1 / 30

Ralph T. Soule, Captain, US Navy, retired Division Director

Ralph T. Soule, Captain, US Navy, retired Division Director Aircraft Carrier Test, Evaluation, and Certification Naval Sea Systems Command ralph.soule@gmail.com www.ralphsoule.com. HRO Q&A Based on the Loss of THRESHER and MIAMI Fire. High Reliability from Disaster.

ludwig
Download Presentation

Ralph T. Soule, Captain, US Navy, retired Division Director

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Ralph T. Soule, Captain, US Navy, retired Division Director Aircraft Carrier Test, Evaluation, and Certification Naval Sea Systems Command ralph.soule@gmail.com www.ralphsoule.com HROQ&A Based on the Loss of THRESHER and MIAMI Fire High Reliability from Disaster DISTRIBUTION STATEMENT A: Approved for public release; distribution is unlimited.

  2. Outline Risks of Submarine Operations Risks Designers Can/Cannot Control Case Study: THRESHER Risks to Ships of Industrial Operations Firefighting Aboard Ship is Complex Case Study: MIAMI

  3. USS THRESHER (SSN-593) • Laid down, 28 May 1958, at Portsmouth Naval Shipyard, Kittery, ME. • Launched on 9 July 1960. • 13th nuclear powered attack submarine. • The first ship of its Class; leading edge of US submarine technology: • combining nuclear power with modern hull design • newly-designed equipment and components USS THRESHER launching ceremonies at the Portsmouth Naval Shipyard, Kittery, Maine, 9 July 1960. Ship was fast, quiet, and deep diving

  4. Question: What risks of normal operations can designers control? • Submerging and surfacing • Navigation under the water • Resistance to sea pressure • Fire and flooding 4

  5. Question: What risks of normal operations are beyond the designers' control? • Crew training • Compliance with procedures • Worker attitudes and responsibility • Equipment maintenance performance • What problems are worthy of attention 5

  6. Question: What risks of normal operations are beyond leaders' control? (or are they?) • How people respond to problems • How people communicate risks and problems • Supplier conformance to specifications • Shipyard conformance to specifications • Material performance under operations (does it behave the way you assumed?) 6

  7. USS THRESHER Case Study • Background • Piping systems cannot be made of single pieces, connections (joints) must be leak free • Ship is in overhaul • Other ships in the same shipyard, all competing for the same resources • Much pressure to complete the overhaul on time • 145 critical piping joints being inspected (of more than 3000) 7

  8. USS THRESHER Case Study • Problem – Some pipe joints do not meet standard • Inspections show that about 14 percent of the sea water piping joints checked require repair or replacement. 8

  9. USS THRESHER Case Study • What to do? • Inspect more joints • Disassemble joints to understand failures • Analyze which assumptions of original design were wrong and why • Change/test fabrication procedures • Report failure/unexpected results to higher authority • Inspect other ships to gather more data • Document what went wrong and what you learned 9

  10. On April 10, 1963, while engaged in a deep test dive, approximately 200 miles off the northeastern coast of the United States, the U.S.S. THRESHER (SSN-593), was lost at sea with all persons aboard - 112 naval personnel and 17 civilians. PNSY THRESHER wreckage: About 200 miles off Cape Cod in 8,400 ft of water

  11. Investigation Conclusions Flooding in the engine room Unable to securefrom flooding Spray on electrical switchboards Unable to blow ballast tanks Loss of propulsion power

  12. Navy Response: SUBSAFE and Significant Culture Change LOSS of THRESHER Overhaul/Construction SUBSAFE PROGRAM MAINTENANCE PROCESS CHANGES

  13. USS MIAMI Case StudyBackground • USS MIAMI (SSN 755) 2012 • US Navy Nuclear-powered Attack Submarine • In month 2 of a 20 month overhaul • Location: Portsmouth Naval Shipyard (PNSY), Maine • Ship was in dry dock • Crew had moved off the ship • All weapons removed • Many spaces empty of personnel • Reactor shut down EUR2013 High Reliability Conference www.ralphsoule.com

  14. Question: Risks of Submarine Overhaul? • Fire (sources?) • Flooding, sinking • Explosion • Many personnel risks • Electric shock • Falls • Dropping heavy things • Lack of breathable air EUR2013 High Reliability Conference www.ralphsoule.com

  15. If a Fire Occurred, What Makes Response Challenging? • Normal ship systems disabled • Firefighting equipment and crew removed from ship • Shipyard firefighters not familiar with ship • Many support hoses and cables complicate access • Ship compartments small • Hard to locate fire www.ralphsoule.com EUR2013 High Reliability Conference

  16. Fire Location Fire Initiation Site www.ralphsoule.com EUR2013 High Reliability Conference

  17. Fire Event • Major fire occurred in forward ship section • Date: 23 May 2012, ~1730 hrs • Duration of fire: over 10 hours • Cause: Arson • Initial Source: Combustible material • Damage: > $750M US estimate to repair, but submarine will be scrapped instead

  18. Example of Damage EUR2013 High Reliability Conference www.ralphsoule.com

  19. MIAMI Lessons Learned • Breathing air canister capacity insufficient • Too much combustible material present • Shipyard and ship’s crew had not rehearsed response sufficiently EUR2013 High Reliability Conference www.ralphsoule.com

  20. MIAMI Lessons Learned • Industrial environment complicates fire and response. • Crew firefighting equipment removed • Hull cut provided air to feed the fire • Hatches and temporary services complicated access by emergency responders • Early detection and rapid response extremely important • Fire set in remote location • Heavy black smoke confused early reports of location • Command structure inadequate for complex, extended firefighting • 20 mutual aid fire departments augmented shipyard resources • Need integrated Command structure, interoperable radios, and coordinated fire fighting strategy www.ralphsoule.com EUR2013 High Reliability Conference

  21. Questions www.ralphsoule.com EUR2013 High Reliability Conference

  22. Getting it Wrong

More Related