ML11356A522
ML11356A522 | |
Person / Time | |
---|---|
Site: | Indian Point |
Issue date: | 02/28/2002 |
From: | Environmental Protection Agency |
To: | Atomic Safety and Licensing Board Panel |
SECY RAS | |
References | |
RAS 21642, 50-247-LR, 50-286-LR, ASLBP 07-858-03-LR-BD01 | |
Download: ML11356A522 (33) | |
Text
RIV000065 Submitted: December 22, 2011 Radionuclides in Drinking Water:
A Small Entity Compliance Guide
Office of Ground Water and Drinking Water (4606M)
EPA 815-R-02-001 www.epa.gov/safewater February 2002 Printed on recycled paper
Contents Introduction .................................................................................................................................................................................................... 1
- 1. Who Should Read this Guide? .................................................................................................................................................................... 2
- 2. Which Radionuclides Does EPA Regulate in Drinking Water? ....................................................................................................................... 3
- 3. Why Is it Important to Monitor for Radionuclides? ......................................................................................................................................... 5
- 4. When Do I Have to Comply? ....................................................................................................................................................................... 6
- 5. Are My Monitoring Requirements Changing? ................................................................................................................................................ 7
- 6. What Are My Monitoring Requirements under the New Radionuclides Rule? .................................................................................................. 9
- 7. What Are the Requirements for Man Made Beta Particle and Photon Emitters? ........................................................................................... 11
- 8. How Can I Tell If I Am in Violation of the Radionuclides MCL? ..................................................................................................................... 14
- 9. What Do I Have to Tell My Customers?...................................................................................................................................................... 15
- 10. What Do I Have to Report to the State? ................................................................................................................................................... 17
- 11. What Compliance Options Do I Have? ..................................................................................................................................................... 18
- 12. How Can I Treat My Systems Water to Meet the MCL? ............................................................................................................................ 19
- 13. What Do I Do with Water Treatment Waste? ............................................................................................................................................ 21
- 14. How Can I Get More Time to Finance, Plan, Build, or Consolidate? ........................................................................................................... 22
- 15. Where Can I Get More Information? ........................................................................................................................................................ 23
- 16. Who Can I Contact for More Information? ................................................................................................................................................ 24 NOTICE This guide was prepared pursuant to section 212 of the Small Business Regulatory Enforcement Fairness Act of 1996 (SBREFA), Pub. L.
104-121. THIS DOCUMENT IS NOT INTENDED, NOR CAN IT BE RELIED UPON, TO CREATE ANY RIGHTS ENFORCEABLE BY ANY PARTY IN LITIGATION WITH THE UNITED STATES. The statements in this document are intended solely as guidance to aid you in complying with the Radionuclides Rule (65 FR 76708-76753). While the guidance contained in this document may assist you, the public, and State and federal regulators in applying regulatory requirements, the guidance is not a substitute for those legal requirements; nor is it a regulation itself. Thus it does not impose any legally binding requirements on any party, including EPA, States, or the regulated community. In any civil or administrative action against a small business, small government or small non-profit organization for a violation of the Radionuclides Rule, the content of this guide may be considered as evidence of the reasonableness or appropriateness of proposed fines, penalties or damages. EPA may decide to revise this guide without public notice to reflect changes in EPAs approach to implementing the Radionuclides Rule or to clarify and update the text. To determine whether EPA has revised this guide and/or obtain copies, contact the Safe Drinking Water Hotline at 1-800-426-4791.
understanding, EPA published a new rule in the Federal Register on Introduction December 7, 2000 (65 FR 76708-76753). While many of the current requirements remain unchanged, there are some new requirements, If you own or operate a community water system (CWS), this Guide will including the following:
help you understand a rule that applies to you.
This Guide was prepared pursuant to section 212 of the Small Business Uranium. EPA established a Maximum Contaminant Level (MCL) of 30 micrograms per liter (µg/L) for uranium.
Regulatory Enforcement Fairness Act of 1996 (SBREFA), Pub. L. 104-121. It is intended to aid you in complying with the Radionuclides Rule issued on December 7, 2000 under the Safe Drinking Water Act Radium-228. Systems must monitor separately for radium-228.
(SDWA). The SDWA provisions, the Radionuclides Rule, and other EPA regulations described in this Guide contain legally binding requirements. Entry Point Monitoring. Systems must monitor at EACH active Entry Point to the Distribution System (EPTDS).
This document does not substitute for those provisions or regulations, nor is it a regulation itself. It does not impose legally binding Additional copies of this Guide may be obtained by calling the Safe requirements on EPA, States, or the regulated community, and may not Drinking Water Hotline at 1-800-426-4791. Copies also may be apply to a particular situation based on the circumstances. EPA and downloaded from EPAs Safe Drinking Water Web site at www.epa.gov/
State decisionmakers retain the discretion to adopt approaches on a safewater.
case-by-case basis that differ from this guidance where appropriate. Any decisions regarding a particular CWS will be made based on the This Guide describes the minimum Federal requirements under the applicable statutes and regulations. Therefore, interested parties are free Radionuclides Rule. Your State may have more specific or additional to raise questions and objections about the appropriateness of the requirements. Be sure to check with your State Drinking Water Program application of this guide to a particular situation, and EPA will consider regarding their specific requirements. (Systems on Tribal lands or in whether or not the recommendations or interpretations in this Guide are Wyoming should check with the EPA Regional Office.) Contact appropriate in that situation based on the law and regulations. EPA may information for State Programs is at the end of this Guide.
change this guidance in the future. To determine whether EPA has revised this Guide and/or to obtain copies, contact the Safe Drinking Please note that the term State is used in this guide to refer to your Water Hotline at 1-800-426-4791.
Primacy Agency. The Primacy Agency for most systems is your State Drinking Water Agency. However, the Primacy Agency for systems EPA first began to regulate radionuclides in 1976. Unless your system is located in the Navajo Nation is your tribal office, and the Primacy new, you have been monitoring for these contaminants. Since 1976, we Agency for systems located on other tribal lands, in Wyoming, or in the have learned a great deal more about radionuclides, including effects District of Columbia is your EPA Regional office.
they can have on peoples health, where they are likely to occur, and how to detect and remove them from drinking water. With this improved 1
- 1. Who Should Read this Guide?
