| AllExperts > Encyclopedia | |
 |
Stirling engine: Encyclopedia BETAFree Encyclopedia |
| Home · Index · Browse A-Z | · Questions and Answers · |
|
ConfigurationsEngineers classify Stirling engines into three distinct types:* An alpha Stirling contains two separate power pistons in separate cylinders, one "hot" piston and one "cold" piston. The hot piston cylinder is situated inside the higher temperature heat exchanger and the cold piston cylinder is situated inside the low temperature heat exchanger. This type of engine has a very high power-to-volume ratio but has technical problems due to the usually high temperature of the "hot" piston and its seals. (See animation here [1])
* A gamma Stirling is simply a beta Stirling in which the power piston is mounted in a separate cylinder alongside the displacer piston cylinder, but is still connected to the same flywheel. The gas in the two cylinders can flow freely between them and remains a single body. This configuration produces a lower compression ratio but is mechanically simpler and often used in multi-cylinder Stirling engines. (See animation here [3]) Changes to the configuration of mechanical Stirling engines continue to interest engineers and inventors alike. Notably, some are in hot pursuit of the rotary Stirling engine; the goal is to convert power from the Stirling cycle directly into torque, a similar goal to that of the design of the rotary combustion engine. There is also a field of "Free piston" stirling cycles engines, including those with liquid pistons and those with diaphragms as pistons. [See the book "Free Piston Stirling Cycle Engines" by G. Walker] An alternative to the mechanical Stirling engine is the fluidyne pump, which uses the Stirling cycle via a hydraulic piston. In its most basic form it contains a working gas, a liquid and two check valves for moving parts.The work produced by the fluidyne goes into pumping the liquid. Heat sourcesAny temperature difference will power a Stirling engine and the term "external combustion engine" often applied to it is misleading. A heat source may be the result of combustion but can also be solar, geothermal, or nuclear or even biological. Likewise a "cold source" below the ambient temperature can be used as the temperature difference. (see here). A cold source may be the result of a cryogenic fluid or iced water. Since small differential temperatures require large mass flows, parasitic losses in pumping the heating or cooling fluids rise and tend to reduce the efficiency of the cycle.Because a heat exchanger separates the working gas from the heat source, a wide range of combustion fuels can be used, or the engine can be adapted to run on waste heat from some other process. Since the combustion products do not contact the internal moving parts of the engine, a Stirling engine can run on landfill gas containing siloxanes without the accumulation of silica that damages internal combustion engines running on this fuel. The life of lubricating oil is longer than for internal-combustion engines. The U.S. Department of Energy in Washington, NASA Glenn Research Center in Cleveland, and Stirling Technology Co. of Kennewick, Wash., are developing a free-piston Stirling converter for a Stirling Radioisotope Generator. This device would use a plutonium source to supply heat. There is a potential for nuclear powered Stirling engines in electric power generation plants. Replacing the steam turbines of nuclear power plants with Stirling engines would greatly simplify the plant, yield greater efficiency, and provide above all, a much greater margin of safety, while reducing radioactive by-products. Strengths of Stirling engines*The heat is external and the burning of a fuel-air mixture can be more accurately controlled.*They can run directly on any available heat source, not just one produced by combustion, so they can be employed to run on heat from solar, geothermal, biological or nuclear sources. *A continuous combustion process can be used to supply heat, so emission of unburned fuel can be greatly reduced. *Most types of Stirling engines have the bearing and seals on the cool side; consequently, they require less lubricant and last significantly longer between overhauls than other reciprocating engine types. *The engine as a whole is much less complex than other reciprocating engine types. No valves are needed. Fuel and intake systems are very simple. *They operate at relatively low pressure and thus are much safer than typical steam engines. *Low operating pressure allows the usage of less robust cylinders and of less weight. *They can be built to run very quietly and without air, for use in submarines. *They hold promise as aircraft engines. They are quieter, less polluting, gain efficiency with altitude (internal combustion piston engines lose efficiency), are more reliable due to fewer parts and the absence of an ignition system, produce much less vibration (airframes last longer) and safer, less explosive fuels may be used. Problems with Stirling engines*Some Stirling engine designs require both input and output heat exchangers, which must contain the pressure of the working fluid, and which must resist any corrosive effects due to the heat source. These increase the cost of the engine, especially when they are designed to the high level of "effectiveness" (heat exchanger efficiency) needed for optimizing fuel economy. Fuel economy may not be an issue with the advantages of using unlimited but unusual fuel sources that a Stirling engine can make use of.