Hermeus Wins Air Force Investment After Demonstrating Mach 5 Engine ATLANTA, GA - Hermeus Corporation, the aerospace company developing Mach 5 commercial aircraft, has partnered with the U.S. Air Force and the Presidential and Executive Airlift Directorate to work toward hypersonic travel for the Department of Defense. This award comes under an Other Transaction For Prototype Agreement Direct to Phase II contract through AFWERX after Hermeus successfully tested a Mach 5 engine prototype in February 2020.The effort is focused on rapidly assessing modifications to Hermeus Mach 5 aircraft to support the Presidential and Executive Airlift fleet. Early integration of unique Air Force requirements for high-speed mobility and evaluation of interfaces between high-speed aircraft and existing communications, airport, and air traffic control infrastructure lays the groundwork for a seamless transition to service. Additionally, Hermeus will prepare test plans to reduce technical risk associated with these modifications to support Air Force requirements. Brigadier General Ryan Britton, Program Executive Officer for Presidential and Executive Airlift commented on the program: "Leaps in capability are vital as we work to complicate the calculus of our adversaries. By leveraging commercial investment to drive new technologies into the Air Force, we are able to maximize our payback on Department of Defense investments. The Presidential and Executive Airlift Directorate is proud to support Hermeus in making this game-changing capability a reality as we look to recapitalize the fleet in the future."Preceding the award, the Hermeus team designed from scratch, built, and successfully tested a Mach 5 engine prototype, in only 9 months. The test campaign both served as risk reduction for Hermeus' turbine-based combined cycle engine architecture and illustrates the team's ability to execute with schedule and funding efficiency. "Using our pre-cooler technology, we've taken an off-the-shelf gas turbine engine and operated it at flight speed conditions faster than the famed SR-71. In addition, we've pushed the ramjet mode to Mach 4-5 conditions, demonstrating full-range hypersonic air-breathing propulsion capability," said Glenn Case, Hermeus’ CTO.
Quote from: ChrisWilson68 on 08/06/2020 05:11 pmI don't remember ever hearing REL or anyone associated with them saying SABRE technology is applicable to an engine that doesn't go past Mach 3. Is there something I missed where they said that?Yes. Where you confuse not having with not wanting.
I don't remember ever hearing REL or anyone associated with them saying SABRE technology is applicable to an engine that doesn't go past Mach 3. Is there something I missed where they said that?
And here's yet another design. The powerplant sounds very SABREy as it's M5 combined cycle with pre-cooler and ramjet. Apparently the plan is to one day jet the President around in one of these!https://www.hermeus.com/aug-06-2020
Quote from: adrianwyard on 08/07/2020 12:50 amAnd here's yet another design. The powerplant sounds very SABREy as it's M5 combined cycle with pre-cooler and ramjet. Apparently the plan is to one day jet the President around in one of these!https://www.hermeus.com/aug-06-2020Probably better in the "Hypersonics" thread.
Quote from: Robotbeat on 08/06/2020 02:37 pmMach 3 doesn't require SABRE. See: Valkyrie, SR-71, Archangel, etc.Without wishing to be mean that is a fairly obvious point, but are we sure that a Mach 3 engine cannot benefit from a SABRE cycle or at least some of the SABRE technologies?
Mach 3 doesn't require SABRE. See: Valkyrie, SR-71, Archangel, etc.
Quote from: john smith 19 on 08/07/2020 05:42 amQuote from: adrianwyard on 08/07/2020 12:50 amAnd here's yet another design. The powerplant sounds very SABREy as it's M5 combined cycle with pre-cooler and ramjet. Apparently the plan is to one day jet the President around in one of these!https://www.hermeus.com/aug-06-2020Probably better in the "Hypersonics" thread.There's also a Hermeus thread somewhere...
And here's yet another design. The powerplant sounds very SABREy as it's M5 combined cycle with pre-cooler and ramjet. Apparently the plan is to one day jet the President around in one of these!https://www.hermeus.com/aug-06-2020QuoteHermeus Wins Air Force Investment After Demonstrating Mach 5 EngineThe effort is focused on rapidly assessing modifications to Hermeus Mach 5 aircraft to support the Presidential and Executive Airlift fleet. Early integration of unique Air Force requirements for high-speed mobility and evaluation of interfaces between high-speed aircraft and existing communications, airport, and air traffic control infrastructure lays the groundwork for a seamless transition to service. Additionally, Hermeus will prepare test plans to reduce technical risk associated with these modifications to support Air Force requirements.