This Guide is designed to help CWSs serving 3,330 or fewer persons. A TERMS AND ABBREVIATIONS:
CWS includes any drinking water system, regardless of ownership, that picoCuries per liter (pCi/L) One trillionth of a Curie.
has at least 15 service connections or regularly serves at least 25 of the It is approximately one emission every 27 seconds.
same people year round. Systems that may find this Guide useful include water systems serving: Alpha radiation or particle - Consists two protons and two neutrons.
Beta radiation or particle - A negative or positive particle with the Mobile Home Parks mass of an electron.
Home Owners Associations Small Towns Gamma or photon radiation - High energy electromagnetic radiation with no mass or charge.
Rural Water Districts Small Private Systems Millirem (mrem) - One thousandth of a rem. Dose of absorbed Tribal Systems energy adjusted to be equivalent for different kinds of radiation.
This handbook is divided into 16 sections designed to help you:
Determine if you will be able to comply with the Radionuclides Rule.
Understand why it is important to remove radionuclides from drinking water.
Explain when and how often you need to monitor for radionuclides.
Determine what you will need to report to the State and to your customers.
Understand your compliance options if you cannot meet an MCL for one or more of the regulated radionuclides.
Choose a treatment technology if you selected treatment as your compliance option.
Find help if you need it.
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- 2. Which Radionuclides Does EPA Regulate in Drinking Water?
Some elements, either found in nature or man-made, are unstable and radioactive elements called radionuclides (pronounced radio-noo-emit particles or waves of high energy from the nucleus or other parts clydes) emit more than one kind of radiation, but are classified by of the atom. their most important kind.
There are three basic kinds of high-energy radiation: alpha, beta, and EPA has limits in drinking water called maximum contaminant levels gamma (included in a broader group called photons). Many (MCLs) for four groupings of radionuclides:
One MCL is a limitation on two kinds (or isotopes) of radium:
How Radionuclides Affect Peoples Health radium-226 (Ra-226), which mostly emits alpha radiation, Ra-228, which mostly emits beta radiation.
Exposure to radioactivity may be harmful to chemical reactions important to living cells in your body. Radiation pulls electrons off atoms in the cells (ionizes them) and may prevent the cell Another MCL limits radiation from a group of 179 man-made from functioning properly. It may lead to the cells death, to the beta and photon emitters. Only systems which have been cells inability to repair itself, or to the cells uncontrolled growth designated by your State as vulnerable or contaminated by (cancer). For example, ionizing radiation can damage DNA, which carries the genetic information in a cell. Damage to DNA this class of radionuclides must monitor. See section 7.
may change the cells genetic code, resulting in the mutation of one or more genes contained in the DNA. These mutations can The third MCL is for gross alpha which includes all alpha cause cells to malfunction or lead to cancer. These mutations emitters except uranium and radon.
may also be passed on to children.
Fourth is a new MCL for uranium isotopes U-234, U-235 and U-238, which mostly emit alpha radation. This last MCL is actually concerned primarily about limiting the toxic effects of uranium as a heavy metal as much as its effect as a radionuclide.
The MCLs are concerned with the health effects from radiation inside the body after drinking the radionuclides. However, many 3
radionuclides classified as alpha emitters or beta emitters also emit Radionuclide Maximum Contaminant Levels gamma radiation, which can penetrate the body from outside, affecting workers during storage or disposal of wastes. Beta/photon emitters* 4 mrem/year Gross alpha particle 15 pCi/L Radium-226 and Radium-228 5 pCi/L Uranium 30 µg/L
- A total of 179 individual beta particle and photon emitters may be used to calculate compliance with the MCL.
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- 3. Why Is it Important to Monitor for Radionuclides?
Completely avoiding radioactivity is impossible. Radionuclides are also contribute to their presence in water. Evidence suggests that found in air, water, soil, and even living things. People are exposed to long-term exposure to radionuclides in drinking water may cause background levels of radiation all the time. Sources of these cancer. In addition, exposure to uranium may have toxic effects on a exposures to radiation include building materials such as granite, persons kidneys.
airborne radon, and cosmic radiation from outer space. Even food can contain low levels of radiation. The graphs below show the results of a nationwide occurrence study of naturally occurring radionuclides in public water supplies. The survey Radionuclides generally enter drinking water through the erosion or included a random sample of 990 collection sites. Each graph shows chemical weathering of naturally occurring mineral deposits, although the percent of systems above a given concentration or activity. For human activity (such as mining, industrial activities, or military example, 44.07 percent of the 990 systems sampled had uranium activities that use or produce man-made radioactive materials) can concentrations between 0.08 and 1.0 µg/L.
Radionuclide Occurrence in Drinking Water Uranium Radium-226 Radium-228 Percent Occurrence Percent Occurrence Percent Occurrence 89.3 59.8 44.07 29.65 31.6 18.51 4.6 2.76 0.41 5.5 5.3 1.1 0.7 0.4 1 2.5 0.8 0.4 1.7 0-0.08 0.08-1.0 1.0-5.0 5.0-10.0 10.0-50.0 >50 -0 -1 -2 -3 -4 -5 >5 -1 -1 -2 -2 -3 >3
.1 .0 .0 .0 .0 .0 .0 .0 .5 .0 .5 .0 .0 8
µ g/L) 0 Concentration (µ 0 0.18 1.0 2.0 3.0 4.0 1.0 1.5 2.0 2.5 Activity (pCi/L) Activity (pCi/L)
Source: Longtin, J.P. Occurrence of Radon, Radium, and Uranium in Groundwater, J. Am. Water Works Assoc. 80(7):84 (1988).
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- 4. When Do I Have to Comply?
The revised Radionuclides Rule takes effect on December 8, 2003. December 8, 2003 and ends December 31, 2007. Your State will The current Rule remains in effect until then, and you must continue determine your initial monitoring requirements for all the entry points monitoring and complying with current standards. For most systems, into the distribution system during this 4-year initial monitoring period.
this means continuing to monitor in accordance with the schedule set The table on this page shows some of the Rules milestones. Further by your State. information on monitoring requirements appears in the next two sections.
Systems must continue to comply with the 1976 Rule until December 7, 2003. The initial monitoring period for the revised Rule begins Radionuclides Requirements Dates July 9, 1976 1976 Radionuclides Drinking Water Regulation.
June 2000 Under certain circumstances, data collected between June 2000 and December 8, 2003 may be eligible for use as grandfathered data to satisfy the initial monitoring requirements for gross alpha, radium-226/228, and uranium.
Information on grandfathering data appears in future sections.
December 7, 2000 The Radionuclides Final Rule.
December 8, 2003 Rule effective date.
Systems must begin initial monitoring under a State-specified monitoring plan, unless the State permits the grandfathering of data collected between June 2000 and December 8, 2003.