*Stirling engines that run on small temperature differentials are quite large for the amount of power that they produce, due to the heat exchangers. Increasing the temperature differential allows for smaller Stirling engines that produce more power. *Dissipation of waste heat is especially complicated because the coolant temperature is kept as low as possible to maximize thermal efficiency. This drives up the size of the radiators markedly, which can make packaging difficult. This has been one of the factors limiting the adoption of Stirling engines as automotive prime movers. (Conversely, it is convenient for domestic or business heating systems where combined heat and power (CHP) systems show promise. http://news.bbc.co.uk/2/hi/programmes/working_lunch/3231549.stm ref) *A "pure" Stirling engine cannot start instantly; it literally needs to "warm up". This is true of all external combustion engines, but the warm up time may be shorter for Stirlings than for others of this type such as steam engines. Stirling engines are best used as constant run, constant speed engines. *Power output of a Stirling is constant and hard to change rapidly from one level to another. Typically, changes in output are achieved by varying the displacement of the engine (often through use of a swashplate crankshaft arrangement) or by changing the mass of entrained working fluid (generally helium or hydrogen). This property is less of a drawback in hybrid electric propulsion or base load utility generation where a constant power output is actually desirable. *Hydrogen's lowest molecular weight makes it the best working gas to use in a Stirling engine, but as a tiny molecule, it is very hard to keep it inside the engine and auxiliary systems need to be typically added to maintain the proper quantity of working fluid. These systems can be as simple as a gas storage bottle or as complicated as a gas generator. In any event, they add weight, increase cost, and introduce some undesirable complications. Some engines use air as the working fluid which is less thermodynamically efficient but avoids loss problems. Most technically advanced Stirling engines like those developed for United States government labs use helium as the working gas, because it functions close to the efficiency of hydrogen with fewer of the material containment issues. History and developmentDevices called air engines have been recorded from as early as 1699 around the time when the laws of gases were first set out.The English inventor Sir George Cayley is known to have devised air engines c. 1807. Robert Stirling's innovative contribution of 1816 was what he called the 'Economiser'. Now known as the regenerator, it stored heat from the hot portion of the engine as the air passed to the cold side, and released heat to the cooled air as it returned to the hot side. This innovation improved the efficiency of Stirling's engine enough to make it commercially successful in particular applications, and has since been a component of every air engine that is called a Stirling engine.During the nineteenth century the Stirling engine found applications anywhere a source of low to medium power was required, a role that was eventually usurped by the electric motor at the century's end. It was also employed in reverse as a heat pump to produce early refrigeration. In the late 1940s the Philips Electronics company in The Netherlands were searching for a versatile electricity generator to enable worldwide expansion of sales of its electronic devices in areas with no reliable electricity infrastructure. The company put a huge R&D research effort into Stirling engines building on research it had started in the 1930s and which lasted until the 1970s. The only lasting commercial spin-off from this for Philips was its reversed Stirling engine: the Stirling cryocooler. Kockums[4], the Swedish shipbuilder, had built at least 10 commercially successful Stirling powered submarines during the 1980s. As of 2005 they have started to carry compressed oxygen with them. (No endurance stated.) Whisper Tech, a New Zealand firm with offices in Christchurch has developed an "AC Micro Combined Heat and Power" stirling cycle engine. These are gas-fired central heating boilers which sell power back into the electricity grid. They announced in 2004 that they were producing 80,000 units for the residential market in the United Kingdom. On August 11 2005, Southern California Edison announced an agreement to purchase solar powered Stirling engines from Stirling Energy Systems[5] over a twenty year period and in quantity (20,000 units) sufficient to generate 500 megawatts of electricity. These systems - to be installed on a 4,500 acre (19 km²) solar farm - will use mirrors to direct and concentrate sunlight onto the engines which will in turn drive generators. Los