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Title: Operational test report integrated system test (ventilation upgrade)

Abstract

Operational Final Test Report for Integrated Systems, Project W-030 (Phase 2 test, RECIRC and HIGH-HEAT Modes). Project W-030 provides a ventilation upgrade for the four Aging Waste Facility tanks, including upgraded vapor space cooling and filtered venting of tanks AY101, Ay102, AZ101, AZ102.

Authors:
Publication Date:
Research Org.:
CHG (US)
Sponsoring Org.:
ENVIRONMENTAL MANAGEMENT (US)
OSTI Identifier:
798101
Report Number(s):
HNF-3473, Rev.0
TRN: US0206031
DOE Contract Number:
AC06-96RL13200
Resource Type:
Technical Report
Resource Relation:
Other Information: PBD: 5 Oct 1999
Country of Publication:
United States
Language:
English
Subject:
12 MANAGEMENT OF RADIOACTIVE WASTES, AND NON-RADIOACTIVE WASTES FROM NUCLEAR FACILITIES; AGING; VENTILATION SYSTEMS; PERFORMANCE TESTING; STORAGE FACILITIES; RADIOACTIVE WASTE STORAGE; TEST COOLING VENTILATION UPGRADE

Citation Formats

HARTY, W.M. Operational test report integrated system test (ventilation upgrade). United States: N. p., 1999. Web. doi:10.2172/798101.
HARTY, W.M. Operational test report integrated system test (ventilation upgrade). United States. doi:10.2172/798101.
HARTY, W.M. Tue . "Operational test report integrated system test (ventilation upgrade)". United States. doi:10.2172/798101. https://www.osti.gov/servlets/purl/798101.
@article{osti_798101,
title = {Operational test report integrated system test (ventilation upgrade)},
author = {HARTY, W.M.},
abstractNote = {Operational Final Test Report for Integrated Systems, Project W-030 (Phase 2 test, RECIRC and HIGH-HEAT Modes). Project W-030 provides a ventilation upgrade for the four Aging Waste Facility tanks, including upgraded vapor space cooling and filtered venting of tanks AY101, Ay102, AZ101, AZ102.},
doi = {10.2172/798101},
journal = {},
number = ,
volume = ,
place = {United States},
year = {Tue Oct 05 00:00:00 EDT 1999},
month = {Tue Oct 05 00:00:00 EDT 1999}
}

Technical Report:

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  • This procedure provides instructions for readiness of the first portion of the upgraded 241-SY-101 Data Acquisition and Control System (DACS) computer system to provide proper control and monitoring of the mitigation mixer pump and instrumentation installed in the 241-SY-101 underground storage tank will be systematically evaluated by the performance of this procedure.
  • Detachment 1, Air Force Operational Test and Evaluation Center will conduct a Qualification Operational Test and Evaluation (QOTE) on the SEON Upgrade/Replacement Program during the fourth quarter of FY 1993 and the first quarter of FY1994 at the Palehua Solar Observatory in Hawaii. The purpose of this QOTE is to determine the operational suitability and effectiveness of the upgraded SEON so decision makers can decide what changes, if any, need to be made prior to upgrading the other sites. SEON measures solar events to predict their impact on manned space activities and satellite communication, and validates ionospheric disturbances. SEON interfacesmore » with the Air Force Space Forecast Center and the Air Force Global Weather Central. It is comprised of five Solar Observing Optical Networks (SOONs) and four Radio Solar Telescope Networks (RSTNs) longitudinally separated to ensure the sun is constantly monitored. Each SOON is composed of a solar optical telescope (AN/FMQ-7) with automatic solar tracking. Each RSTN is composed of a solar radio telescope (AN/FRR-95) with automatic solar tracking. This equipment also measures the magnitude of solar flares and prepares the necessary solar event messages for release by the operator into the Automated Weather Network. Solar electro-optical network, SEON, SOON, RSTN, AN/FMQ-7, AN/FRR-95.« less
  • This report describes the proposed changes to the ventilation system of the reactor building at the Armed Forces Radiobiology Research Institute (AFRRI) in Bethesda, Maryland. Classified as a Safety Analysis Report that meets the requirements of the Code of Federal Regulations (Title 10, Part 50.59), this document provides the basis for the author's conclusion that the changes to the system involve no unreviewed safety questions and, in fact, improvements in the radiological safety at AFRRI. In order to accomplish these changes, certain other changes must be made to AFRRI administrative documents. Included here are excerpts from the administrative documents andmore » the changes to be made to them. Minutes of a meeting of the Reactor and Radiation Facility Safety Committee (of AFRRI) confirm the fact that the Committee has reviewed this report and has concurred with it.« less
  • The Tank Farms Final Safety Analysis (FSAR) assumes that a ventilation stack Continuous Air Monitor (CAM) interlock system detects high radiation in the exhaust stream and shuts off the associated ventilation system within 10 minutes of a High-Efficiency Particulate Air (HEPA) filter system failure (CHG, 2002). Previous analysis of the as-built CAM system on the AW Farm Primary Exhauster (stack 296-A-27) showed that this system potentially required significantly longer than 10 minutes to detect a HEPA filter failure and initiate shutdown of the ventilation system (Short, 2002). The purpose of this report is to determine the CAM interlock system responsemore » time for a proposed upgrade of the 296-A-27 CAM system. The approach to be used in this analysis is essentially the same as used in RPP-10799, Rev. 0 (Short, 2002), which is to conservatively estimate the time required by the proposed upgraded CAM sampling/monitoring system to detect a FSAR-defined HEPA filter failure and automatically shutdown the exhaust fan. For the HEPA filter failure over-temperature accident scenario in the FSAR, the upgraded CAM system on the AW Farm Primary Exhauster will require significantly less than 10 minutes to detect a HEPA filter failure, actuate the CAM Interlock, and shutdown the exhauster fan. Therefore, the analyzed system is adequate to meet the operability requirements specified in the FSAR and the Tank Farms Technical Safety Requirements (CHG, 2001; CHG, 2002).« less
  • A description and safety class designation of the accumulator and 701-A compressor system is contained in VTHC-SD-@-DA-137, Safety Classification (of the 241-A-70) Compressed Air System and shown on drawings H-2-62895, Sheet 2 and H-14-20308, Sheet 3. The design basis for the 241-A-702 Ventilation System Accumulator is contained in @-C-SD-@-DB-016, 241-A-702 Ventilation System Accumulator Design Basis.