December 31, 2007 All systems must complete initial monitoring.
2008 Future monitoring frequency and compliance requirements will be determined by the State by this time.
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- 5. Are My Monitoring Requirements Changing?
Yes. One key change in the new Radionuclides Rule is that, rather Standardized Monitoring Framework already in place for other than monitor at a representative point in your distribution system, chemical contaminants. Note that EPA extended the initial compliance you must now monitor at EACH entry point to the distribution system monitoring period for radionuclides until 2007 so that the first (EPTDS). This change prevents situations in which the average compliance cycle is consistent with the Standardized Monitoring water meets the standard, even though some people are drinking Framework.
poor-quality water from a contaminated source. It also makes the Radionuclides Rule consistent with other regulations covering Ive been collecting samples for years. Can I get chemical contaminants in drinking water. a waiver?
No. All systems must conduct initial monitoring at each EPTDS to Unless told otherwise by the State, a system which uses an determine that entry points water quality between December 8, 2003 intermittent source of supply (i.e., a source that is used seasonally) or and December 31, 2007, or have data that the State allows to be that uses more than one source and that blends water from more than grandfathered. However, your State may allow you to waive the final one source before distribution, must sample at an EPTDS during two quarters of monitoring for a radionuclide at an EPTDS if your periods of normal operating conditions. Normal operating conditions results for the first two quarters of initial monitoring are less than the include when water is representative of all the sources being used. detection limit defined by EPA for that particular radionuclide.
EPA has provided States with the flexibility to decide on a case-by-Radionuclide Detection Limits case basis whether data collected between June 2000 and December 8, 2003 can be grandfathered (i.e., substituted for the initial quarterly Contaminant Detection Limit monitoring required by the Revised Radionuclides Rule). States must decide if the data collected by a system during the grandfathering Gross Alpha Particle Activity 3 pCi/L periodin conjunction with historical data, information on geology, and Radium-226 1 pCi/L any other criteria the State chooses to usewill provide enough information to ensure that radionuclide activity will remain below the Radium-228 1 pCi/L MCLs.
To be determined before the Uranium compliance date of the rule.
The annotated time line on the next page shows the schedule for radionuclides monitoring through the year 2016. The time line also shows how the radionuclide monitoring schedule fits within the 7
Annotated Radionuclide Montoring Timeline (2000 - 2016)
Reduced Monitoring. If your monitoring results range from below the defined detection level to the MCL, Grandfathered Data. Your State may allow you to use grandfathered data to comply you may qualify for reduced monitoring.
with the initial monitoring requirements for gross alpha or radium-226/228 if you collect monitoring data from each EPTDS between June 2000 and December 8, 2003.
Increased Monitoring. If you You may also be allowed to use data collected from a representative point in the have an entry point result above distribution system if it is collected between June 2000 and December 8, 2003 and the the MCL, you will have to take State makes a written finding that the data is representative of each entry point based quarterly samples until 4 on the variability of historical contaminant monitoring results and other factors. consecutive quarterly samples are below the MCL.
Standardized Monitoring Standardized Monitoring Standardized Monitoring Standardized Monitoring Standardized Monitoring Framework Compliance Period Framework Compliance Period Framework Compliance Period Framework Compliance Period Framework Compliance Period Collection of Initial Compliance Monitoring First Radionuclides Rule Compliance Cycle*
Grandfathered Data for Radionuclides (If Permitted by the State) 1 Sample 1 Sample 1 Sample 1 Sample 1 Sample 1 Sample Quarterly Quarterly Quarterly Quarterly Quarterly Quarterly Quarterly Quarterly Quarterly Samples Samples Samples Samples Samples Samples Samples Samples Samples 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 12/07/00 Final Rule 12/07/03 12/31/07 *Number of Samples Required by Collection of Data That Initial Monitoring Ends Systems Whose Initial Results Are:
06/00 Can Be Grandfathered Collection of Data to Be Ends and Initial Greater than the MCL Grandfathered Begins Monitoring Begins Greater than 1/2 the MCL, but less than or equal to the MCL You are encouraged to monitor for uranium before Initial Monitoring. Systems are Greater than or equal to the defined detection limit, December 8, 2003, although the standard does not go required to conduct initial monitoring but less than or equal to 1/2 the MCL into effect until then. If the sampling result is less than for gross alpha, radium-226, radium- Below the defined detection limit 30 µg/L, you may be able to grandfather the data. If 228, and uranium at each EPTDS by the result of your uranium sampling prior to December December 31, 2007. You must 8, 2003 is greater than 30 µg/L, you will be required to collect four consecutive quarterly take four consecutive quarterly samples during the samples at each EPTDS during this initial monitoring period. initial round of monitoring in order to provide contaminant information during each of the four seasons.
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- 6. What Are My Monitoring Requirements under the New Radionuclides Rule?
This section presents additional information on the initial, reduced, and In addition to Reduced Monitoring for Radionuclides increased monitoring requirements for gross alpha, radium-226, allowing a If the initial monitoring Monitoring frequency radium-228, and uranium. The Radionuclides Rule makes the reduction in the results are: is reduced to:
monitoring requirements for radionuclides consistent with the number of times < Defined Detection limit 1 sample every 9 years monitoring requirements for other inorganic contaminants (IOCs). samples must be
$ Defined Detection limit, but taken, the # 1/2 the MCL 1 sample every 6 years Initial Monitoring Requirement for Gross Alpha, Radionculides > 1/2 the MCL, but Radium-226/228, and Uranium Rule also # the MCL 1 sample every 3 years Systems are required to conduct initial monitoring for gross alpha, provides some > MCL Quarterly samples radium-226, radium-228, and uranium at each EPTDS by December flexibility in 31, 2007. You must collect four consecutive quarterly samples at each reducing the cost of monitoring through the compositing of samples.
