Human factors analysis of U.S. Navy afloat hazardous material mishaps/ Matthew W. Hildebrandt.

Personnel aboard U.S. Naval vessels face risk of occupational injury and illness. A substantial part of that risk involves incidents, or cases of exposure to hazardous materials (HAZMAT). Due to the nature of this type of risk, there are many opportunities to improve safety and readiness and to redu...

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Main Author: Hildebrandt, Matthew W.
Other Authors: Schmidt, John K.
Language:en_US
Published: Monterey, California. Naval Postgraduate School 2012
Online Access:http://handle.dtic.mil/100.2/ADA379552
http://hdl.handle.net/10945/9274
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spelling ndltd-nps.edu-oai-calhoun.nps.edu-10945-92742014-11-27T16:08:13Z Human factors analysis of U.S. Navy afloat hazardous material mishaps/ Matthew W. Hildebrandt. Hildebrandt, Matthew W. Schmidt, John K. Naval Postgraduate School (U.S.) Personnel aboard U.S. Naval vessels face risk of occupational injury and illness. A substantial part of that risk involves incidents, or cases of exposure to hazardous materials (HAZMAT). Due to the nature of this type of risk, there are many opportunities to improve safety and readiness and to reduce the number of workdays lost to injury. For the period from CY94 - CY98 there are 627 HAZMAT mishaps involving 820 personnel onboard U. S. Navy surface ships. HAZMAT root causal factors are identified through the evaluation of Special Case Mishap Reports maintained by the Naval Safety Center. 89% of these mishaps are attributable to human error. Failure to use personal protective equipment (30. 0%) and failure to recognize a hazardous situation (24.6%) are the primary reasons given for the mishaps. Comparisons are made between HAZMAT, electrical shock and back injury mishaps. While minor differences exist between these types of mishaps, overall there are many commonalities that may be observed. Most are relatively minor as classified by severity, occur aboard Carriers, and involve personnel in the E-3 to E-5 rank range. 2012-08-09T19:28:17Z 2012-08-09T19:28:17Z 2000-06 Thesis http://handle.dtic.mil/100.2/ADA379552 http://hdl.handle.net/10945/9274 en_US Approved for public release, distribution unlimited. Monterey, California. Naval Postgraduate School
collection NDLTD
language en_US
sources NDLTD
description Personnel aboard U.S. Naval vessels face risk of occupational injury and illness. A substantial part of that risk involves incidents, or cases of exposure to hazardous materials (HAZMAT). Due to the nature of this type of risk, there are many opportunities to improve safety and readiness and to reduce the number of workdays lost to injury. For the period from CY94 - CY98 there are 627 HAZMAT mishaps involving 820 personnel onboard U. S. Navy surface ships. HAZMAT root causal factors are identified through the evaluation of Special Case Mishap Reports maintained by the Naval Safety Center. 89% of these mishaps are attributable to human error. Failure to use personal protective equipment (30. 0%) and failure to recognize a hazardous situation (24.6%) are the primary reasons given for the mishaps. Comparisons are made between HAZMAT, electrical shock and back injury mishaps. While minor differences exist between these types of mishaps, overall there are many commonalities that may be observed. Most are relatively minor as classified by severity, occur aboard Carriers, and involve personnel in the E-3 to E-5 rank range.
author2 Schmidt, John K.
author_facet Schmidt, John K.
Hildebrandt, Matthew W.
author Hildebrandt, Matthew W.
spellingShingle Hildebrandt, Matthew W.
Human factors analysis of U.S. Navy afloat hazardous material mishaps/ Matthew W. Hildebrandt.
author_sort Hildebrandt, Matthew W.
title Human factors analysis of U.S. Navy afloat hazardous material mishaps/ Matthew W. Hildebrandt.
title_short Human factors analysis of U.S. Navy afloat hazardous material mishaps/ Matthew W. Hildebrandt.
title_full Human factors analysis of U.S. Navy afloat hazardous material mishaps/ Matthew W. Hildebrandt.
title_fullStr Human factors analysis of U.S. Navy afloat hazardous material mishaps/ Matthew W. Hildebrandt.
title_full_unstemmed Human factors analysis of U.S. Navy afloat hazardous material mishaps/ Matthew W. Hildebrandt.
title_sort human factors analysis of u.s. navy afloat hazardous material mishaps/ matthew w. hildebrandt.
publisher Monterey, California. Naval Postgraduate School
publishDate 2012
url http://handle.dtic.mil/100.2/ADA379552
http://hdl.handle.net/10945/9274
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