Jersey) West 49th Street 345kV 2013 345 345 660 MW 660 MW back- to- back AC/DC/AC converter, 345 kV AC cable 2008 Firm Plans (included in 2011 Base Cases)

CHGE E. Fishkill E. Fishkill xfmr #2 S 2012 345/115 345/115 1 440 MVA 560 MVA Transformer #2 (Standby)

CHGE (4) Pleasant Valley Todd Hill 5.60 W 2015 115 115 1 1280 1563 1-795 ACSR OH CHGE (4) Todd Hill Fishkill Plains 5.23 W 2015 115 115 1 1280 1563 1-795 ACSR OH CHGE Hurley Ave Saugerties 11.11 S 2018 115 115 1 1114 1359 1-795 ACSR OH CHGE Saugerties North Catskill 12.25 S 2018 115 115 1 1114 1359 1-795 ACSR OH ConEd (3) Vernon Vernon Phase Shifter S 2010 138 138 1 300 MVA 300 MVA Phase Shifter -

ConEd Farragut East 13th Street 1.98 S 2011 345 345 1 1350 n/a Refrigeration Cooling UG ConEd Farragut East 13th Street 1.98 S 2011 345 345 1 1395 n/a Refrigeration Cooling UG LIPA Shore Road Lake Success 8.72 S 2012 138 138 2 1045 1203 3500 AL UG LIPA Riverhead Canal 16.40 S 2013 138 138 1 846 973 2368 KCMIL (1200 mm²) Copper XLPE UG NYPA Willis Duley -24.38 S 2012 230 230 1 996 1200 1-795 ACSR OH NYPA (5) Willis Patnode 9.11 S 2012 230 230 1 996 1200 1-795 ACSR OH NYPA (5) Patnode Duley 15.27 S 2012 230 230 1 996 1200 1-795 ACSR OH NYPA Niagara Rochester -70.20 W 2013 345 345 1 2177 2662 2-795 ACSR OH NYPA (5) Niagara BPS Station 66.40 W 2013 345 345 1 2177 2662 2-795 ACSR OH NYPA Dysinger Tap Rochester -44.00 W 2013 345 345 1 2177 2662 2-795 ACSR OH NYPA (5) Dysinger Tap BPS Station 40.20 W 2013 345 345 1 2177 2662 2-795 ACSR OH NYPA (5) BPS Station Rochester 3.80 W 2013 345 345 1 2177 2662 2-795 ACSR OH NYPA (11) Pannell Clay -61.60 W 2016 345 345 1 2177 2662 2-795 ACSR OH NYPA (5) (11) Pannell Auburn New 345/115 kV Sub 21.00 W 2016 345 345 1 2177 2662 2-795 ACSR OH NYPA (5) (11) Auburn New 345/115 kV Sub Clay 40.60 W 2016 345 345 1 2177 2662 2-795 ACSR OH NYSEG (3) Clarks Corners Clarks Corners xfmr W 2010 345/115 345/115 1 200 MVA 220 MVA Transformer NYSEG (3) Clarks Corners Clarks Corners xfmr W 2010 345/115 345/115 1 200 MVA 220 MVA Transformer NYSEG Avoca Stony Ridge 20.10 S 2011 230 230 1 1200 1200 1033.5 ACSR OH NYSEG Stony Ridge Hillside 26.70 S 2011 230 230 1 1200 1200 1033.5 ACSR OH NYSEG Stony Ridge Stony Ridge xfmr S 2011 230/115 230/115 1 225 MVA 270 MVA Transformer OH NYSEG Stony Ridge Sullivan Park 6.20 S 2011 115 115 1 1255 1531 1033.5 ACSR OH NYSEG Sullivan Park West Erie 3.20 S 2011 115 115 1 1255 1531 1033.5 ACSR OH NYSEG Meyer Meyer Cap Bank S 2011 115 115 1 15 MVAR 15 MVAR Capacitor Bank Installation -