EPTDS during this initial round of monitoring in order to provide Some States may allow you to collect up to four samples from the contaminant information during each of the four seasons. same EPTDS and have them analyzed together. Compositing of quarterly samples can be performed only during the initial monitoring What if I am developing a new system, or I period. Afterwards, monitoring is one sample every 3, 6, or 9 years.
develop a new water source? Quarterly sampling is necessary only if one quarter is above the MCL New systems, and systems using new sources of supply, must conduct for an EPTDs.
initial monitoring for gross alpha, radium-226, radium-228, and uranium starting in the first quarter after beginning operation or Increased Monitoring for Gross Alpha, Radium-beginning to use a new source of supply. Your initial results, called an 226/228, and Uranium occurrence profile, will determine the frequency of future monitoring. Systems whose EPTDSs are on a reduced monitoring schedule (i.e.,
collecting 1 sample every 3, 6, or 9 years) can remain on that reduced Reduced Monitoring for Gross Alpha, Combined schedule as long as the most recent sample results support that Radium-226/228, and Uranium monitoring schedule. An increase in a radionuclide level at an EPTDS You may be able to reduce the frequency of monitoring at each may increase the frequency of monitoring for that radionuclide at that EPTDS based on the initial sample results. The table which follows sampling point. If you get an entry point result above the MCL while on shows the reduced monitoring frequencies. reduced monitoring, you must begin to take quarterly samples in the 9
next quarter. Quarterly sampling must continue until four consecutive You may be allowed to grandfather data instead of taking four quarterly samples are below the MCL. consecutive quarterly samples during the initial monitoring period. Your State may allow you to grandfather data for gross alpha, radium-226/
Substituting Gross Alpha for Radium-226 or 228, and uranium if any of three conditions are met:
Uranium In some cases, the gross alpha particle activity measurement may be A system with one EPTDS collects monitoring data at that substituted for the required radium-226 or uranium measurements. EPTDS between June 2000 and December 8, 2003.
These rules are complex, but generally, gross alpha is allowed as a substitute for radium-226 if previous gross alpha results including the A system with more than one EPTDS collects samples at each analytical error are less than or equal to 5pCi/L. It is allowed as a EPTDS between June 2000 and December 8, 2003.
substitute for uranium if the gross alpha result is less than or equal to 15 pCi/L. If a uranium determination is made by a method measuring A system collects data from a representative point in the radioactivity, a conversion can be made to mass (the units of the MCL) distribution system between June 2000 and December 8, 2003 without paying for another analysis. Simply divide the result in and the State makes a written finding that the data are picoCuries by 0.67. That will give you a conservatively high mass representative of each entry point.
number in micrograms. If you are below the MCL, you do not need further analysis. If you find you exceed 30 µg/L you should have the EPA is encouraging systems to monitor for uranium before December laboratory analyze the mass by a direct method for mass. The result 8, 2003 even though the standard does not go into effect until then. If will be lower. Contact your State drinking water program for more the sampling results are less than 30 µg/L, the State may allow these information, or see The Radionuclides Implementation Guidance on data to be grandfathered, potentially saving the system from EPAs Web site (www.epa.gov/safewater/rads/implement.html). conducting additional monitoring.
Grandfathered Data If the levels of uranium exceed 30 µg/L, the system will be required to The Radionuclides Rule balances the need to ensure that the levels of take four consecutive quarterly samples during the initial monitoring regulated radionuclides are at or below the MCL at each EPTDS with period. However, knowing early that your system has high levels of the recognition that some systems have monitored for certain uranium gives you time to review your compliance options and choose radionuclides for years. The Rule gives States the flexibility to decide, the one thats best for your system. Your options may include on a case-by-case basis, whether to approve the use of grandfathered developing a new source of drinking water, blending two or more data and on the number of samples a system has to take to prove that sources of water, purchasing water from another public water supply, radionuclide activity will remain below the MCLs. or installing a treatment plant. These options are discussed in more detail in the following sections.
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- 7. What Are the Requirements for Man-Made Beta Particle and Photon Emitters?
Most systems will never need to monitor for beta particle and photon Some nuclides need to be in a higher concentration to give the same 4 radioactivity. These emitters generally come from nuclear facilities; mrem dose.
commercial nuclear power plants; institutional sources such as research facilities, hospitals, and universities; and from industrial The laboratory will measure the nuclide concentration in the water, and sources such as laboratories and pharmaceutical companies. Unless the State will compare this result to the concentration allowed for that your system is vulnerable to this type of contamination, or is already particular nuclide (see table on page 13). The comparison results in a contaminated by beta and photon emitters, you do not have to monitor fraction. This is shown in the calculation below.
for these contaminants. Your State will determine whether your system is vulnerable to contamination or already contaminated.
pCi/L found in sample (from laboratory results) fraction of the maximum In general, the regulations for beta particle and photon radioactivity are = 4 mrem/yr exposure similar to those for other radionuclides, with some important pCi/L equivalent from 4 mrem of exposure limit (from conversion table) exceptions, which are outlined below. Contact your State drinking water program if you are unsure if you need to monitor for beta particle and photon radioactivity. If your water contains several man-made radionuclides, the State will add all the fractions together. If the result is >1, your system exceeds What Is the MCL? the 4 mrem MCL. Your system must monitor monthly until a rolling The MCL for beta particle and photon radioactivity did not change in the average of 3 months is below the MCL.
revised rule from the current level of 4 millirem per year (mrem/year). A millirem is a dose of energy to the body. EPA regulates 179 man- What Are the Monitoring Requirements?
made nuclides, and each of them has a concentration of radiation There are three types of systems when it comes to monitoring for beta (measured in picoCuries per liter [pCi/L]) which produces the 4 millirem particle and photon emitters:
(mrem) dose. These concentrations are listed on a conversion table that the State will use to determine if you are in compliance. Those that are not vulnerable to man-made radionuclides (these systems are not required to monitor for beta and photon Each nuclide has a different concentration that produces a 4 mrem emitters).
dose because different radionuclides have different energy levels.
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Those that are vulnerable. concentration limits as explained above.
Those that already are contaminated. If you are using waters that are contaminated, the State calculates compliance as described above. If the sum of the fractions is less than If your State says you are vulnerable to contamination from man-made 1, your system is in compliance.
radionuclides, you must take quarterly samples for gross beta emitters and annual samples for tritium and strontium-90 at each entry point to Can I get a waiver?
the distribution system. If the running annual average (minus potassium- States cannot issue waivers to those systems that are vulnerable to
- 40) is less than or equal to 50 pCi/L, the State may reduce your contamination or already contaminated with beta particle and photon monitoring to once every 3 years. Systems in the vicinity of a nuclear radioactivity.
facility may be allowed to use the facilitys own surveillance data.
What if I have a new system or source?
Systems determined to be using waters that are contaminated by State requirements differ on sampling for beta particle and photon effluents from nuclear facilities must analyze monthly samples or radioactivity. Contact your State drinking water program for more composite three monthly samples each quarter for gross beta activity, information.
analyze a composite of five consecutive daily samples each quarter for iodine-131, and analyze four quarterly samples or composite four consecutive quarterly samples for strontium-90 and tritium.
