Information Notice 1986-14, Overspeed Trips of AFW, HPCI & RCIC Turbines

UNITED STATES

NUCLEAR REGULATORY COMMISSION

OFFICE OF NUCLEAR REACTOR REGULATION

WASHINGTON, D.C. 20555 August 26, 1991 NRC INFORMATION NOTICE NO. 86-14, SUPPLEMENT 2: OVERSPEED TRIPS OF AFW, HPCI

AND RCIC TURBINES

Addressees

All holders of operating licenses or construction permits for nuclear power

reactors.

Purpose

This information notice supplement is intended to alert addressees to a recently

identified condition in which turbine-driven pumps may trip on overspeed because

of the sluggish response of the turbine speed governor caused by an accumulation

of dirt and grit in the governor's control oil system. Recent overspeed trips

of turbine-driven pumps have also prompted the staff to issue this supplement

to reemphasize previously identified causes of overspeed trips. It is expected

that recipients will review the information for applicability to their facilities

and consider actions, as appropriate, to avoid similar problems. However, suggestions contained in this information notice supplement do not constitute

NRC requirements; therefore, no specific action or written response is

required.

Background:

On March 10, 1986, the NRC issued Information Notice (IN)86-14, "PWR Auxiliary

Feedwater Pump Turbine Control Problems," to alert addressees to certain

conditions that could cause turbine-driven pumps to trip on overspeed. In

August 1986, the NRC Office for Analysis and Evaluation of Operational Data

(AEOD) issued study AEOD/C602, "Operational Experience Involving Turbine

Overspeed Trips." On December 17, 1986, the NRC issued IN 86-14, Supplement 1,

"Overspeed Trips of AFW, HPCI and RCIC Turbines," which summarized the results

of the AEOD study.

Recent operating experience has shown that overspeed trips of turbine-driven

pumps continue to occur from the same basic causes identified in the AEOD

report. A description of recent operating experience and a newly identified

condition follows.

Description of Circumstances

On November 13, November 29, and December 6, 1990, during three separate

operational tests of the turbine-driven auxiliary feedwater (AFW) pump at

Arkansas Nuclear-One (ANO), Unit 2, the turbine tripped on overspeed during

9108200172

IN 86-14, Supplement 2 August 26, 1991 initial acceleration. After each of the three overspeed trips, the licensee

manually reset and successfully started the turbine several times. After the

third overspeed trip, the licensee determined that fouling of components in the

control oil system had caused the governor's response to be too slow to control

the turbine's initial acceleration. Subsequent turbine starts were successful

because the governor's components had been sufficiently exercised and loosened

to permit faster response.

On June 18, 1990, during fast start surveillance testing at the LaSalle County

Nuclear Station, Unit 1, the reactor core isolation cooling (RCIC) turbine

tripped on overspeed and the licensee declared the system inoperable. The

licensee determined that contaminated oil had fouled the components of the

governor, slowing the governor's response and causing the turbine to trip on

overspeed.

In October 1990, the licensee at the Millstone Nuclear Power Station, Unit 3, declared the turbine-driven AFW pump inoperable when the turbine tripped

repeatedly on overspeed during testing. The licensee noted that, before each

test start, the turbine was rolling because of steam leaking past the steam

admission valves. The licensee determined that the turbine rolling caused oil

to be admitted into the governor's speed setting cylinder which resulted in the

overspeed trips.

Discussion:

ANO-2 has one AFW pump powered by a motor and one powered by a steam turbine.

Upon initiation of a start signal to the turbine-driven pump, a bypass valve

around the normally closed isolation valve in the steam supply line to the

turbine opens and the turbine accelerates to a minimum idle speed. Following a

preset time delay, the isolation valve opens and the turbine governor valve

positions to allow the turbine to accelerate to rated speed. The governor

valve is positioned by an electronic governor type-R (EG-R) hydraulic actuator

in conjunction with a remote servo valve. The EG-R actuator converts the

electrical speed demand signal to a hydraulic signal which is then sent to the

servo to adjust the governor valve's position. The hydraulic medium for the

governor control system is filtered oil taken from the turbine lube oil system.

After the December 6, 1990, overspeed trip, the licensee for ANO-2 brought a

field representative of the Woodward Governor Company onsite to help determine

the cause of the recurring overspeed trips. Upon examination, the control oil

was found to be contaminated with dirt and grit. A thick gelatinous coating of

dirt and hardened oil was observed on some governor components including the

EG-R actuator and remote servo. The three overspeed trips resulted from

contaminated oil that slowed the response of the governor. To correct this

condition, the licensee changed the turbine lube oil, replaced the filter, cleaned the remote servo and control tubing, and replaced the EG-R actuator.

