Space

December 7, 2012

Breakthrough jet/rocket engine announced

Tags:
Raphael Jaffe
Staff writer


Reaction Engines Ltd. of Great Britain has announced successful tests of its light weight heat exchanger, a critical component of its Synergetic Air-Breathing Rocket Engine.

The engine functions as both an air breathing jet, and then switches to use stored liquid oxygen, as does a rocket engine. Their studies show that single stage to orbit rocketry is possible with that engine. Also, an aircraft with such rockets can reach Mach 5, so that a journey halfway around the world would only require 4 or 5 hours.

The SABRE engine incorporated in a new aircraft, known as Skylon, could potentially be used to deliver satellites to orbit, and would then return to earth. The engines are designed to operate much like a conventional jet engine at up to around Mach†5.5 at 26 km altitude. Then, air inlet closes and the engine operates as a highly efficient rocket to orbital speed. The proposed SABRE engine is not a scramjet, but a jet engine running combined cycles of a precooled jet engine, rocket engine and ramjet. The key technology for this type of precooled jet engine is a light weight heat exchanger.

In a Nov. 28 press release, Reaction Engines announced successful tests of such a heat exchanger. More than 100 test runs have been completed. The tests were funded and overseen by the European Space Agency. The heat exchanger uses liquid helium to cool air from 1,000 degrees Celsius to about minus 150 degrees Celsius. And there is no frost problem with the exchanger.




All of this week's top headlines to your email every Friday.


 
 

 

Headlines September 29, 2014

News: U.S. military limits warplanes used for Islamic State bombings - The U.S. is relying mostly on warplanes already positioned in the region for its air war against the Islamic State, as opposed to dispatching a major buildup of aerial forces that happened in previous campaigns.   Business: At DOD, it’s use-it-or-lose-it season - As fiscal 2014...
 
 

News Briefs September 29, 2014

Navy awards ship design grant to UNO The University of New Orleans has received a $210,000 grant from the Navy s Office of Naval Research to test information gathering and analysis techniques intended to improve warship design. The goal for warship designers is to produce a vessel that can be repurposed numerous times throughout its...
 
 
Courtesy photograph

TACP-M ties it all together

Air National Guard photograph by SSgt. Lealan Buehrer Tactical air control party specialists with the 169th Air Support Operations Squadron survey an enemy-controlled landing zone before calling in close-air support Aug. 14, 20...
 

 
Air Force photograph by A1C Thomas Spangler

Nellis aggressor squadron inactivated

Air Force photograph by A1C Thomas Spangler SSgt. Justin White signals to Maj. Sam Joplin to begin taxiing a 65th Aggressor Squadron F-15 Eagle to the runway Sept. 18, 2014, at Nellis Air Force Base Nev. The roles and responsib...
 
 
Army photograph by SSgt. Mary S. Katzenberger

82nd Airborne helps commemorate 70th Anniversary of Operation Market Garden

Army photograph by SSgt. Mary S. Katzenberger A paratrooper assigned to the 82nd Airborne Division, reflects near the grave of a British paratrooper at the Arnhem Oosterbeek War Cemetery, Sept. 14, 2014, in the Netherlands. The...
 
 

Raytheon awarded $251 million Tomahawk missile contract

The U.S. Navy has awarded Raytheon a $251 million contract to procure Tomahawk Block IV tactical cruise missiles for fiscal year 2014 with an option for 2015. The contract calls for Raytheon to build and deliver Tomahawk Block IV cruise missiles to the U.S. Navy and U.K. Royal Navy. Raytheon will also conduct flight tests...
 




0 Comments


Be the first to comment!


Leave a Reply

Your email address will not be published. Required fields are marked *

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>