If your State determines that you are vulnerable to contamination, or already contaminated, the initial monitoring period takes place between 2004 and 2007. Your monitoring requirements after this time will vary depending on your results.
How Can I Tell If My System Is in Violation?
Determining if your system is in violation requires two steps. First, if your system is vulnerable to contamination and the results of testing for all beta and photon emitters is less than or equal to 50 pCi/L, you are in compliance. If your results are greater than 50 pCi/L, you must have the samples further analyzed for the individual nuclides. The results of the more specialized analysis are compared to the 12
Derived Concentrations (pCi/l) of Beta and Photon Emitters in Drinking Water Yielding a Dose of 4 mrem/yr to the Total Body or to any Critical Organ as defined in NBS Handbook 69 Nuclide pCi/l Nuclide pCi/l Nuclide pCi/l Nuclide pCi/l Nuclide pCi/l Nuclide pCi/l H-3 20,000 Ni-65 300 Nb-95 300 Sb-124 60 Nd-147 200 Os-191 600 Be-7 6,000 Cu-64 900 Nb-97 3,000 Sb-125 300 Nd-149 900 Os-191m 9,000 C-14 2,000 Zn-65 300 Mo-99 600 Te-125m 600 Pm-147 600 Os-193 200 F-18 2,000 Zn-69 6,000 Tc-96 300 Te-127 900 Pm-149 100 Ir-190 600 Na-22 400 Zn-69m 200 Tc-96m 30,000 Te-127m 200 Sm-151 1,000 Ir-192 100 Na-24 600 Ga-72 100 Tc-97 6,000 Te-129 2,000 Sm-153 200 Ir-194 90 Si-31 3,000 Ge-71 6,000 Tc-97m 1,000 Te-129m 90 Eu-152 200 Pt-191 300 P-32 30 As-73 1,000 Tc-99 900 Te-131m 200 Eu-154 60 Pt-193 3,000 S-35 inorg 500 As-74 100 Tc-99m 20,000 Te-132 90 Eu-155 600 Pt-193m 3,000 Cl-36 700 As-76 60 Ru-97 1,000 I-126 3 Gd-153 600 Pt-197 300 Cl-38 1,000 As-77 200 Ru-103 200 I-129 1 Gd-159 200 Pt-197m 3,000 K-42 900 Se-75 900 Ru-105 200 I-131 3 Tb-160 100 Au-196 600 Ca-45 10 Br-82 100 Ru-106 30 I-132 90 Dy-165 1,000 Au-198 100 Ca-47 80 Rb-86 600 Rh-103m 30,000 I-133 10 Dy-166 100 Au-199 600 Sc-46 100 Rb-87 300 Rh-105 300 I-134 100 Ho-166 90 Hg-197 900 Sc-47 300 Sr-85 m 20,000 Pd-103 900 I-135 30 Er-169 300 Hg-197m 600 Sc-48 80 Sr-85 900 Pd-109 300 Cs-131 20,000 Er-171 300 Hg-203 60 V-48 90 Sr-89 20 Ag-105 300 Cs-134 80 Tm-170 100 Tl-200 1,000 Cr-51 6,000 Sr-90 8 Ag-110m 90 Cs-134m 20,000 Tm-171 1,000 Tl-201 900 Mn-52 90 Sr-91 200 Ag-111 100 Cs-135 900 Yb-175 300 Tl-202 300 Mn-54 300 Sr-92 200 Cd-109 600 Cs-136 800 Lu-177 300 Tl-204 300 Mn-56 300 Y-90 60 Cd-115 90 Cs-137 200 Hf-181 200 Pb-203 1,000 Fe-55 2,000 Y-91 90 Cd-115m 90 Ba-131 600 Ta-182 100 Bi-206 100 Fe-59 200 Y-91m 9,000 In-113m 3,000 Ba-140 90 W-181 1,000 Bi-207 200 Co-57 1,000 Y-92 200 In-114m 60 La-140 60 W-185 300 Pa-230 600 Co-58 300 Y-93 90 In-115 300 Ce-141 300 W-187 200 Pa-233 300 Co-58m 9000 Zr-93 2,000 In-115m 1,000 Ce-143 100 Re-186 300 Np-239 300 Co-60 100 Zr-95 200 Sn-113 300 Ce-144 30 Re-187 9,000 Pu-241 300 Ni-59 300 Zr-97 60 Sn-125 60 Pr-142 90 Re-188 200 Bk-249 2,000 Ni-63 50 Nb-93m 1,000 Sb-122 90 Pr-143 100 Os-185 200 13
- 8. How Can I Tell If I Am in Violation of the Radionuclides MCL?
If the running annual average of one year of quarterly samples at an EPTDS is greater than a radionuclides MCL, then your How Many Samples Will Be Used to system is in violation. Determine If I Am in Compliance?
If the running annual average of one year of quarterly The State will use the results from ALL of the samples, even if samples is less than a radionuclides MCL, then your system you have taken more. If your State allows you to take more than the required number of samples, all of them will be averaged to is NOT in violation.
determine compliance.
If any single sampling result is four times the MCL, then your If you dont collect all of the required samples, you have system is in violation. committed a monitoring and reporting violation. The State will take the average of the samples you collected to determine if you have also committed an MCL violation.
If any sampling result causes the running annual average at an EPTDS to be above an MCL, then your system is in violation.
Remember that if you sample once every 3, 6,or 9 years and an EPTDS has a result above an MCL, this may not be an MCL violation. Having a result greater than a radionuclide MCL will put you on an increased monitoring schedule where you will have to collect quarterly samples. If the running annual average of one year of quarterly samples is greater than a radionuclides MCL, then you are in violation.
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- 9. What Do I Have to Tell My Customers?
Letting your customers know what is happening with their water is one The CCR is a snapshot of the quality of the water over the of your responsibilities. Informed customers are more likely to past year.
understand the need for new treatment, infrastructure changes, and rate increases. While you should try to communicate with your The CCR Rule requires you to tell your customers about customers regularly, there are three occasions when you must provide any violations, the actions you took to fix the violations, and information: any potential health effects from the violations.
- 1. If you have an MCL violation. If you violate a radionuclides MCL you must include in your CCR the specific health-effects language in the table on the You must let your customers know within 30 days. next page.
You can send a mailing to all people served by the system (includes all billed and non-billed customers), publish the information in a local newspaper, post the notice in public places or on the Internet, or deliver it through community organizations.
