Effects of the Deletion of
Chemical Agent Washout on Operations at the
Blue Grass Chemical Agent Destruction Pilot Plant
Committee on Effects of the Deletion of Chemical Agent Washout
on Operations at the Blue Grass Chemical Agent Destruction Pilot Plant
Board on Army Science and Technology
Division on Engineering and Physical Sciences
THE NATIONAL ACADEMIES PRESS
Washington, DC
www.nap.edu
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This activity was supported by Contract No. W911NF-15-1-0465 with the U.S. Department of Defense. Any opinions, findings, conclusions, or recommendations expressed in this publication do not necessarily reflect the views of any organization or agency that provided support for the project.
International Standard Book Number-13: 978-0-309-38948-8
International Standard Book Number-10: 0-309-38948-8
Digital Object Identifier: 10.17226/21884
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Suggested citation: National Academies of Sciences, Engineering, and Medicine. 2016. Effects of the Deletion of Chemical Agent Washout on Operations at the Blue Grass Chemical Agent Destruction Pilot Plant. Washington, DC: The National Academies Press. doi:10.17226/21884.
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COMMITTEE ON EFFECTS OF THE DELETION OF CHEMICAL AGENT WASHOUT ON OPERATIONS AT THE BLUE GRASS CHEMICAL AGENT DESTRUCTION PILOT PLANT
GARY S. GROENEWOLD, Idaho National Laboratory, Idaho Falls, Chair
HEREK L. CLACK, University of Michigan, Ann Arbor
RICHARD C. FLAGAN, NAE,1 California Institute of Technology, Pasadena
REBECCA A. HAFFENDEN, Argonne National Laboratory, Santa Fe, New Mexico
THOM J. HODGSON, NAE, North Carolina State University, Raleigh, North Carolina
MURRAY GLENN LORD, The Dow Chemical Company, Freeport, Texas
WILLIAM J. WARD, NAE, GE Corporate Research and Development (retired), Niskayuna, New York
Staff
BRUCE BRAUN, Director, Board on Army Science and Technology
JAMES C. MYSKA, Study Director
NIA D. JOHNSON, Senior Research Associate
DEANNA SPARGER, Program Administrative Coordinator
___________________
1 Member of the National Academy of Engineering.
BOARD ON ARMY SCIENCE AND TECHNOLOGY
DAVID M. MADDOX, NAE,1 Independent Consultant, Arlington, Virginia, Chair
JEAN D. REED, National Defense University, Arlington, Virginia, Vice Chair
SCOTT BADENOCH, Badenoch, LLC, Southfield, Michigan
STEVEN W. BOUTELLE, CISCO Consulting Services, Herndon, Virginia
CARL A. CASTRO, Center for Innovation and Research and Military Families, University of Southern California, Los Angeles
DAVID E. CROW, NAE, University of Connecticut, Glastonbury
REGINALD DESROCHES, Georgia Institute of Technology, Atlanta
EARL H. DOWELL, NAE, Duke University, Durham, North Carolina
FRANCIS J. DOYLE III, Harvard University, Cambridge, Massachusetts
JULIA D. ERDLEY, Pennsylvania State University, State College
LESTER A. FOSTER, Electronic Warfare Associates, Herndon, Virginia
JAMES A. FREEBERSYSER, BBN Technology, St. Louis Park, Minnesota
PETER N. FULLER, Cypress International, Springfield, Virginia
R. JOHN HANSMAN, NAE, Massachusetts Institute of Technology, Cambridge
J. SEAN HUMBERT, University of Colorado, Boulder
JOHN W. HUTCHINSON, NAE/NAS,2 Harvard University, Cambridge, Massachusetts
JENNIE HWANG, NAE, H-Technologies Group, Cleveland, Ohio
BRUCE D. JETTE, Synovision Solutions, LLC, Burke, Virginia
JOHN JOANNOPOULOS, NAS, Massachusetts Institute of Technology, Cambridge
ROBIN L. KEESEE, Joint Improvised Explosive Device Defeat Organization (retired), Fairfax, Virginia