Hermeus Wins Air Force Investment After Demonstrating Mach 5 EngineThe effort is focused on rapidly assessing modifications to Hermeus Mach 5 aircraft to support the Presidential and Executive Airlift fleet. Early integration of unique Air Force requirements for high-speed mobility and evaluation of interfaces between high-speed aircraft and existing communications, airport, and air traffic control infrastructure lays the groundwork for a seamless transition to service. Additionally, Hermeus will prepare test plans to reduce technical risk associated with these modifications to support Air Force requirements.
QuotePreceding the award, the Hermeus team designed from scratch, built, and successfully tested a Mach 5 engine prototype, in only 9 months. The test campaign both served as risk reduction for Hermeus' turbine-based combined cycle engine architecture and illustrates the team's ability to execute with schedule and funding efficiency. "Using our pre-cooler technology, we've taken an off-the-shelf gas turbine engine and operated it at flight speed conditions faster than the famed SR-71. In addition, we've pushed the ramjet mode to Mach 4-5 conditions, demonstrating full-range hypersonic air-breathing propulsion capability," said Glenn Case, Hermeus’ CTO.
Preceding the award, the Hermeus team designed from scratch, built, and successfully tested a Mach 5 engine prototype, in only 9 months. The test campaign both served as risk reduction for Hermeus' turbine-based combined cycle engine architecture and illustrates the team's ability to execute with schedule and funding efficiency. "Using our pre-cooler technology, we've taken an off-the-shelf gas turbine engine and operated it at flight speed conditions faster than the famed SR-71. In addition, we've pushed the ramjet mode to Mach 4-5 conditions, demonstrating full-range hypersonic air-breathing propulsion capability," said Glenn Case, Hermeus’ CTO.
we've pushed the ramjet mode to Mach 4-5 conditions
Sure. Mentioned here because it sounds very similar to REL's SABRE/SCIMITAR and this project has a USAF connection like REL too. I wonder if this is connected in any way to REL's USAF research.
They state that due to company confidentiality reasons they cannot reveal what Isp or thrust they were using in their design. Historically they have assumed that a HTOL vehicle needs at least a T/W ratio of 0.7:1 to get through M1. .... the XB70, whose dry engine thrust was 22% of GTOW while it's AB thrust was 30% of GTOW. Yet somehow it managed to get to M3 and sustain it for up to 32 minutes at a time.
I was re reading the USAF/SWEI TSTO design today. I was once again struck by how very odd some of their assumptions were. They have a landing gear mass that's 3.9% of GTOW. This is well above what both the B58 and XB70 landing gear achieved in the 1950's and 60's. They have a LH2/LO2 upper stage gg engine that can't manage better than 33:1 (the J-2 on the Saturn V did 73:1 5 decades ago). Meanwhile they are allowing a 25% mass growth weight for an upper stage.
Their booster uses conformal LH2 tanks at each end and then has the LOX tanks as multiple cylinders wrapped around a bottom opening payload bay.
They state that due to company confidentiality reasons they cannot reveal what Isp or thrust they were using in their design. Historically they have assumed that a HTOL vehicle needs at least a T/W ratio of 0.7:1 to get through M1.
They said they're using standard parametric models, so while the undercarriage weight might be optimisable they haven't done that.The expendable upper stage is "as simple as possible to minimize its cost."They appear to have been cautious with their figures, while producing a payload mass fraction which is still more than half of reusable F9. It would be hard to dismiss these concepts as relying on wildly optimistic values
But there's nothing to suggest that is their assumption here. That T/W ratio gives them a rotation distance of 1280 ft, giving Newquay airport 7720 ft breaking distance in the event of an abort at rotation
The engines were sized for a takeoff thrust to weight of 0.7.
Quote from: JCRM on 08/13/2020 09:22 am It would be hard to dismiss these concepts as relying on wildly optimistic valuesNo. They'd be dismissed on the grounds that they only give half the payload of an F9 instead.