- 2. If you fail to take a required sample or the State finds you in violation of other monitoring or testing requirements.
You can send out one notice every year for all of these violations.
If you can coordinate the timing, the notice may be included in your annual Consumer Confidence Report (CCR) (see explanation below).
- 3. On July 1 of every year, when you must deliver a CCR to your customers.
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Contaminant Source Health Effects Alpha Emitters Erosion of natural deposits Certain minerals are radioactive and may emit a form of radiation known as alpha radiation. Some people who drink water containing alpha emitters in excess of the MCL over many years may have an increased risk of getting cancer.
Combined radium-226 Erosion of natural deposits Some people who drink water containing radium-226 or 228 in excess of the MCL over and radium-228 many years may have an increased risk of getting cancer.
Uranium Erosion of natural deposits Some people who drink water containing uranium in excess of the MCL over many years may have an increased risk of getting cancer and kidney toxicity.
Beta and Photon Erosion of natural deposits* Certain minerals are radioactive any may emit forms of radiation known as photons Emitters* and beta radiation. Some people who drink water containing beta particle and photon radioactivity in excess of the MCL over many years may have an increased risk of getting cancer.*
- EPA recognizes that there is an error in the Rules language as relates to the beta and photon emitters CCR language, which appears verbatim in the table above. The beta and photon emitters that EPA regulates are all man made, and the sources of these regulated contaminants are their improper use, storage, discharge, and disposal from commercial, industrial, and military activities. The health effects language refers to minerals that are radioactive. The Rule, however, applies only to man-made substances that do not occur in mineral form.
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- 10. What Do I Have to Report to the State?
The Radionuclides Rule follows the same reporting requirements as other drinking water regulations in terms of what you must report to your State.
Analytical Results. You have to report the entire analytical result, including the standard deviation. Remember that you cant round your results. Though the requirements may differ slightly from one State to another, generally you need to report your results no more than 10 days after you get the results from the lab, or no more than 10 days following the end of a monitoring period, whichever is shorter. You do not have to report results or MCL violations to your State if your laboratory already does this for you. Contact your laboratory if you are unsure of its practices.
Violations. Anytime you exceed an MCL or fail to fulfill a monitoring requirement, you have to report the violation to the State within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br />. This notification is in addition to any public notices you are required to send to your customers.
Public Notice. Anytime you send out a public notice, you also need to send a copy to the State. You also have to send a letter certifying that you have met all the public notification requirements. Both a copy of the notice and the certification letter are due to the State within 10 days of sending out the public notice.
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- 11. What Compliance Options Do I Have?
There are several ways that small systems with high levels of Consolidation radionuclides can protect their customers, including: Small water systems face the technical problems of larger systems but often lack larger systems financial reserves. Treatment technologies Source Water Changes and strategies that are effective on a large scale may be much too Water Blending expensive for a small water system. Working with other water systems Consolidation may allow you to lower costs and simplify management while Treatment continuing to provide your customers with safe water. You may consolidate with another established water system that has a history of Source Water Changes safe water and then purchase water from the system or interconnect Water systems located in areas with high levels of man-made or and function as a single, larger system. Another option may include naturally occurring radionuclides need to be very careful about what consolidating management, which involves sharing operators and water sources they choose to use. If you find that the radionuclide technical staff. Sharing management could also include bulk levels in an existing water source are too high, you may wish to purchasing agreements and the joint use of materials, supplies, or non-abandon this source and develop a new one. While developing a new essential equipment.
source can prove quite expensive, in the long run, a source change may be the most cost-effective way to produce water that has low Treatment levels of radionuclides. Yet, new sources come with their own Treatment to lower levels of radionuclides in your drinking water will be challenges, and systems must remember that new sources, while lower necessary if your source water contains radionuclides in excess of an in radionuclide levels, may contain higher levels of other contaminants MCL and developing an alternative source, blending, or consolidation that require treatment. are not feasible. Small systems can use several types of treatment technologies to reduce the amount of radionuclides in their water.
Water Blending Section 11 has more information on treatment.
Systems may also consider blending water from a source that has high levels of radionuclides with water from a source with low levels of radionuclides. Adding additional source water may help reduce the level of contamination below the MCL and help you meet the requirements of the Radionuclides Rule.
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- 12. How Can I Treat My Systems Water to Meet the MCL?
Treatment to lower the levels of radionuclides in your drinking water will contaminant concentrations, which may cause waste disposal be necessary if your source water contains high levels of radionuclides problems. If you choose to install POU devices in your community, you and an alternative source is not available or switching sources would be should work with your State to develop a program for long-term cost prohibitive. Small systems can use several types of treatment operation, maintenance, and monitoring to make sure the units are technologies to lower the amount of radionuclides in their water. operating correctly.
EPA has approved the following best available technologies (BATs) and The list on the next page provides more information on the SSCTs, small system compliance technologies (SSCTs) for removing including required operator skill level, raw water quality considerations, radionuclides from water: and which technologies are appropriate for different sizes of systems.
Ion Exchange (BAT, SSCT)
Reverse Osmosis (BAT, SSCT) Technology Considerations Lime Softening (BAT, SSCT)
When choosing a technology, remember:
Enhanced Coagulation/Filtration (BAT, SSCT)
Green Sand Filtration (SSCT)
The Radionuclides Rule is but one regulation among many.
Co-precipitation with Barium Sulfate (SSCT) Select a technology that can remove whatever contaminants Electrodialysis/Electrodialysis Reversal (SSCT) your system has, at the most affordable cost.
Pre-formed Hydrous Manganese Oxide Filtration (SSCT)
Activated Alumina (SSCT)
Your operator may need additional training.
The chosen technology may have waste disposal issues.
EPA has also approved the use of two point-of-use (POU) devices: See Section 13 for more information on handling waste.
