When the HSR program began there was widespread belief that a simple and familiar turbojet-like engine coupled to an advanced technology mixer-ejector nozzle was the propulsion system of choice for achieving FAR 36-Stage 3 noise requirements. Our ability to quickly demonstrate a practical 20(+) dB suppression nozzle was confidently presumed by many. Our rate of progress towards that objective, however, has been somewhat humbling. At the moment we are reasonably confident of achieving about 15...
Topics: NASA Technical Reports Server (NTRS), ENGINE DESIGN, HIGH THRUST, NOZZLE DESIGN, PROJECT PLANNING,...
A large number of novel aeropropulsion system concepts are presented for subsonic through hypersonic applications offering large potential improvements. Collectively, these examples illustrate the revolutionary opportunities and challenges that could enable truly revolutionary aircraft capabilities in the future. Certainly not all of these concepts will ultimately prove fruitful. Nevertheless, the sheer number of existing concepts, including many unmentioned herein, is so large and the...
Topics: NASA Technical Reports Server (NTRS), ENGINE DESIGN, JET PROPULSION, PROPULSION SYSTEM PERFORMANCE,...
When all the technology studies were done and the accompanying market analyses were complete, the conclusion was that it is indeed possible to reduce the cost of turbine engines by a factor of 3 using low-cost manufacturing techniques and increased production rates. In the interest of reducing engine cost, some performance was sacrificed. Yet we ended up with about a 20 percent predicted improvement in SFC over current technology turboprops. However, even this level of improvement does not...
Topics: NASA Technical Reports Server (NTRS), AIRCRAFT ENGINES, GENERAL AVIATION AIRCRAFT, TURBINE ENGINES,...
Circa 1990 propulsion improvement concepts are discussed for 1000 to 5000 SHP conventional turboprop powerplants including engines, gearboxes, and propellers. Cycle selection, power plant configurations and advanced technology elements are defined and evaluated using average stage length DOC for commuter aircraft as the primary merit criterion.
Topics: NASA Technical Reports Server (NTRS), COMMUTER AIRCRAFT, ENGINE DESIGN, ENGINE PARTS, GENERAL...
Commuter airplane propulsion opportunities are summarized. Consideration is given to advanced technology conventional turboprop engines, advanced propellers, and several unconventional alternatives: regenerative turboprops, rotaries, and diesels. Advanced versions of conventional turboprops (including propellers) offer 15-20 percent savings in fuel and 10-15 percent in DOC compared to the new crop of 1500-2000 SHP engines currently in development. Unconventional engines could boost the fuel...
Topics: NASA Technical Reports Server (NTRS), COMMERCIAL AIRCRAFT, COMMUTER AIRCRAFT, CONFERENCES,...
Results are reported of a NASA sponsored analytical investigation into the merits of advanced counter rotation propellers for Mach 0.80 commercial transport application. Propeller and gearbox performance, acoustics, vibration characteristics, weight, cost and maintenance requirements for a variety of design parameters and special features were considered. Fuel savings in the neighborhood of 8 percent relative to single rotation configurations are feasible through swirl recovery and lighter...
Topics: NASA Technical Reports Server (NTRS), CONTRAROTATING PROPELLERS, COUNTER ROTATION, PROP-FAN...
The review covers near-term improvements for current-type piston engines, as well as studies and limited corroborative research on several advanced g/a engine concepts, including diesels, small turboprops and both piston and rotary stratified-charge engines. Also described is basic combustion research, cycle modeling and diagnostic instrumentation work that is required to make new engines a reality.
Topics: NASA Technical Reports Server (NTRS), AIRCRAFT ENGINES, CIVIL AVIATION, COMBUSTION PHYSICS, ENGINE...
Recently completed NASA sponsored conceptual studies were culminated in the identification of promising new technologies for future spark ignition, diesel, rotary, and turbine engines. The results of a NASA in-house preliminary assessment study that compares these four powerplants types in several general aviation applications are reported. The evaluation consisted of installing each powerplant type in rubberized aircraft which are sized to accomplish fixed missions. The primary evaluation...
Topics: NASA Technical Reports Server (NTRS), AIRCRAFT ENGINES, DIESEL ENGINES, GAS TURBINE ENGINES, PISTON...
The results of four independent contracted studies to explore the opportunities for future small turbine engines are summarized in a composite overview. Candidate advanced technologies are screened, various cycles and staging arrangements are parametrically evaluated, and optimum conceptual engines are identified for a range of 300 to 600 horsepower applications. Engine improvements of 20 percent in specific fuel consumption and 40 percent in engine cost were forecast using high risk...
