2009
DOI: 10.1002/er.1431
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Study on woody biomass Stirling cycle for cold region houses

Abstract: A Stirling engine (SEG) using woody biomass is a power generation system that can reduce greenhouse gas discharge. However, improvement of generation efficiency and development of a product are required strongly. In this paper, the energy flow is investigated in experimenting in Test SEG. These results are installed into the energy demand pattern of a cold region houses with much heat demand, and the amount of fuel consumption, power generation efficiency, and a greenhouse gas amount of emission are investigat… Show more

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Cited by 8 publications
(5 citation statements)
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“…In this sense, different prototypes suitable for CHP applications have been recently developed. Some examples correspond to the prototypes developed by Sato [30], Nishiyama [42],Biederman [43], Zeiler [44], Li [33] and Obara [45]. In addition, some field tests were reported by Thomas [5] and Klemes [6].…”
Section: Technology Overviewmentioning
confidence: 72%
“…In this sense, different prototypes suitable for CHP applications have been recently developed. Some examples correspond to the prototypes developed by Sato [30], Nishiyama [42],Biederman [43], Zeiler [44], Li [33] and Obara [45]. In addition, some field tests were reported by Thomas [5] and Klemes [6].…”
Section: Technology Overviewmentioning
confidence: 72%
“…Regenerative cycles, such as the well‐known Stirling cycle, may utilize and transform virtually any heat flow, particularly including heat from various renewable sources, and may thus contribute to the global energy transformation. Therefore, they are increasingly under consideration for micro‐cogeneration applications 1‐4 and particularly for utilizing various forms of biomass 5‐11 as well as solar energy 12‐15 . However, the performance of the idealized, theoretically reversible cycles is in practice degraded by a variety of loss mechanisms.…”
Section: Introductionmentioning
confidence: 99%
“…Various systems adopting SEs and running on biomasses have been proposed in the past, adopting different conversion technologies. Direct burning of solid biomass in a boiler [13][14][15][16] is the simplest option, and improved performances in terms of combustion efficiency, reduced pollutant emissions, and fuel flexibility can be obtained by adopting fluidized bed combustors, 11,17 at the cost of an increased start-up time. Offline production of gaseous fuels, for example, in anaerobic digesters, allows the use of fuel cells 18,19 or innovative gas-fired burners.…”
Section: Introductionmentioning
confidence: 99%