POU ion exchange and POU reverse osmosis. POU units treat water only at a particular tap or faucet. For some small systems, POU treatment strategies may be cheaper than central treatment technologies. Because the treatment units will be located at many different locations, however, there may be higher administrative and monitoring costs. (For example, you may have to take samples from each unit, rather than from a single, central location.) Also, regeneration solution from POU ion exchange contains high 19
List of Small System Compliance Technologies for Radionuclides and Limitations of Use Compliance Technologies Appropriate for System Size**
Operator Skill Raw Water Quality and 3,301 -
Unit Technologies Limitations* Level Required Range Considerations25-500 501 - 3,300 10,000 Ion Exchange (IE) a Intermediate All ground waters C, B, U C, B, U C, B, U Point of Use (POU) IE b Basic All ground waters C, B, U C, B, U C, B, U Surface waters that usually require Reverse Osmosis (RO) c Advanced pre-filtration C, G, B C, G, B, U C, G, B, U Surface waters that usually require POU RO b Basic pre-filtration C, G, B, U C, G, B, U C, G, B, U Lime Softening d Advanced All waters C C, U C, U Green Sand Filtration e Basic C C C Ground waters with suitable water Co-precipitation with Barium Sulfate f Intermediate to Advanced quality C C C Electrodialysis/Electrodialysis Reversal N/A Basic to Intermediate All ground waters C C C Re-formed Hydrous Manganese Oxide Filtration g Intermediate All ground waters C C C All ground waters; competing anion concentrations may affect Activated Alumina a, h Advanced regeneration frequency U U U Can treat a wide range of water Enhanced Coagulation/filtration i Advanced qualities U U U
- Footnotes: **Key:
- a. Disposal options should be carefully considered before choosing this technology. B = Beta partical activity and photon activity
- b. Requires careful long-term operations, maintenance, and monitoring plans to ensure proper performance.
- c. Reject water disposal options should be carefully considered before choosing this technology. C = Combined radium-226 and radium-228
- d. Variable source water quality and complex water chemistry make this technology too complex for small water systems.
- e. Removal efficiencies can vary depending on water quality. G = Gross alpha particle activity
- f. This technology is most applicable to systems that have sufficiently high sulfate levels and that already have filtration in place.
- g. This technology is most applicable to small systems that already have filtration in place. U = Uranium
- h. Handling of chemicals required during regeneration and pH adjustment requires an adequately trained operator.
- i. Assumes modication to a coagulation/filtration process already in place.
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- 13. What Do I Do with Water Treatment Waste?
EPA is updating its guidelines that describe the safe handling and disposal of liquid wastes, sludges, and spent resins from treatment technologies such as those presented in Section 12. However, most of the requirements for dealing with technically enhanced naturally occurring radioactive material (TNORM) are not included within federal regulations. There may be State and local requirements, or requirements of the landfill or sewage treatment plant.
The EPA guidelines will provide you with:
Background information on water treatment technologies and the kinds of wastes they generate.
Reasons why it is important to protect people from radiation, including information about federal programs and other regulations dealing with radioactive waste.
Guidelines for several ways to dispose of solid and liquid wastes that contain radionuclides.
Ways to protect workers who may be exposed to water-treatment wastes that contain radiation.
When complete, the guidelines will be posted on EPAs Web site.
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- 14. How Can I Get More Time to Finance, Plan, Build, or Consolidate?
The Radionuclides Rule provides States with the flexibility to alter Exemptions certain requirements on a case-by-case basis, in response to An exemption means you dont have to comply with an MCL for 3 to 9 extraordinary local circumstances. Granting variances and exemptions years. The Safe Drinking Water Act prohibits States from issuing are two ways States can exercise their flexibility. Since a system with a exemptions for rules in effect before 1986. Because the MCLs for gross variance or exemption will be supplying water with levels of alpha, radium 226/228, and total beta particle and photon emitters were radionuclides above the MCLs, variances and exemptions are difficult put into effect by the 1976 Rule, you cannot get an exemption for these to obtain. contaminants.
Variances If you are operating before the effective date of the rule (December 8, If you install a Best Available Technology (BAT) or a Small System 2003) and are unable to comply with the MCL, you may be eligible for Compliance Technology (SSCT) and still cannot meet the MCL an exemption. Your State may issue an exemption after determining requirements because of the quality of your raw water, you may be that there are no alternative sources of supply, that changing the eligible for a variance. A variance gives you more time to come into structure of your system wont lead to compliance, and the exemption compliance, but requires you to: will not result in an unreasonable risk to public health. If you begin operating after December 8, 2003, you are not eligible for an Enter into a compliance schedule with your States regulatory exemption.
agency.
Deliver water that does not result in an unreasonable risk to health.
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- 15. Where Can I Get More Information?
Additional information is available from:
n EPA Safe Drinking Water Hotline: (800) 426-4791 n EPA Safewater Web site:
EPA has posted the text of the Radionuclides Rule, the Radionuclides Implementation Guidance, a fact sheet, quick reference guide, and other information about the Radionuclides Rule Text: www.epa.gov/safewater/rads/radfr.html.
Guidance, etc.: http://www.epa.gov/safewater/rads/implement.html n American Water Works Association: www.awwa.org n Association of State Drinking Water Administrators: www.asdwa.org n National Ground Water Association: www.ngwa.org n National Rural Water Association: www.nrwa.org 23
- 16. Who Can I Contact for More Information?