ERIC T. MATSON, Purdue University, West Lafayette, Indiana
ROGER L. McCARTHY, NAE, McCarthy Engineering, Palo Alto, California
MICHAEL McGRATH, McGrath Analytics, LLC, Reston, Virginia
ALLAN T. MENSE, Raytheon Missile Systems, Tucson, Arizona
WALTER F. MORRISON, Booz Allen Hamilton (retired), Alexandria, Virginia
SCOTT PARAZYNSKI, Arizon State University, Tempe
DANIEL PODOLSKY, NAE, University of Texas Southwestern Medical Center, Dallas
KENNETH M. ROSEN, General Aero-Science Consultants, LLC, Guilford, Connecticut
LEON E. SALOMON, Independent Consultant, Gulfport, Florida
ALBERT A. SCIARRETTA, CNS Technologies, Inc., Springfield, Virginia
NEIL SIEGEL, NAE, North Grumman Information Systems, Carson, California
LAWRENCE D. STONE, NAE, Metron, Inc., Reston, Virginia
MICHAEL A. VANE, Independent Consultant, Shaver Lake, California
Staff
BRUCE A. BRAUN, Director
CHRIS JONES, Financial Associate
JAMES C. MYSKA, Program Officer
NIA D. JOHNSON, Senior Research Associate
DEANNA P. SPARGER, Program Administrative Coordinator
___________________
1 Member of the National Academy of Engineering.
2 Member of the National Academy of Sciences.
Preface
The Blue Grass Chemical Agent Destruction Pilot Plant (BGCAPP) was designed and constructed at the Blue Grass Army Depot in Richmond, Kentucky, for the purpose of destroying rockets and artillery projectiles that contain the nerve agents GB and VX. These nerve agents are chemical warfare agents, and the United States is obligated by the Chemical Weapons Convention treaty to destroy them. BGCAPP is a chemical processing plant specifically designed to access munition cavities and drain liquid agents. Agent remaining in the munitions was originally to have been washed out using a stream of hot, high-pressure water. The agent and washout water were to have been combined and then reacted with sodium hydroxide, which chemically degrades the nerve agents. In addition to treating the agent, the BGCAPP also processes other multiple solid, liquid, and gaseous waste streams.
The mixtures of the agents with washout water generated by the initial drain-water washout process had the potential to create problems that would degrade the safety of operations and compromise the materials used in the agent transfer lines. Consequently, BGCAPP program management decided that these problems could be mitigated by eliminating the water washout process. This decision resulted in munitions bodies containing significant residual agent on surfaces or in crevices being sent into some BGCAPP processes that, in some instances, were not originally designed for agent destruction; and in others, resulted in higher agent loads than originally intended.
This report describes possible outcomes of the deletion of the water washout process that are related to the partitioning of agent into multiple processing streams within BGCAPP. These outcomes include the necessity of some processing units treating more agent than was initially planned, impacts on BGCAPP’s ability to meet and demonstrate achieving legally required destruction efficiency criteria, and impacts on process modeling and the ability to computationally predict munitions throughput and completion dates for munitions destruction campaigns.
I am very thankful for the members of the Committee on Effects of the Deletion of Chemical Agent Washout on Operations at the Blue Grass Chemical Agent Destruction Pilot Plant, who served in a volunteer capacity but nevertheless were exceptionally generous with their expertise and time. They attended briefings at BGCAPP and two writing meetings at the National Academies of Sciences, Engineering, and Medicine facilities in Washington, D.C.
The committee is indebted to the BGCAPP staff, being the beneficiary of extensive briefings and literature that they provided. The BGCAPP staff members were remarkable in their patience and energy as they responded to repeated requests for information. They displayed a high level of expertise throughout the course of this study.
The committee is also grateful for the support of the Academies staff, particularly Deanna Sparger, Nia Johnson, Jim Myska, and Bruce Braun. Their attention to logistical detail and the long-running familiarity with the BGCAPP endeavor was significant and highly appreciated over the course of this study.
Gary S. Groenewold, Chair
Committee on Effects of the
Deletion of Chemical Agent Washout on
Operations at the Blue Grass Chemical
Agent Destruction Pilot Plant
Acknowledgments
This report has been reviewed in draft form by individuals chosen for their diverse perspectives and technical expertise, in accordance with procedures approved by the Report Review Committee. The purpose of this independent review is to provide candid and critical comments that will assist the institution in making its published report as sound as possible and to ensure that the report meets institutional standards for objectivity, evidence, and responsiveness to the study charge. The review comments and draft manuscript remain confidential to protect the integrity of the deliberative process. We wish to thank the following individuals for their review of this report:
Edward L. Cussler, Jr., University of Minnesota, Minneapolis,
Jaron Hansen, Brigham Young University,
Todd Kimmell, Argonne National Laboratory,
Ronald Kolpa, Argonne National Laboratory,
Arturo Lopez, The Dow Chemical Company,
Trisha H. Miller, Sandia National Laboratories, and
Julius Rebek, Jr., The Scripps Research Institute.