Alamos National Laboratory has developed an "Acoustic Stirling Heat Engine" [6] with no moving parts. It converts heat into intense acoustic power. United States government labs have developed a modern Stirling engine design known as the Stirling Radioisotope Generator for use in space exploration that uses only a single displacer, to reduce moving parts. It makes use of energy transfer though high energy acoustics and is used to generate electricity for deep space probes for decades. The heat source is a dry solid nuclear fuel slug for the hot side and the cold of space as the cold side. Some believe that the ability of the Stirling engine to convert geothermal energy to electricity and then to hydrogen may well hold the key to replacement of fossil fuels in a future global economy. Stirling cryocoolersStirling engines will also work in reverse: when applying motion to the shaft, a temperature difference appears between the reservoirs. One of their modern uses is in refrigeration and cryogenics. The first Stirling-cycle cryocooler was developed at Philips in the 1950s and commercialized in such places as liquid nitrogen production plants. The Philips Cryogenics business evolved until it was split off in 1990 to form the Stirling Cryogenics & Refrigeration BV, Stirling The Netherlands. This company is still active in the development and manufacturing Stirling cryocoolers and cryogenic cooling systems.A wide variety of smaller size Stirling cryocoolers are commercially available for tasks such as the cooling of sensors. Thermoacoustic refrigeration uses a Stirling cycle in a working gas which is created by high amplitude sound waves. External linksHow it works*How Stuff Works: Stirling-engine A good description with animated diagrams.*How it works by Amitabha Mukerjee *Animations: **Alpha type machine, **Alpha type machine with Ross yoke, **Beta type machine, **Gamma type machine **Stirling fly motor animation History*Amitabha Mukerjee: Stirling Engine History,Academic and technical studies*David Haywood University of Canterbury NZ: "Introduction to Stirling-Cycle Analysis" (PDF)*Stirling-Cycle Research Group, University of Canterbury NZ *University of Ohio *Israel Urieli: Stirling Engine Simple Analysis, **Alpha Stirlings, **Beta Stirlings, **Gamma Stirlings *Peter Fette: Stirling Engine Researcher, mirror **Animation, **Regenerator efficiency and simulation **Stirling Engine with 8 cylinders, twice double acting *Argument on why the Stirling engine can be applied in aviation, mirror *15 pages (pdf) regarding design of a Fluidyne pump *The rotary piston array machine Patents*US Patent 20050242232 for a solar powered aircraft using the suns heat to drive a Stirling engine and propeller.Societies and conferences*The Stirling Engine Society*Stirling News - newsletter published quarterly in the UK by The Stirling Engine Society *Programme of the 10th Stirling Engine Conference 2001 Hobbyists and enthusiasts*Build a simple stirling engine using aluminum cans*Webring for Stirling engine Hobbyists *Simple Do-It-Yourself Stirling engine This only requires a temperature difference of 8°C to run. A hot hand and/or an ice cube is enough to keep it running. *Japanese hobbyist's Stirling engine home page *How to build a Stirling engine from a test-tube * Melbourne Society of Model & Experimental Engineers Journal A novel Stirling cycle hot air engine to build *Will Rausch - Stirling engine enthusiast Many links *Robert Sier - Stirling engine enthusiast Many links *Rotary Stirling Engines enthusiast website Commercial manufacturers*American Stirling Company - Power Producing Engines*Stirling Technology, Inc. - Energy recovery ventilator technology. *STM Power - Combined heat and power Stirling engine-generator sets. *QRMC - Stirling engine manufacturer. *AIM Infrared Modules - Stirling cooler manufacturer. *Carl Aero GmbH - Maker of working model Stirling engines. *Whisper Gen - Domestic Stirling-engine central heating boilers which generate electricity. *Sunpower - "the world's leading developer of free-piston machines." *Stirling Energy Systems - Building a 29.4% efficient, 500 MW Stirling energy plant (expandable to 850 MW), using satellite dish compound mirrors, north of Los Angeles. Larger than all other U.S. solar power projects combined. Directories and indexes*Stirling Engines page on the Open Directory Project.References*Van Wylan, Gordon J. and Sontag, Richard F. , "Fundamentals of Classical Thermodynamics SI Version 2nd Ed.", John Wiley and Sons, New York, 1976, ISBN 0471041882 *Walker, G. , "Free Piston Stirling Cycle Engines", Springer-Verlag (1985), ISBN 0387154957 *Hargreaves, C. M., "The Philips Stirling Engine", Elsevier Publishers, (1991), ISBN 0444884637
|
||||||||||||||||||||||||||||||||
| About Us | Advertise on This Site | User Agreement | Privacy Policy | Kids' Privacy Policy | Help About and About.com are registered trademarks of About, Inc. The About logo is a trademark of About, Inc. All rights reserved. This is the "GNU Free Documentation License" reference article from the English Wikipedia. All text is available under the terms of the GNU Free Documentation License. See also our Disclaimer. |