EPA REGION 1 www.epa.gov/region1/ (617) 565-3543 Connecticut Department of PublIc Health: Water Supplies Section www.state.ct.us/dph/ (860) 509-7333 Maine Maine Department of Human Services: Division of Health Engineering http://janus.state.me.us/dhs/eng/water/index.htm (207) 287-2070 Massachusetts Department of Environmental Protection: Drinking Water Program www.state.ma.us/dep/brp/dws/dwshome.htm (617) 292-5770 New Hampshire Department of Environmental Services: Water Supply Engineering www.des.state.nh.us/wseb/ (603) 271-3139 Bureau Rhode Island Department of Health: Office of Drinking Water Quality www.health.state.ri.us/environment/dwq.htm (401) 222-6867 Vermont Department of Environmental Conservation: Water Supply Division www.anr.state.vt.us/dec/watersup/wsd.htm (802) 241-3400 EPA REGION 2 www.epa.gov/region02/water/ (212) 637-3846 New Jersey Department of Environmental Protection: Bureau of Safe Drinking www.state.nj.us/dep/watersupply/ (609) 292-5550 Water New York Department of Health: Bureau of Public Water Supply Protection www.health.state.ny.us/nysdoh/water/main.htm (518) 402-7650 24
Puerto Rico Department of Health: Public Water Supply Supervision Program www.epa.gov/region02/cepd/compnum.htm#JCA (787) 754-6010 Virgin Islands Department of Planning & Natural Resources: Division of (340) 774-3320 Environmental Protection EPA REGION 3 www.epa.gov/region03/ (215) 814-3201 Delaware Delaware Health & Social Services: Division of Public Health www.state.de.us/dhss/dph/hsp.htm (302) 739-5410 District of Columbia Environmental Health Administration: Water Resources Management www.dchealth.com/eha/welcome.htm (202) 645-6601 Division Maryland Department of the Environment: Public Drinking Water Program www.mde.state.md.us/ (410) 631-3702 Pennsylvania Department of Environmental Protection: Bureau of Water Supply www.dep.state.pa.us/dep/deputate/watermgt/ (717) 787-9037 Management wsm/wsm.htm Virginia Department of Health: Division of Water Supply Engineering www.vdh.state.va.us/dwse/index.htm (804) 786-1767 West Virginia Bureau for Public Health: Environmental Engineering Division www.wvdhhr.org/bph/enviro.htm (304) 558-2981 25
EPA REGION 4 www.epa.gov/region4/ (404) 562-9442 Alabama Department of Environmental Management: Water Supply Branch www.adem.state.al.us/EnviroProtect/Water/ (334) 271-7773 water.htm Florida Department of Environmental Protection: Drinking Water Section www8.myflorida.com/environment/learn/ (850) 487-1762 waterprograms/drinkingwater/index.html Georgia Department of Natural Resources: Water Resources Branch www.ganet.org/dnr/environ/ (404) 656-5660 Kentucky Department for Environmental Protection: Drinking Water Branch http://water.nr.state.ky.us/dw/ (502) 564-3410 Mississippi Department of Health: Division of Water Supply www.msdh.state.ms.us/watersupply/index.htm (601) 576-7518 North Carolina Department of Environment and Natural Resources: Public Water www.deh.enr.state.nc.us/pws/index.htm (919) 733-2321 Supply Section South Carolina Department of Health & Environmental Control: Bureau of Water www.scdhec.net/water/html/dwater.html (803) 734-5300 Tennessee Department of Environment & Conservation: Division of Water Supply www.state.tn.us/environment/dws/index.html (615) 532-0191 26
EPA REGION 5 www.epa.gov/region5/ (312) 886-4239 Illinois Environmental Protection Agency: Division of Public Water Supplies www.epa.state.il.us/water/ (217) 785-8653 Indiana Department of Environmental Management: Drinking Water Branch www.state.in.us/idem/owm/dwb/index.html (317) 308-3281 Michigan Department of Environmental Quality: Drinking Water & Radiological www.deq.state.mi.us/dwr/ (517) 335-9216 Protection Division Minnesota Department of Health: Drinking Water Protection Section www.health.state.mn.us/divs/eh/eh.html (612) 215-0770 Ohio Environmental Protection Agency: Division of Drinking & Ground www.epa.state.oh.us/ddagw/ (614) 644-2769 Water Wisconsin Department of Natural Resources: Bureau of Water Supply www.dnr.state.wi.us/org/water/dwg/ (608) 266-2299 EPA REGION 6 www.epa.gov/region6/ (214) 665-2757 Arkansas Department of Health: Division of Engineering www.healthyarkansas.com/eng/index.html (501) 661-2623 Louisiana Office of Public Health: Division of Environmental & Health Services www.dhh.state.la.us/OPH/safewtr.htm (225) 568-5100 New Mexico Environment Department: Drinking Water Bureau www.nmenv.state.nm.us/field_op.html (505) 827-7536 27
Oklahoma Department of Environmental Quality: Water Quality Division www.deq.state.ok.us/water.html (405) 702-5100 Texas Natural Resource Conservation Commission: Water Utilities Division www.tnrcc.state.tx.us/water/wu/mon/ (512) 239-6096 EPA REGION 7 www.epa.gov/region7/ (913) 551-7903 Iowa Department of Natural Resources: Water Supply Section www.state.ia.us/government/dnr/organiza/epd/ (515) 281-8998 wtrsuply/wtrsup.htm Kansas Department of Health & Environment: Public Water Supply Section www.kdhe.state.ks.us/water/pwss.html (785) 296-5514 Missouri Department of Natural Resources: Public Drinking Water Program www.dnr.state.mo.us/deq/pdwp/homepdwp.htm (573) 751-5331 Nebraska Department of HHS Regulation & Licensure e-mail: anne.pamperl@hhss.ne.state.us (402) 471-1009 EPA REGION 8 www.epa.gov/region8/ (303) 312-7021 Colorado Department of Public Health & Environment: Drinking Water Program www.cdphe.state.co.us/wq/wqhom.asp (303) 692-3500 Montana Department of Environmental Quality: Public Water Supply Section www.deq.state.mt.us/pcd/csb/index.htm (406) 444-4323 North Dakota Department of Health www.ehs.health.state.nd.us/ndhd/environ/mf/ (701) 328-5211 index.htm 28
South Dakota Department of Environment & Natural Resources: Drinking Water www.state.sd.us/denr/des/drinking/dwprg.htm (605) 773-3754 Program Utah Department of Environmental Quality: Division of Drinking Water www.deq.state.ut.us/eqdw/ (801) 536-4200 Wyoming EPA Region 8: Wyoming Drinking Water Program www.epa.gov/region08/water/ (303) 312-6312 EPA REGION 9 www.epa.gov/region9/ (415) 744-1884 Arizona Department of Environmental Quality: Drinking Water Monitoring & www.adeq.state.az.us/environ/water/dw/ (602) 207-4644 Assessment Section index.html California Department of Health Services: Division of Drinking Water & www.dhs.cahwnet.gov/org/ps/ddwem/ (916) 323-6111 Environmental Management Hawaii Department of Health: Environmental Management Division www.hawaii.gov/health/eh/eiemdw00.htm (808) 586-4258 Nevada Department of Human Resources: Bureau of Health Protection www.state.nv.us/health/bhps/sdwp.htm (775) 687-4750 Services American Samoa EPA Region 9: American Samoa (684) 633-2304 29
Guam Guam Environmental Protection Agency: Safe Drinking Water www.gepa.gov.gu/ (671) 475-1637 Program Northern Mariana Islands Northern Mariana Islands Division of Environmental Quality: Safe (670) 664-8500 Drinking Water Branch EPA REGION 10 ww.epa.gov/region10/ (206) 553-1389 Alaska Department of Environmental Conservation: Drinking Water & www.state.ak.us/dec/deh/safewater.htm (907) 269-7500 Wastewater Program Idaho Department of Health and Welfare: Division of Environmental Quality www2.state.id.us/deq/water/water1.htm (208) 373-0502 Oregon Department of Human Resources: Drinking Water www.ohd.hr.state.or.us/dwp/welcome.htm (503) 731-4317 Program Washington Department of Health: Drinking Water Division http://198.187.0.42/ehp/dw/ (800) 521-0323 30