Although the reviewers listed above have provided many constructive comments and suggestions, they were not asked to endorse the conclusions or recommendations nor did they see the final draft of the report before its release. The review of this report was overseen by Hyla S. Napadensky, Napadensky Energetics Inc. (retired), who was responsible for making certain that an independent examination of this report was carried out in accordance with institutional procedures and that all review comments were carefully considered. Responsibility for the final content of this report rests entirely with the authoring committee and the institution.
Contents
Concerns Related to the Operation of the Plant as Originally Designed
Washout Deletion Modifications
Approach to the Statement of Task and Organization of the Report
2 PLANT PROCESS CHANGES AS A RESULT OF WASHOUT DELETION
Rocket and Projectile Drain Operations
MPT and Plant Off-Gas Treatment System (OTM)
EBH and Off-Gas Treatment System for the Energetics Neutralization System (OTE)
Impacts on the Overall MDB HVAC System
3 IMPACTS ON CALCULATION OF DESTRUCTION EFFICIENCY
Current Regulatory Requirements for Destruction Efficiency
Current Approach to Calculating Destruction Efficiency (Approach 1)
Impact of Washout Deletion on the Calculation of Destruction Efficiency
Agent Partitioning to the EBH and ENS Units
Agent Partitioning to the MPT and OTM Units
Alternative Approaches to Calculating Destruction Efficiency (Approaches 2 and 3)
Calculation of Destruction Efficiency Under Approach 2
Calculation of Destruction Efficiency Under Approach 3
Measurements Required for Verifying Destruction Efficiency Requirements
4 PROCESS MODELING IN SUPPORT OF WASHOUT DELETION
Filter Sock Change-Out Frequency
Figures and Table
FIGURES
1-1 Block diagram showing the processing units and the flow of products at BGCAPP
2-1 Agent transfer system block diagram
2-2 Worst-case GB scenario with venting to room
3-1 Process flow diagram for destruction efficiency calculation under Approaches 1, 2, and 3
TABLE
3-1 Summary of Approaches to Calculating Destruction Efficiency (DE)
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Abbreviations and Acronyms
ACS | agent collection system |
AFS | aluminum filtration system |
ANR | agent neutralization reactor |
ANS | agent neutralization system |
APS | aluminum precipitation system |
ATT | agent transfer tank |
BGAD | Blue Grass Army Depot |
BGCAPP | Blue Grass Chemical Agent Destruction Pilot Plant |
BPBG | Bechtel Parsons Blue Grass |
BPT | Bechtel Pueblo Team |
CWC | Chemical Weapons Convention |
DE | destruction efficiency |
EBH | energetics batch hydrolyzer |
ENR | energetics neutralization reactor |
ENS | energetics neutralization system |
FOAK | first-of-a-kind |
GB | nerve agent (sarin) |
HF | hydrofluoric acid or hydrogen fluoride |
HSA | hydrolysate storage area |
HVAC | heating, ventilation, and air conditioning |
KAR | Kentucky Administrative Regulations |
KDEP | Kentucky Department for Environmental Protection |
KRS | Kentucky Revised Statutes |
LT | level transmitter |
MDB | munitions demilitarization building |
MPT | metal parts treater |
MWS | munitions washout system |
OTE | EBH off-gas treatment system |
OTM | off-gas treatment system |
PEO ACWA | Program Executive Office, Assembled Chemical Weapons Alternatives |
PHS | projectile handling system |
ppb | parts per billion |
RCM | rocket cutting machine |
RCRA | Resource Conservation and Recovery Act |
RD&D | Research, Development, and Demonstration |
RHA | residue handling area |
RHS | rocket handling system |
RO | reverse osmosis |
RSM | rocket shear machine |
SCWO | supercritical water oxidation |
SDS | spent decontamination solution |
TOX | thermal oxidizer |
VX | nerve agent |
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