It would be hard to dismiss these concepts as relying on wildly optimistic values
Quote Quote from: john smith 19 on 08/09/2020 11:29 amHistorically they have assumed that a HTOL vehicle needs at least a T/W ratio of 0.7:1 to get through M1. But there's nothing to suggest that is their assumption hereActually on closer checking it does say exactly thatQuoteThe engines were sized for a takeoff thrust to weight of 0.7.
Quote from: john smith 19 on 08/09/2020 11:29 amHistorically they have assumed that a HTOL vehicle needs at least a T/W ratio of 0.7:1 to get through M1. But there's nothing to suggest that is their assumption here
Historically they have assumed that a HTOL vehicle needs at least a T/W ratio of 0.7:1 to get through M1.
So yes the design is grossly conservative against vehicles that have not just been designed but have actually flown IE Concorde and the XB70.
Likewise reusable rocket engines designed for 1950's aircraft could manage a T/W ratio of 43:1. So 35:1 is not just "conservative" it's grossly conservative.
Quote Reaction Engines and Rolls-Royce announce new strategic partnership agreement21 August 2020Reaction Engines Ltd and Rolls-Royce plc today announced a new strategic partnership agreement to develop high-speed aircraft propulsion systems and explore applications for Reaction Engines’ thermal management technology within civil and defence aerospace gas turbine engines and hybrid-electric systems.“We have been working closely with Reaction Engines for the past two years, including exploring the potential of high-Mach systems for defence applications, and I am delighted that we are able to strengthen that relationship,” said Mark Thompson, Director of Global Strategy & Business Development, Rolls-Royce. “This partnership follows our recent announcements with Boom Supersonic and Virgin Galactic.”“Reaction Engines’ thermal management skills, added to our suite of existing technologies and capabilities, will further assist us as we explore opportunities in supersonic and hypersonic aviation,” Thompson added. “Building on our many decades of innovation, we will also explore the use of Reaction Engines’ technology within our aerospace gas turbines and its potential application in future hybrid-electric propulsion systems, as we look to make flying ever more efficient and sustainable.”Additionally, Rolls-Royce is making a further investment in Reaction Engines as part of a wider funding round. The two companies have been working together since 2018, including on the first phase of a UK Ministry of Defence contract to undertake design studies, research, development, analysis and experimentation related to high-Mach advanced propulsion systems.“This strategic partnership is about developing market ready applications for Reaction Engines’ technology in next generation engines and is a significant step forward for our technology commercialisation plans,” said Mark Thomas, Chief Executive of Reaction Engines. “Our proprietary heat exchanger technology delivers incredible heat transfer capabilities at extremely low weight and a compact size. We look forward to expanding our international collaboration with Rolls-Royce, a global leader in power systems, to bring to market a range of applications that will transform the performance and efficiency of aircraft engines, enable high speed – supersonic and hypersonic – flight and support the drive towards more sustainable aviation through innovative new technologies.”https://www.rolls-royce.com/media/press-releases/2020/21-08-2020-reaction-engines-and-rolls-royce-announce-new-strategic-partnership-agreement.aspx
Reaction Engines and Rolls-Royce announce new strategic partnership agreement21 August 2020Reaction Engines Ltd and Rolls-Royce plc today announced a new strategic partnership agreement to develop high-speed aircraft propulsion systems and explore applications for Reaction Engines’ thermal management technology within civil and defence aerospace gas turbine engines and hybrid-electric systems.“We have been working closely with Reaction Engines for the past two years, including exploring the potential of high-Mach systems for defence applications, and I am delighted that we are able to strengthen that relationship,” said Mark Thompson, Director of Global Strategy & Business Development, Rolls-Royce. “This partnership follows our recent announcements with Boom Supersonic and Virgin Galactic.”“Reaction Engines’ thermal management skills, added to our suite of existing technologies and capabilities, will further assist us as we explore opportunities in supersonic and hypersonic aviation,” Thompson added. “Building on our many decades of innovation, we will also explore the use of Reaction Engines’ technology within our aerospace gas turbines and its potential application in future hybrid-electric propulsion systems, as we look to make flying ever more efficient and sustainable.”Additionally, Rolls-Royce is making a further investment in Reaction Engines as part of a wider funding round. The two companies have been working together since 2018, including on the first phase of a UK Ministry of Defence contract to undertake design studies, research, development, analysis and experimentation related to high-Mach advanced propulsion systems.“This strategic partnership is about developing market ready applications for Reaction Engines’ technology in next generation engines and is a significant step forward for our technology commercialisation plans,” said Mark Thomas, Chief Executive of Reaction Engines. “Our proprietary heat exchanger technology delivers incredible heat transfer capabilities at extremely low weight and a compact size. We look forward to expanding our international collaboration with Rolls-Royce, a global leader in power systems, to bring to market a range of applications that will transform the performance and efficiency of aircraft engines, enable high speed – supersonic and hypersonic – flight and support the drive towards more sustainable aviation through innovative new technologies.”