The licensee tuned the governor to ensure proper response and successfully

tested the turbine. The licensee declared the pump operable and returned it to

service.

The ANO preventive maintenance (PM) program provided for sampling the turbine

lube oil each month and for changing the lube oil and filter every six months.

IN 86-14, Supplement 2 August 26, 1991 Maintenance records showed that the licensee had changed the lube oil and

filter on September 2, 1990, approximately two months before the overspeed trip

on November 13, 1990. However, the PM program did not provide for periodic

inspections of the oil sump and other components of the governor control oil

system. The vendor manual for the Terry Corporation turbine contained a note

stating that oil used to fill the turbine lube oil system should be filtered

through a 5-micron filter. The licensee had overlooked this note and had not

performed this step when filling the system. Since the inline filter in the

lube oil system is a 25-micron filter, the lube oil system contained a large

quantity of particles of approximately 5 to 25 microns. This condition and the

low flow rate of oil through the governor resulted in a heavy accumulation of

impurities in the governor. Because the accumulation occurred over a period of

years, the periodic oil sampling and changing of the oil and filter in the

turbine lube oil system failed to control or detect the accumulation of parti- cles inside the governor. The licensee revised the PM program to include

periodic cleaning or replacement of the EG-R actuator and its associated remote

servo valve. The licensee plans to clean the turbine lube oil system during

the next refueling outage.

On June 18, 1990, the licensee at LaSalle County Nuclear Station, Unit 1, identified a similar problem. During fast start testing, the RCIC turbine

tripped on overspeed. The licensee's investigation included the removal and

inspection of the EG-R actuator. The licensee found sediment inside the

actuator and on the actuator's components. The licensee tested the oil for

particles between 5 and 250 microns and found that the amount of these parti- cles greatly exceeded allowable limits. To prevent the problem from recurring, the licensee revised the plant procedure to require the oil to be filtered

before filling the turbine lube oil system. Also, the licensee will flush the

oil system and disassemble, inspect, and clean the EG-R actuator during each

outage.

In October 1990, during testing of the turbine-driven AFW pump at Millstone

Unit 3, the turbine tripped repeatedly on overspeed. The licensee noted that

the turbine shaft was rotating before each of the test starts caused by steam

leaking past the steam admission valve. The turbine rolling caused oil to be

admitted into the governor's speed setting cylinder. The combination of the

turbine's initial rolling and the position of the speed setting bushing was

sufficient to cause the turbine to trip on overspeed during the turbine's

initial acceleration. The licensee developed a maintenance program to elimi- nate the steam leaking past the admission valve and also to periodically check

if the turbine is rolling.

In AEOD report C602, the staff identified several turbine overspedd events

related to oil contamination. The events at ANO and LaSalle have revealed an

additional mechanism by which contaminated oil can cause turbine-driven pump

overspeed trips. These events demonstrate that turbine governor control oil

systems are sensitive to the accumulation of impurities in the oil or on

surfaces exposed to the oil medium. To compensate for this sensitivity, licensees may wish to periodically examine and clean these critical components

in addition to the traditional practice of periodically changing the lube oil

and filters.

IN 86-14, Supplement 2 August 26, 1991 In the AEOD report, the staff also noted that steam valve leakage and undrained

condensate can cause overspeed trips. The staff listed three events of turbine

overspeed caused by steam valve leakage. Those events occurred at the

St. Lucie Plant, Unit 2, the Crystal River Plant, Unit 3 and the

Virgil C. Summer Nuclear Station. The turbines at these three plants are

equipped with Woodward PG-PL governors which are set to control turbine

acceleration properly when the turbine starts from rest. These turbines

tripped on overspeed because the turbines were rolling before being started which

increased the oil pressure and caused oil to flow into the governors' speed

setting cylinder. The oil pressure in the cylinder prevented the governor from

responding fast enough to close the governor valve and control the initial

turbine acceleration. This overspeed problem is not limited to the PG-PL type

governor. Other types of Woodward governors that use a ramp bushing to control

acceleration may also trip on overspeed. In addition, the increased oil

pressure in the speed setting cylinder does not decrease immediately and must

be released by locally exercising and resetting the speed setting knob. This

characteristic may cause the turbine-driven pump to be unavailable for

immediate starts or quick restarts.

At Crystal River, the licensee installed a modified governor with an automatic

bleed feature to relieve oil pressure in the speed setting cylinder. This

modification should prevent the turbine from tripping on overspeed as a result

of the turbine rolling before the pump is started.

In the AEOD report, the staff identified nine turbine overspeed trip events

that occurred as a result of undrained condensate in the turbine steam supply

lines. Although steam lines are usually designed to separate and remove

condensate, it is possible that during a cold start the condensate may not be

separated or removed fast enough to prevent it from reaching the turbine.

