A New Russian Waste Management Installation

The Polyarninsky Shipyard (sometimes called Navy Yard No. 10 or the Shkval Shipyard) has been designated as the recipient for Solid Radioactive Waste (SRW) management facilities under the Arctic Military Environmental Cooperation (AMEC) Program. The existing SRW storage site at this shipyard is fill...

Full description

Bibliographic Details
Main Authors: Griffith, Andrew, Engxy, Thor, Endregard, Monica, Schwab, Patrick, Nazarian, Ashot, Krumrine, Paul, Backe, Steinar, Gorin, Stephen, Evans, Brent
Other Authors: WM Symposia, Inc. (United States)
Format: Article in Journal/Newspaper
Language:English
Published: WM Symposia, Inc. 2003
Subjects:
Particulates
Cutting Tools
Waste Processing
Waste Management
Waste Storage
Radioactive Wastes
Management
Wastes
Radiation Monitoring
12 Management Of Radioactive Wastes
And Non-Radioactive Wastes From Nuclear Facilities
Fabrication
Site Preparation
Containers
Arctic
Norway
Online Access:https://digital.library.unt.edu/ark:/67531/metadc782957/
id ftunivnotexas:info:ark/67531/metadc782957
record_format openpolar
institution Open Polar
collection University of North Texas: UNT Digital Library
op_collection_id ftunivnotexas
language English
topic Particulates
Cutting Tools
Waste Processing
Waste Management
Waste Storage
Radioactive Wastes
Management
Wastes
Radiation Monitoring
12 Management Of Radioactive Wastes
And Non-Radioactive Wastes From Nuclear Facilities
Fabrication
Site Preparation
Containers
spellingShingle Particulates
Cutting Tools
Waste Processing
Waste Management
Waste Storage
Radioactive Wastes
Management
Wastes
Radiation Monitoring
12 Management Of Radioactive Wastes
And Non-Radioactive Wastes From Nuclear Facilities
Fabrication
Site Preparation
Containers
Griffith, Andrew
Engxy, Thor
Endregard, Monica
Schwab, Patrick
Nazarian, Ashot
Krumrine, Paul
Backe, Steinar
Gorin, Stephen
Evans, Brent
A New Russian Waste Management Installation
topic_facet Particulates
Cutting Tools
Waste Processing
Waste Management
Waste Storage
Radioactive Wastes
Management
Wastes
Radiation Monitoring
12 Management Of Radioactive Wastes
And Non-Radioactive Wastes From Nuclear Facilities
Fabrication
Site Preparation
Containers
description The Polyarninsky Shipyard (sometimes called Navy Yard No. 10 or the Shkval Shipyard) has been designated as the recipient for Solid Radioactive Waste (SRW) management facilities under the Arctic Military Environmental Cooperation (AMEC) Program. The existing SRW storage site at this shipyard is filled to capacity, which is forcing the shipyard to reduce its submarine dismantlement activities. The Polyarninsky Shipyard Waste Management Installation is planned as a combination of several AMEC projects. It will have several elements, including a set of hydraulic metal cutting tools, containers for transport and storage, the Mobile Pretreatment Facility (MPF) for Solid Radioactive Waste, the PICASSO system for radiation monitoring, and a Waste Storage Facility. Hydraulically operated cutting tools can cut many metal items via shearing so that dusts or particulates are not generated. The AMEC Program procured a cutting tool system, consisting of a motor and hydraulic pumping unit, a 38-mm conduit-cutting tool, a 100- mm pipe-cutting tool, and a spreading tool all mounted on a wheeled cart. The vendor modified the tool system for extremely cold conditions and Russian electrical standards, then delivered the tool system to the Polyarninsky shipyard. A new container for transportation and storage of SRW and been designed and fabricated. The first 400 of these containers have been delivered to the Northern Fleet of the Russian Navy for use at the Polyarninsky Shipyard Waste Management Installation. These containers are cylindrical in shape and can hold seven standard 200-liter drums. They are the first containers ever certified in Russia for the offsite transport of military SRW. These containers can be transported by truck, rail, barge, or ship. The MPF will be the focal point of the Polyarninsky Shipyard Waste Management Installation and a key element in meeting the nuclear submarine dismantlement and waste processing needs of the Russian Federation. It will receive raw waste in various conditions, treat it, package it in standard 200-liter drums, and load these drums into the new transportation and storage containers. The MPF has been designed, fabricated, and assembled at the fabrication site, the Zvezdochka Shipyard. It passed a demonstration test in September 2002. The entire MPF has been disassembled into its transportable modules, which are currently stored at the Zvezdochka Shipyard. In the spring of 2003, the MPF modules will be transported to the Polyarninsky Shipyard, where they will be reassembled and the facility will be cold tested. The site preparation work is already under way for the installation at the Polyarninsky Shipyard. An automatic radiation monitoring system, PICASSO-AMEC, has been developed and will be installed at Polyarninsky Shipyard as one of the elements of the installation. The radiation monitoring system is based on the software package PICASSO-3, developed by the Institute for Energy Technology in Norway. Treated waste f rom the MPF will require safe and secure storage. The Waste Storage Facility will be connected to the MPF, and it will be large enough to store all 400 of the new containers. Incoming waste boxes in overpacks will enter one part of the storage facility on trucks. Then they will be inspected and transferred into the MPF through the receiving area. Drums of processed waste in containers will be removed from the MPF and stacked in another part of the storage facility via a bridge crane. This facility will be designed and construction will begin during the winter of 2002/2003.
author2 WM Symposia, Inc. (United States)
format Article in Journal/Newspaper
author Griffith, Andrew