From the Virgin Galactic mach3 aircraft thread:Quote from: FutureSpaceTourist on 08/21/2020 06:39 amQuote Reaction Engines and Rolls-Royce announce new strategic partnership agreement21 August 2020Reaction Engines Ltd and Rolls-Royce plc today announced a new strategic partnership agreement to develop high-speed aircraft propulsion systems and explore applications for Reaction Engines’ thermal management technology within civil and defence aerospace gas turbine engines and hybrid-electric systems.“We have been working closely with Reaction Engines for the past two years, including exploring the potential of high-Mach systems for defence applications, and I am delighted that we are able to strengthen that relationship,” said Mark Thompson, Director of Global Strategy & Business Development, Rolls-Royce. “This partnership follows our recent announcements with Boom Supersonic and Virgin Galactic.”“Reaction Engines’ thermal management skills, added to our suite of existing technologies and capabilities, will further assist us as we explore opportunities in supersonic and hypersonic aviation,” Thompson added. “Building on our many decades of innovation, we will also explore the use of Reaction Engines’ technology within our aerospace gas turbines and its potential application in future hybrid-electric propulsion systems, as we look to make flying ever more efficient and sustainable.”Additionally, Rolls-Royce is making a further investment in Reaction Engines as part of a wider funding round. The two companies have been working together since 2018, including on the first phase of a UK Ministry of Defence contract to undertake design studies, research, development, analysis and experimentation related to high-Mach advanced propulsion systems.“This strategic partnership is about developing market ready applications for Reaction Engines’ technology in next generation engines and is a significant step forward for our technology commercialisation plans,” said Mark Thomas, Chief Executive of Reaction Engines. “Our proprietary heat exchanger technology delivers incredible heat transfer capabilities at extremely low weight and a compact size. We look forward to expanding our international collaboration with Rolls-Royce, a global leader in power systems, to bring to market a range of applications that will transform the performance and efficiency of aircraft engines, enable high speed – supersonic and hypersonic – flight and support the drive towards more sustainable aviation through innovative new technologies.”https://www.rolls-royce.com/media/press-releases/2020/21-08-2020-reaction-engines-and-rolls-royce-announce-new-strategic-partnership-agreement.aspx
This is an area of increasing interest around the world, as well. Just today, U.K.-headquartered Rolls-Royce, which manufacturers traditional jets engines, announced it was forming a new partnership with Reaction Engines, another company in the United Kingdom working on combined cycle engines for use on a space-launch mothership, known as a mothership-based two-stage-to-orbit concept, which you can read about in more detail in this past War Zone feature.
Possibly the first time I've officially seen mention of Reaction Engines' pre-cooler technology working with ammonia as a fuel.
Quote from: The Ex-Engineer on 08/24/2020 03:06 pmPossibly the first time I've officially seen mention of Reaction Engines' pre-cooler technology working with ammonia as a fuel.I don't see the precoolers being mentioned in relation to this story. REL have also done work on microchannel heat exchangers for transferring heat to the liquid fuel, which is more likely to be appropriate hereQuote from: The Ex-Engineer Not entirely sure why the study talks about partially decomposing the ammonia prior to combustion? Anyone have any thoughts? possibly partial because full decomposition is too "difficult" most likely in terms of weight or maintenance.As for splitting it, hydrogen burns hotter, faster and easier, and doesn't directly produce NOxREL's version of the story
Not entirely sure why the study talks about partially decomposing the ammonia prior to combustion? Anyone have any thoughts?