NYSEG (6) Wood Street Carmel 1.34 S 2012 115 115 1 775 945 477 ACSR OH NYSEG (6) Wood Street Katonah 11.70 S 2012 115 115 1 775 945 477 ACSR OH NYSEG Klinekill Tap Klinekill <10 S 2012 115 115 1 >=124 MVA >+150 MVA 477 ACSR OH NYSEG Wethersfield Meyer -31.50 S 2013 230 230 1 1080 1310 795 ACSR OH NYSEG (5) Wethersfield South Perry 11.50 S 2013 230 230 1 1080 1310 795 ACSR OH NYSEG (5) South Perry Meyer 20.00 S 2013 230 230 1 1080 1310 795 ACSR OH NYSEG South Perry South Perry xfmr S 2013 230/115 230/115 1 225 MVA 240 MVA Transformer NYSEG Watercure Road Watercure Road xfmr S 2013 345/230 345/230 1 426 MVA 494 MVA Transformer NYSEG (5) BPS Station Rochester 3.80 W 2013 345 345 1 2177 2662 2-795 ACSR OH NYSEG Auburn New 345/115 kV Sub Auburn New 345/115 kV Sub xfmr W 2016 345/115 345/115 1 220 MVA 260 MVA Transformer NYSEG Auburn New 345/115 kV Sub State Street 15.00 W 2016 115 115 1 250 MVA 305 MVA 1033 ACSR OH NGRID Greenbush Hudson -26.43 S 2012 115 115 1 648 800 605 ACSR, 350 CU OH NGRID (5) Greenbush Klinekill Tap 20.30 S 2012 115 115 1 648 800 605 ACSR, 350 CU OH NGRID (5) Klinekill Tap Hudson 6.13 S 2012 115 115 1 648 800 605 ACSR, 350 CU OH NGRID Lockport Mortimer 56.18 S 2014 115 115 1 TBD TBD 115 kV line Replacement -

111

Table VII-1: Proposed Transmission Facilities (contd)

Expected Line Service Nominal Voltage Thermal Ratings

Project Description / Class Year / Type Queue Transmission Length Date/Yr in kV # of Conductor Size of Construction Pos. Owner Terminals miles (1) Prior to (2) Year Operating Design ckts Summer Winter Firm Plans (included in 2011 Base Cases)

O&R Ramapo Sugarloaf 16.00 W 2011 138 138 1 1089 1298 2-1590 ACSR OH O&R Hillburn Sloatsburg 3.00 S 2011 69 69 1 1671 1794 795 ACSS OH O&R Harriman - - S 2011 69 69 1 16 MVAR 16 MVAR Capacitor Bank (DOE) -

O&R Snake Hill - - W 2012 138 138 1 32 MVAR 32 MVAR Capacitor bank -

O&R Hartley - - W 2012 69 69 1 32 MVAR 32 MVAR Capacitor bank -

O&R East Wallkill - - S 2012 69 69 1 16 MVAR 16 MVAR Capacitor Bank (DOE) -

O&R Montvale (PJM) - - S 2013 69 69 1 32 MVAR 32 MVAR Capacitor bank -

O&R Little Tor - - W 2013 138 138 1 32 MVAR 32 MVAR Capacitor bank -

O&R Tappan - - W 2013 69 69 1 32 MVAR 32 MVAR Capacitor bank -

O&R O&R's Line 26 Sterling Forest xfmr W 2014 138/69 138/69 1 175 MVA 175 MVA Transformer O&R New Hempstead - - W 2014 138 138 1 32 MVAR 32 MVAR Capacitor bank -

O&R Hillburn Pomona 7 W 2016 138 138 1 940 940 2500 AL UG O&R Sugarloaf Shoemaker 7.00 W 2016/17 69 138 2 1249 1340 397 ACSS OH O&R ConEd's Line Y94 Lovett xfmr S 2017 345/138 345/138 1 400 MVA 400 MVA Transformer -

O&R Lovett West Nyack 12.80 W 2018 138 138 1 1332 1431 556.5 ACSS OH O&R Pomona West Haverstraw 5 W 2018 138 138 1 940 940 2500 AL UG O&R Burns Nanuet 2.6 W 2019 69 69 1 1675 1793 795 ACSS OH RGE Station 135 Station 424 4.98 W 2011 115 115 1 1225 1495 1-1033.5 ACSR OH RGE Station 13A Station 135 3.17 W 2011 115 115 1 1225 1495 1-1033.5 ACSR OH RGE Station 180 Station 180 Cap Bank S 2011 115 115 1 10 MVAR 10 MVAR Capacitor Bank Installation -