Engxy, Thor
Endregard, Monica
Schwab, Patrick
Nazarian, Ashot
Krumrine, Paul
Backe, Steinar
Gorin, Stephen
Evans, Brent
author_facet Griffith, Andrew
Engxy, Thor
Endregard, Monica
Schwab, Patrick
Nazarian, Ashot
Krumrine, Paul
Backe, Steinar
Gorin, Stephen
Evans, Brent
author_sort Griffith, Andrew
title A New Russian Waste Management Installation
title_short A New Russian Waste Management Installation
title_full A New Russian Waste Management Installation
title_fullStr A New Russian Waste Management Installation
title_full_unstemmed A New Russian Waste Management Installation
title_sort new russian waste management installation
publisher WM Symposia, Inc.
publishDate 2003
url https://digital.library.unt.edu/ark:/67531/metadc782957/
geographic Arctic
Norway
geographic_facet Arctic
Norway
genre Arctic
genre_facet Arctic
op_source Waste Management 2003 Symposium, Tucson, AZ (US), 02/23/2003--02/27/2003
op_relation osti: 825674
https://digital.library.unt.edu/ark:/67531/metadc782957/
ark: ark:/67531/metadc782957
_version_ 1766350305412251648
spelling ftunivnotexas:info:ark/67531/metadc782957 2023-05-15T15:20:05+02:00 A New Russian Waste Management Installation Griffith, Andrew Engxy, Thor Endregard, Monica Schwab, Patrick Nazarian, Ashot Krumrine, Paul Backe, Steinar Gorin, Stephen Evans, Brent WM Symposia, Inc. (United States) 2003-02-27 14 pages Text https://digital.library.unt.edu/ark:/67531/metadc782957/ English eng WM Symposia, Inc. United States. Department of Energy. Norway. Forsvarets forskningsinstitutt. Science Applications International Corporation Worldwide Performance & Innovation, Germantown, MD (United States) Institutt for energiteknikk Los Alamos Technical Associates, Inc., Golden, CO (United States) osti: 825674 https://digital.library.unt.edu/ark:/67531/metadc782957/ ark: ark:/67531/metadc782957 Waste Management 2003 Symposium, Tucson, AZ (US), 02/23/2003--02/27/2003 Particulates Cutting Tools Waste Processing Waste Management Waste Storage Radioactive Wastes Management Wastes Radiation Monitoring 12 Management Of Radioactive Wastes And Non-Radioactive Wastes From Nuclear Facilities Fabrication Site Preparation Containers Article 2003 ftunivnotexas 2019-06-29T22:08:15Z The Polyarninsky Shipyard (sometimes called Navy Yard No. 10 or the Shkval Shipyard) has been designated as the recipient for Solid Radioactive Waste (SRW) management facilities under the Arctic Military Environmental Cooperation (AMEC) Program. The existing SRW storage site at this shipyard is filled to capacity, which is forcing the shipyard to reduce its submarine dismantlement activities. The Polyarninsky Shipyard Waste Management Installation is planned as a combination of several AMEC projects. It will have several elements, including a set of hydraulic metal cutting tools, containers for transport and storage, the Mobile Pretreatment Facility (MPF) for Solid Radioactive Waste, the PICASSO system for radiation monitoring, and a Waste Storage Facility. Hydraulically operated cutting tools can cut many metal items via shearing so that dusts or particulates are not generated. The AMEC Program procured a cutting tool system, consisting of a motor and hydraulic pumping unit, a 38-mm conduit-cutting tool, a 100- mm pipe-cutting tool, and a spreading tool all mounted on a wheeled cart. The vendor modified the tool system for extremely cold conditions and Russian electrical standards, then delivered the tool system to the Polyarninsky shipyard. A new container for transportation and storage of SRW and been designed and fabricated. The first 400 of these containers have been delivered to the Northern Fleet of the Russian Navy for use at the Polyarninsky Shipyard Waste Management Installation. These containers are cylindrical in shape and can hold seven standard 200-liter drums. They are the first containers ever certified in Russia for the offsite transport of military SRW. These containers can be transported by truck, rail, barge, or ship. The MPF will be the focal point of the Polyarninsky Shipyard Waste Management Installation and a key element in meeting the nuclear submarine dismantlement and waste processing needs of the Russian Federation. It will receive raw waste in various conditions, treat it, package it in standard 200-liter drums, and load these drums into the new transportation and storage containers. The MPF has been designed, fabricated, and assembled at the fabrication site, the Zvezdochka Shipyard. It passed a demonstration test in September 2002. The entire MPF has been disassembled into its transportable modules, which are currently stored at the Zvezdochka Shipyard. In the spring of 2003, the MPF modules will be transported to the Polyarninsky Shipyard, where they will be reassembled and the facility will be cold tested. The site preparation work is already under way for the installation at the Polyarninsky Shipyard. An automatic radiation monitoring system, PICASSO-AMEC, has been developed and will be installed at Polyarninsky Shipyard as one of the elements of the installation. The radiation monitoring system is based on the software package PICASSO-3, developed by the Institute for Energy Technology in Norway. Treated waste f rom the MPF will require safe and secure storage. The Waste Storage Facility will be connected to the MPF, and it will be large enough to store all 400 of the new containers. Incoming waste boxes in overpacks will enter one part of the storage facility on trucks. Then they will be inspected and transferred into the MPF through the receiving area. Drums of processed waste in containers will be removed from the MPF and stacked in another part of the storage facility via a bridge crane. This facility will be designed and construction will begin during the winter of 2002/2003. Article in Journal/Newspaper Arctic University of North Texas: UNT Digital Library Arctic Norway

Similar Items