Publications

Kalinina, Elena A.; Saltzstein, Sylvia J.; Ammerman, Douglas J.; Klymyshyn, Nickolas K.

Abstract not provided.

Kalinina, Elena A.; Gordon, Natalie G.; Ammerman, Douglas J.; Uncapher, William L.; Saltzstein, Sylvia J.; Wright, Catherine W.

Abstract not provided.

Kalinina, Elena A.; Gordon, Natalie G.; Ammerman, Douglas J.; Saltzstein, Sylvia J.

Abstract not provided.

Saltzstein, Sylvia J.; Ammerman, Douglas J.; Kalinina, Elena A.

Abstract not provided.

Mendoza, Hector M.; Figueroa Faria, Victor G.; Gill, Walt; Ammerman, Douglas J.; Sanborn, Scott E.

The Pipe Overpack Container (POC) was developed at Rocky Flats to transport plutonium residues with higher levels of plutonium than standard transuranic (TRU) waste to the Waste Isolation Pilot Plant (WIPP) for disposal. In 1996 Sandia National Laboratories (SNL) conducted a series of tests to determine the degree of protection POCs provided during storage accident events. One of these tests exposed four of the POCs to a 30-minute engulfing pool fire, resulting in one of the 7A drum overpacks generating sufficient internal pressure to pop off its lid and expose the top of the pipe container (PC) to the fire environment. The initial contents of the POCs were inert materials, which would not generate large internal pressure within the PC if heated. However, POCs are now being used to store combustible Transuranic (TRU) waste at Department of Energy (DOE) sites. At the request of DOE's Office of Environmental Management (EM) and National Nuclear Security Administration (NNSA), SNL started conducting a new series of fire tests in 2015 to examine whether PCs with combustibles would reach a temperature that would result in (1) decomposition of inner contents and (2) subsequent generation of sufficient gas to cause the PC to overpressurize and release its inner content. In 2016, Phase II tests showed that POCs tested in a pool fire failed within 3 minutes of ignition with the POC lid ejecting. These POC lids were fitted with an all-metal (NUCFIL019DS) filter and revealed that this specific filter did not relieve sufficient pressure to prevent lid ejection. For the test phase discussed in this report, Phase II-A, the POCs are exposed to a 30-minute pool fire, with similar configurations to those tested in Phase II, except that the POC lids are fitted with a hybrid metal-polyethylene (UT9424S) filter instead. This report will: describe the various tests conducted in Phase II-A, present results from these tests, and discuss implications for the POCs based on the test results.

Saltzstein, Sylvia J.; Ammerman, Douglas J.; Kalinina, Elena A.

Abstract not provided.

Saltzstein, Sylvia J.; Ammerman, Douglas J.; Kalinina, Elena A.

Abstract not provided.

Kalinina, Elena A.; Gordon, Natalie G.; Ammerman, Douglas J.; Uncapher, William L.; Saltzstein, Sylvia J.; Wright, Catherine W.; Wright, Catherine W.

Abstract not provided.

Figueroa Faria, Victor G.; Ammerman, Douglas J.; Lopez Mestre, Carlos L.; Gill, Walt

The Pipe Overpack Container (POC) was developed at Rocky Flats to transport plutonium residues with higher levels of plutonium than standard transuranic (TRU) waste to the Waste Isolation Pilot Plant (WIPP) for disposal. In 1996 Sandia National Laboratories (SNL) conducted a series of tests to determine the degree of protection POCs provided during storage accident events. One of these tests exposed four of the POCs to a 30-minute engulfing pool fire, resulting in one of the 7A drum overpacks generating sufficient internal pressure to pop off its lid and expose the top of the pipe container (PC) to the fire environment. The initial contents of the POCs were inert materials, which would not generate large internal pressure within the PC if heated. POCs are now being used to store combustible TRU waste at Department of Energy (DOE) sites. At the request of DOE’s Office of Environmental Management (EM) and National Nuclear Security Administration (NNSA), starting in 2015 SNL conducted a series of fire tests to examine whether PCs with combustibles would reach a temperature that would result in (1) decomposition of inner contents and (2) subsequent generation of sufficient gas to cause the PC to over-pressurize and release its inner content. Tests conducted during 2015 and 2016 were done in three phases. The goal of the first phase was to see if the PC would reach high enough temperatures to decompose typical combustible materials inside the PC. The goal of the second test phase was to determine under what heating loads (i.e., incident heat fluxes) the 7A drum lid pops off from the POC drum. The goal of the third phase was to see if surrogate aerosol gets released from the PC when the drum lid is off. This report will describe the various tests conducted in phase I, II, and III, present preliminary results from these tests, and discuss implications for the POCs.