RGE Station 128 Station 128 Cap Bank S 2011 115 115 1 20 MVAR 20 MVAR Capacitor Bank Installation -

RGE Station 42 Station 124 Phase Shifter W 2012 115 115 1 230 MVA 230 MVA Phase Shifter RGE Station 67 Station 418 3.50 W 2012 115 115 1 245 MVA 299 MVA New 115kV Line OH RGE Station 124 Station 124 Phase Shifter S 2013 115 115 2 230 MVA 230 MVA Phase Shifter RGE Station 124 Station 124 SVC S 2013 115 115 1 200 MVAR 200 MVAR SVC RGE Bulk Power System (BPS) Station Rochester, NY New Station W 2013 345/115 345/115 1 800 MVA TBD New Station OH+UG RGE NYPA SR1-39 345kV Line Rochester, NY xfmr W 2013 345/115 345/115 1 400 MVA TBD Transformer RGE NYPA NR-2 345kV Line Rochester, NY xfmr W 2013 345/115 345/115 1 400 MVA TBD Transformer RGE BPS Station Station 418 TBD W 2013 115 115 1 300 MVA TBD New 115kV Line OH RGE BPS Station Station 23 TBD W 2013 115 115 1 300 MVA TBD New 115kV Line OH+UG (1) Line Length Miles - negative values indicate removal of Existing Circuit being tapped (6) 115 kv operation as opposed to previous 46 kV operation (2) S = Summer Peak Period W = Winter Peak Period (7) Upgrade of existing 69 kV to 138 kV operation (3) The Facility is in Service (8) Partial NNC upgrade done in 2008 and full NNC upgrade will be done in 2016 with NNC 450 MW Operation (including Northport-Pilgrim Upgrade)

(4) Reconductoring of Existing Line (9) Rerate of the (3) cables that were replaced in 2008 from 301 MVA, LIPA owns 50% of the NNC cable (5) Segmentation of Existing Circuit (10) Some of these proposed facilities reflect reconfiguration of the existing facilities (11) Double circuits

Thermal Ratings in Amperes, except where labeled otherwise.

112

Table VII-1: Proposed Transmission Facilities (contd)

Expected Line Service Nominal Voltage Thermal Ratings

Project Description / Class Year / Type Transmission Length Date/Yr in kV # of Conductor Size of Construction Queue Pos. Owner Terminals miles (1) Prior to (2) Year Operating Design ckts Summer Winter Non-Firm Plans (not included in 2011 Base Cases)

CHGE E. Fishkill Merrit Park 3.32 S 2017 115 115 1 1280 1563 1-1033 ACSR OH CHGE Pleasant Valley Knapps Corners 17.70 W 2018 115 115 1 1114 1359 1-795 ACSR OH ConEd Farragut East 13th Street 1.98 S 2018 345 345 2 TBD TBD Reconductoring UG LIPA Northport Pilgrim 8.45 S 2017 138 138 1 825 1010 2000 mm2 CU UG LIPA (7) Pilgrim Brentwood 4.18 S 2017 138 138 1 2343 2506 1272 SSAC OH LIPA Brentwood Holtsville GT 12.40 S 2017 138 138 1 2343 2506 1272 SSAC OH LIPA Ruland Holbrook Phase Shifter S 2017 138 138 1 TBD TBD Phase Shifter -

LIPA Barrett Bellmore PS Phase Shifter S 2017 138 138 1 TBD TBD Phase Shifter -

LIPA Bellmore PS Bellmore 8.40 S 2017 138 138 1 1150 1400 2000 mm2 CU UG LIPA Valley Stream Barrett 4.70 S 2017 138 138 1 1150 1400 2000 mm2 CU UG LIPA (5) Holtsville Gt. Pilgrim -11.86 S 2013 138 138 1 2087 2565 2493 ACAR OH LIPA (5) Holtsville Gt. Kings Hwy 5.86 S 2013 138 138 1 3324 4078 2-1590 ACSR OH LIPA (5) Kings Hwy Pilgrim 6.00 S 2013 138 138 1 2087 2565 2493 ACAR OH NGRID Rome Rome - W 2014 115 115 - TBD TBD Station Rebuild -