Because this condensate contains significantly less energy than an equivalent

mass of steam, the turbine's initial acceleration is slower than expected. In

response to the slower acceleration, the governor opens the governor valve

further to allow more steam to enter. However, once the condensate clears, the

governor cannot respond fast enough to prevent the turbine from tripping on

overspeed.

The actual condition causing such an overspeed trip is often not determined

because subsequent restarts are usually successful as the steam line has been

heated and the condensate removed. To prevent similar trips, these plants

increased the capacity of the condensate removal process or minimized the

condensate formation by keeping the steam supply line in a hot and pressurized

condition.

Previous Similar Occurrences:

The staff reviewed LERs received since the middle of 1985 and identified two

turbine overspeed trips caused by undrained condensate. It is likely that

other turbine overspeed trips have occurred but were not reported. The

overspeed trips caused by undrained condensate occurred at San Onofre Nuclear

Generating Station, Unit 2, in August 1990, and at the Crystal River Plant, Unit 3, in November 1986. The turbine overspeed trip at San Onofre occurred

during testing. Initially, the licensee could not determine the cause of the

IN 86-14, Supplement 2 August 26, 1991 trip because subsequent restarts were successful. However, during a followup

investigation, the licensee found that a procedural deficiency had resulted in

an isolation valve for a steam trap remaining closed after a previous outage.

The licensee modified the procedure to ensure that the valve was properly

aligned and added a program to check the steam drain system periodically.

At Crystal River, the AFW system actuated automatically. The turbine-driven

AFW pump started as required but immediately tripped on overspeed. The

motor-driven AFW pump started normally and supplied feedwater to the steam

generators. The licensee later found that the warmup line for the turbine

throttle valve had been isolated for unknown reasons and had allowed the steam

supply line to cool. Condensate formed in the steam supply line and caused the

turbine to trip on overspeed. The licensee revised procedures to ensure that

the warmup line was not inadvertently isolated.

The NRC issued IN 86-14 and its supplement to alert addressees to the possibil- ity that turbine-driven pumps could trip on overspeed and to summarize the

results of AEOD report C602. However, the staff believes some licensees are

not fully aware of the problem or may have inadequate programs to control the

problem. AEOD is continuing to study the reliability of safety-related steam

turbine-driven standby pumps to address the continuing repetitive failures

of turbine assemblies. Further information will be issued to addressees if

appropriate.

This information notice requires no specific action or written response. Ifone

you have any questions about the information in this notice, please contact

of the technical contacts listed below or the appropriate NRR project manager.

Arles`E~.os~sei, Director

Division of Operational Events Assessment

Office of Nuclear Reactor Regulation

Technical Contacts: Thomas F. Stetka, Region IV

(817) 860-8247 Michael F. Runyan, Region IV

(817) 860-8142 William T. LeFave, NRR

(301) 492-3285 Attachment:

List of Recently Issued NRC Information Notices

• ,81 Attachment

IN 86-14, Supplement 2 August 26, 1991 LIST OF RECENTLY ISSUED

NRC INFORMATION NOTICES

Information Date of

Notice No. Subject Issuance Issued to

91-51 Inadequate Fuse Control 08/20/91 All holders of OLs or CPs

Programs for nuclear power reactors.

91-50 A Review of Water Hammer 08/20/91 All holders of OLs or CPs

Events After 1985 for nuclear power reactors.

91-49 Enforcement of Safety 08/15/91 All Nuclear Regulatory Com- Requirements for Radiog- mission (NRC) licensees

raphers authorized to use sealed

sources for industrial

radiography.

91-48 False Certificates of Con- 08/09/91 All holders of OLs or CPs

formance Provided by West- for nuclear power reactors.

inghouse Electric Supply

Company for Refurbished Com- mercial-Grade Circuit

Breakers

91-47 Failure of Thermo-Lag 08/06/91 All holders of OLs or CPs

Fire Barrier Material to for nuclear power reactors.

Pass Fire Endurance Test

89-56, Questionable Certification 07/19/91 All holders of OLs or CPs

Supp. 2 of Material Supplied to for nuclear power reactors.

the Defense Department by

Nuclear Suppliers

91-46 Degradation of Emergency 07/18/91 All holders of OLs or CPs

Diesel Generator Fuel Oil for nuclear power reactors.

Delivery Systems

91-45 Possible Malfunction of 07/05/91 All holders of OLs or CPs

Westinghouse ARD, BFD, and for nuclear power reactors.

NBFD Relays, and A200 DC

and DPC 250 Magnetic Con- tactors

OL = Operating License

CP = Construction Permit