McConnell, Paul E.; Ross, Steven B.; Grey, Carissa A.; Uncapher, William L.; Arviso, Michael A.; Garmendia, Rafael Glez.; Fernandez Perez, Ismael F.; Palacio, Alejandro P.; Calleja, Guillermo C.; Garrido, David G.; Rodriguez Casas, Ana R.; Gonzalez Garcia, Luis G.; Chilton, Lyman W.; Ammerman, Douglas J.; Walz, Jacob W.; Gershon, Sabina G.; Saltzstein, Sylvia J.; Sorenson, Ken S.; Klymyshyn, Nicholas K.; Hanson, Brady D.; Pena, Ruben P.; Walker, Russell W.

This report describes tests conducted using a full-size rail cask, the ENSA ENUN 32P, involving handling of the cask and transport of the cask via truck, ships, and rail. The purpose of the tests was to measure strains and accelerations on surrogate pressurized water reactor fuel rods when the fuel assemblies were subjected to Normal Conditions of Transport within the rail cask. In addition, accelerations were measured on the transport platform, the cask cradle, the cask, and the basket within the cask holding the assemblies. These tests were an international collaboration that included Equipos Nucleares S.A., Sandia National Laboratories, Pacific Northwest National Laboratory, Coordinadora Internacional de Cargas S.A., the Transportation Technology Center, Inc., the Korea Radioactive Waste Agency, and the Korea Atomic Energy Research Institute. All test results in this report are PRELIMINARY – complete analyses of test data will be completed and reported in FY18. However, preliminarily: The strains were exceedingly low on the surrogate fuel rods during the rail-cask tests for all the transport and handling modes. The test results provide a compelling technical basis for the safe transport of spent fuel.

Figueroa Faria, Victor G.; Ammerman, Douglas J.; Lopez Mestre, Carlos L.; Gill, Walt

The Pipe Overpack Container (POC) was developed at Rocky Flats to transport plutonium residues with higher levels of plutonium than standard transuranic (TRU) waste to the Waste Isolation Pilot Plant (WIPP) for disposal. In 1996 Sandia National Laboratories (SNL) conducted a series of tests to determine the degree of protection POCs provided during storage accident events. One of these tests exposed four of the POCs to a 30-minute engulfing pool fire, resulting in one of the 7A drum overpacks generating sufficient internal pressure to pop off its lid and expose the top of the pipe container (PC) to the fire environment. The initial contents of the POCs were inert materials, which would not generate large internal pressure within the PC if heated. However, POCs are now being used to store combustible TRU waste at Department of Energy (DOE) sites. At the request of DOE’s Office of Environmental Management (EM) and National Nuclear Security Administration (NNSA), starting in 2015 SNL conducted a new series of fire tests to examine whether PCs with combustibles would reach a temperature that would result in (1) decomposition of inner contents and (2) subsequent generation of sufficient gas to cause the PC to over-pressurize and release its inner content. Tests conducted during 2015 and 2016, and described herein, were done in two phases. The goal of the first phase was to see if the PC would reach high enough temperatures to decompose typical combustible materials inside the PC. The goal of the second test phase was to determine under what heating loads (i.e., incident heat fluxes) the 7A drum lid pops off from the POC drum. This report will describe the various tests conducted in phase I and II, present preliminary results from these tests, and discuss implications for the POCs.

Lopez Mestre, Carlos L.; Figueroa Faria, Victor G.; Gill, Walt; Ammerman, Douglas J.; Nelson, Robert C.; O'Neil, James E.

Abstract not provided.

Ammerman, Douglas J.

Abstract not provided.

Bignell, John B.; Flores, Gregg J.; Ammerman, Douglas J.

Abstract not provided.

Ammerman, Douglas J.

Abstract not provided.

Ammerman, Douglas J.; Sanborn, Scott E.; Bignell, John B.

Abstract not provided.

Lopez Mestre, Carlos L.; Figueroa Faria, Victor G.; Gill, Walt; Ammerman, Douglas J.; Nelson, Robert C.; O'Neil, James E.

Abstract not provided.

Bignell, John B.; Ammerman, Douglas J.; Flores, Gregg J.

Abstract not provided.

Ammerman, Douglas J.; Lopez Mestre, Carlos L.

Abstract not provided.

McConnell, Paul E.; Sorenson, Ken B.; Saltzstein, Sylvia J.; Ammerman, Douglas J.; Ross, Steven B.; Hanson, Brady D.; Klymyshyn, Nick K.; Jensen, Phil J.; England, Jeff E.

Abstract not provided.

Ammerman, Douglas J.

Abstract not provided.

Lopez Mestre, Carlos L.; Ammerman, Douglas J.; Mays, Leann L.

Abstract not provided.

Ammerman, Douglas J.

Abstract not provided.

Ammerman, Douglas J.

Abstract not provided.

Ammerman, Douglas J.

Abstract not provided.