Topics: NASA Technical Reports Server (NTRS), GENERAL AVIATION AIRCRAFT, TECHNOLOGICAL FORECASTING, TURBINE...
An overview of four independent studies forecasts the potential impact of advanced technology turbine engines in the post 1988 market, identifies important aircraft and missions, desirable engine sizes, engine performance, and cost goals. Parametric evaluations of various engine cycles, configurations, design features, and advanced technology elements defined baseline conceptual engines for each of the important missions identified by the market analysis. Both fixed-wing and helicopter...
Topics: NASA Technical Reports Server (NTRS), ENGINE DESIGN, GENERAL AVIATION AIRCRAFT, TECHNOLOGICAL...
Four studies were completed that explore the opportunities for future General Aviation turbine engines (GATE) in the 150-1000 SHP class. These studies forecasted the potential impact of advanced technology turbine engines in the post-1988 market, identified important aircraft and missions, desirable engine sizes, engine performance, and cost goals. Parametric evaluations of various engine cycles, configurations, design features, and advanced technology elements defined baseline conceptual...
Topics: NASA Technical Reports Server (NTRS), GENERAL AVIATION AIRCRAFT, TURBINE ENGINES, AIRFRAMES, COSTS,...
The fuel savings potential of advanced turboprops (operational about 1985) was calculated and compared with that of an advanced turbofan for use in an advanced subsonic transport. At the design point, altitude 10.67 km and Mach 0.80, turbine-inlet temperature was fixed at 1590 K while overall pressure ratio was varied from 25 to 50. The regenerative turboprop had a pressure ratio of only 10 and an 85 percent effective rotary heat exchanger. Variable camber propellers were used with an...
Topics: NASA Technical Reports Server (NTRS), ENERGY CONSERVATION, ENERGY CONSUMPTION, TURBOPROP ENGINES,...
First-cut estimates are given of the performance advantages of liquid-hydrogen-fueled, ejector wing, V/STOL aircraft designed for shipboard delivery and search-type missions. Results indicate that the use of LH2 could reduce gross weights 30 percent, empty weights 15 percent, and energy consumption 10 percent for a fixed payload and mission. If gross weight is fixed, the delivery range could be increased about 60 percent or the hover time during a search mission doubled. No analysis or...
Topics: NASA Technical Reports Server (NTRS), AIRCRAFT PERFORMANCE, HYDROGEN FUELS, LIQUID HYDROGEN, V/STOL...
Documentation of the NBODY trajectory optimization program is presented in the form of a mathematical development plus a user's manual. Optimal multistage-launch ascent trajectories may be determined by variational thrust steering during the upper phase. Optimal low-thrust interplanetary spacecraft trajectories may also be calculated with solar power or constant power, all-propulsion or embedded coast arcs, fixed or optimal thrust angles, and a variety of terminal end conditions. A hybrid...
Topics: NASA Technical Reports Server (NTRS), COMPUTER PROGRAMS, TRAJECTORY OPTIMIZATION, ASCENT...
Typical ejector wing, remote fan-in-wing, remote lift/cruise fan, and lift plus lift/cruise propulsion concepts are parametrically studied on the basis of airplane weights (gross, empty, and propulsion) for three types of airplanes, a Carrier-Onboard Delivery/Search and Rescue airplane for the U.S. Navy, a military utility transport, and a business jet. None of the four systems led to airplanes substantially lighter than the others, and therefore no best system is selected.
Topics: NASA Technical Reports Server (NTRS), LIFT FANS, PROPULSION SYSTEM PERFORMANCE, SUBSONIC FLOW,...
Performance, trajectory, and design characteristics are presented for (1) a single-stage shuttle with a single advanced rocket engine, (2) a single-stage shuttle with an initial parallel chemical engine and advanced engine burn followed by an advanced engine sustainer burn, (3) a single-stage shuttle with an initial chemical engine burn followed by an advanced engine burn, and (4) a two-stage shuttle with a chemical propulsion booster stage and an advanced propulsion upper stage. The ascent...
Topics: NASA Technical Reports Server (NTRS), CHEMICAL PROPULSION, NUCLEAR PROPULSION, PROPULSION SYSTEM...
Two types of helium circulators are analytically compared on the bases of their influence on airplane payload and on propulsion system variables. One type of circulator is driven by the turbofan engines with power takeoff shafting while the other, a turbocirculator, is powered by a turbine placed in the helium loop between the nuclear reactor and the helium-to-air heat exchangers inside the engines. Typical results show that the turbocirculator yields more payload for circulator efficiencies...
Topics: NASA Technical Reports Server (NTRS), AIRCRAFT PERFORMANCE, HEAT EXCHANGERS, NUCLEAR PROPELLED...
