Small-Scale Energy Systems with Gas Turbines and Heat Pumps
A heat pump system can produce an amount of heat energy that is greater than the amount of energy used to run the heat pump system. Thus, a heat pump system is considered to be a machine system that can use energies efficiently, as is the load leveling air-conditioning system utilizing unutilized en...
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Year of Publication: | 2021 |
Language: | English |
Physical Description: | 1 electronic resource (134 p.) |
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041 | 0 | |a eng | |
100 | 1 | |a Okamoto, Satoru |4 edt | |
245 | 1 | 0 | |a Small-Scale Energy Systems with Gas Turbines and Heat Pumps |
260 | |a Basel, Switzerland |b MDPI - Multidisciplinary Digital Publishing Institute |c 2021 | ||
300 | |a 1 electronic resource (134 p.) | ||
336 | |a text |b txt |2 rdacontent | ||
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520 | |a A heat pump system can produce an amount of heat energy that is greater than the amount of energy used to run the heat pump system. Thus, a heat pump system is considered to be a machine system that can use energies efficiently, as is the load leveling air-conditioning system utilizing unutilized energies at high levels. Adaptations of gas turbines for industrial, utility, and marine-propulsion applications have long been accepted as means for generating power with high efficiency and ease of maintenance. Cogeneration with gas turbine is frequently defined as the sequential production of useful thermal energy and shaft power from a single energy source. For applications that generate electricity, the power can either be used internally or supplied to the utility grid. This Special Issue intends to provide an overviews of the existing knowledge related with various aspects of “Small-Scale Energy Systems with Gas Turbines and Heat Pumps”, and contributions on, but not limited to the following subjects were encouraged: wake of stator vane to improve sealing effectiveness; gas turbine cycle with external combustion chamber for prosumer and distributed energy systems; computational simulation of gas turbine engine operating with different blends of biodiesel; experimental methodology and facility for the engine performance and emissions evaluation using jet and biodiesel blends; experimental analysis of an air heat pump for heating service; hybrid fuel cell-Brayton cycle for combined heat and power; design analysis of micro gas turbines in closed cycles. Seven papers were published in the Special Issue out of a total of 12 submitted. | ||
546 | |a English | ||
650 | 7 | |a History of engineering & technology |2 bicssc | |
653 | |a wave-shaped rim seal | ||
653 | |a sealing effectiveness | ||
653 | |a radial seal | ||
653 | |a gas turbine | ||
653 | |a computational fluid dynamics | ||
653 | |a biofuels | ||
653 | |a sustainable power generation | ||
653 | |a microturbines | ||
653 | |a gas turbine engine | ||
653 | |a two-spool turboprop engine | ||
653 | |a PT6A engine | ||
653 | |a aero-thermal model | ||
653 | |a Matlab-Simulink | ||
653 | |a bio-diesel | ||
653 | |a start-up transient | ||
653 | |a biodiesel | ||
653 | |a turbojet | ||
653 | |a energy performance | ||
653 | |a emissions | ||
653 | |a aviation | ||
653 | |a hardware-in-the-loop | ||
653 | |a heat pumps | ||
653 | |a dynamic simulation | ||
653 | |a experimental performances | ||
653 | |a control strategy | ||
653 | |a partial loads | ||
653 | |a on-off cycles | ||
653 | |a building dynamics | ||
653 | |a building-heating system coupling | ||
653 | |a supercritical CO2 | ||
653 | |a combined heat and power | ||
653 | |a flame-assisted fuel cells | ||
653 | |a carbon sequestration | ||
653 | |a solid oxide fuel cell | ||
653 | |a closed cycle gas turbine | ||
653 | |a different working fluids | ||
653 | |a thermodynamic analysis | ||
653 | |a design of turbines | ||
653 | |a design of compressors | ||
776 | |z 3-0365-0072-3 | ||
776 | |z 3-0365-0073-1 | ||
700 | 1 | |a Okamoto, Satoru |4 oth | |
906 | |a BOOK | ||
ADM | |b 2023-12-15 06:01:40 Europe/Vienna |f system |c marc21 |a 2022-04-04 09:22:53 Europe/Vienna |g false | ||
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