JP-8

Jump to navigation Jump to search

WikiDoc Resources for JP-8

Articles

Most recent articles on JP-8

Most cited articles on JP-8

Review articles on JP-8

Articles on JP-8 in N Eng J Med, Lancet, BMJ

Media

Powerpoint slides on JP-8

Images of JP-8

Photos of JP-8

Podcasts & MP3s on JP-8

Videos on JP-8

Evidence Based Medicine

Cochrane Collaboration on JP-8

Bandolier on JP-8

TRIP on JP-8

Clinical Trials

Ongoing Trials on JP-8 at Clinical Trials.gov

Trial results on JP-8

Clinical Trials on JP-8 at Google

Guidelines / Policies / Govt

US National Guidelines Clearinghouse on JP-8

NICE Guidance on JP-8

NHS PRODIGY Guidance

FDA on JP-8

CDC on JP-8

Books

Books on JP-8

News

JP-8 in the news

Be alerted to news on JP-8

News trends on JP-8

Commentary

Blogs on JP-8

Definitions

Definitions of JP-8

Patient Resources / Community

Patient resources on JP-8

Discussion groups on JP-8

Patient Handouts on JP-8

Directions to Hospitals Treating JP-8

Risk calculators and risk factors for JP-8

Healthcare Provider Resources

Symptoms of JP-8

Causes & Risk Factors for JP-8

Diagnostic studies for JP-8

Treatment of JP-8

Continuing Medical Education (CME)

CME Programs on JP-8

International

JP-8 en Espanol

JP-8 en Francais

Business

JP-8 in the Marketplace

Patents on JP-8

Experimental / Informatics

List of terms related to JP-8

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

JP-8, or JP8 (for "Jet Propellant 8") is a jet fuel, specified and used widely by the US military. It is specified by MIL-DTL-83133 and British Defence Standard 91-87, and similar to commercial aviation's Jet-A.

A kerosene-based fuel, JP-8 is projected to remain in use at least until 2025. It was first introduced at NATO bases in 1978. Its NATO code is F-34.

Usage

It was specified in 1990 by the U.S. government as a replacement for government diesel fueled vehicles.

The U.S. Air Force replaced JP-4 with JP-8 completely by the fall of 1996, to use a less flammable, less hazardous fuel for better safety and combat survivability.

The U.S. Navy uses a similar formula, JP-5. JP-5 has an even higher flash point of > 60 °C (140 °F), but also a higher cost, limiting its use to aircraft carriers and other situations where the danger of fire is greatest.

Outside of powering aircraft, JP-8 is used as a fuel for heaters, stoves,[1] tanks,[2] by the U.S. military as a replacement for diesel fuel in the engines of nearly all tactical ground vehicles and electrical generators, and as a coolant in engines and some other aircraft components. The use of a single fuel greatly simplifies logistics.

JP-8 is formulated with icing inhibitor, corrosion inhibitors, lubricants, and antistatic agents, and less benzene (a carcinogen) and less n-hexane (a neurotoxin) than JP-4. However, it also smells stronger than JP-4. JP-8 has an oily feel to the touch, while JP-4 feels more like a solvent.

Problems

When used in highly supercharged diesel engines with the corresponding low compression ratio of about only 14:1 or below, JP-8 causes troubles during cold start and idling due to low compression temperatures and following ignition delay because cetane index is not specified in MIL-DTL-83133G to 40 or higher. Because lubricity to the BOCLE method is not specified in MIL-DTL-83133G, modern common rail diesel engines can experience wear problems in high pressure fuel pumps and injectors. Another problem in diesel engines can be the increased wear in outlet valve seats in the cylinder heads, because a minimum content of sulfur is not specified in MIL-DTL-83133G. Sulfur in fuels contributes normally to build up damping soot layers in these valve seats. According to the notes in this standard it is intended to install a value for the cetane index in one of the next releases.

Workers have complained of smelling and tasting JP-8 for hours after exposure. As JP-8 is less volatile, it remains on the contaminated surfaces for longer time, increasing the risk of exposure.[3]

Variants

JP-8+100 (F-37) is a version of JP-8 with an additive that increases its thermal stability by 56°C (a difference of 100°F). The additive is a combination of a surfactant, metal deactivator, and an antioxidant, and was introduced in 1994 to reduce choking and fouling in engine fuel systems. Commercially, this additive is used in Boeing aircraft operated by KLM, and in police helicopters in Tampa, Florida.[citation needed] JP-8+100 is also used for Canadian Forces CP-140 Aurora & CC-130 Hercules aircraft.

References

  1. Modern Burner Units, JP-8 is used by Army Food Service Specialists (cooks) to fuel MBUs, in accordance with U.S. Army Field Feeding Manual FM 10-23
  2. the M1 Abrams series of battle tanks uses JP fuel in its gas turbine engine
  3. Day, Dwayne A. "Aviation Fuel". U.S. Centennial of Flight Commission.

External links

de:JP-8 no:F-34 Template:WH Template:WS