NGRID Niagara Packard 3.40 S 2014 115 115 1 TBD TBD 115 kV line Replacement -

NGRID (5) Rotterdam Eastover Road (New Station) 23.20 S 2014 230 230 1 TBD TBD Rotterdam-Bear Swamp #E205 Loop (0.8 miles new) OH NGRID (5) Eastover Road (New Station) Bear Swamp 49.00 S 2014 230 230 1 TBD TBD Rotterdam-Bear Swamp #E205 Loop (0.8 miles new) OH NGRID Eastover Road (New Station) Eastover Road (New Station) xfmr S 2014 230/115 230/115 1 TBD TBD Transformer -

NGRID (5) Luther Forest (New Station) Eastover Road (New Station) 16.70 S 2014 115 115 1 TBD TBD Luther Forest-North Troy Loop (0.5 miles new) OH NGRID (5) Eastover Road (New Station) North Troy 2.20 S 2014 115 115 1 TBD TBD Luther Forest-North Troy Loop (0.5 miles new) OH NGRID Spier Rotterdam 32.70 S 2015 115 115 1 TBD TBD New/Separate Circuit w/Twin-795 ACSR south end OH NGRID (4) Mohican Battenkill 14.20 S 2015 115 115 1 TBD TBD Replace 14.2 miles of conductor w/min 1033.5 ACSR OH NGRID Clay Clay - W 2016 115 115 - TBD TBD 115kV Rebuild to BPS -

NGRID Porter Porter - W 2016 230/115 230/115 - TBD TBD 230/115kV Rebuild to BPS -

NGRID Falconer Warren 19.4 S 2016 115 115 1 TBD TBD 115 kV line Replacement -

NGRID Gardenville Dunkirk 44.90 S 2016 115 115 2 TBD TBD 115 kV line Replacement -

NGRID Mortimer Golah 9.6 S 2017 115 115 1 TBD TBD New 115 kV line -

NGRID Eastover Road (New Station) Eastover Road (New Station) xfmr S 2017 230/115 230/115 1 TBD TBD Transformer -

NGRID (4) Luther Forest (New Station) Rotterdam 9.00 S 2017 115 115 1 TBD TBD Replace 9 miles of conductor w/min 1033.5 ACSR (Blstn Tp) OH NGRID (4) Luther Forest (New Station) Eastover Road (New Station) 6.20 S 2017 115 115 1 TBD TBD Replace 6.2 miles of conductor w/min 1033.5 ACSR (#3) OH NGRID Southwest 345 kV Southwest 115 kV xfmr S 2018 345/115 345/115 - - - 345/115 kV stepdown -

NGRID Gardenville 230 kV Gardenville 115 kV xfrm S 2018 230/115 230/115 - - - Replacement of two 230/115 kV stepdown with larger units -

NGRID Gardenville 115 kV Gardenville 115 kV - S 2018 - - - - - Rebuild of Gardenville 115 kV station to full breaker and a half -

NGRID Rotterdam Rotterdam xfmr S 2019 230/115 230/115 1 TBD TBD Transformer (Fourth 2-1) -

NGRID (4) Mohican Butler 3.50 S 2019 115 115 1 TBD TBD Replace 3.5 miles of conductor w/min 336.4 ACSR OH O&R NYPA's Line 42 Shoemaker xfmr S 2020 345/138 345/138 1 400 MVA 400 MVA Transformer -

(1) Line Length Miles - negative values indicate removal of Existing Circuit being tapped (6) 115 kv operation as opposed to previous 46 kV operation (2) S = Summer Peak Period W = Winter Peak Period (7) Upgrade of existing 69 kV to 138 kV operation (3) The Facility is in Service (8) Partial NNC upgrade done in 2008 and full NNC upgrade will be done in 2016 with NNC 450 MW Operation (including Northport-Pilgrim Upgrade)

(4) Reconductoring of Existing Line (9) Rerate of the (3 cables) that were replaced in 2008 from 301 MVA, LIPA owns 50% of the NNC cable (5) Segmentation of Existing Circuit (10) Some of these proposed facilities reflect reconfiguration of the existing facilities (11) Double circuits

Thermal Ratings in Amperes, except where labeled otherwise.

113

ML12090A825

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