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公开(公告)号:US20160237892A1
公开(公告)日:2016-08-18
申请号:US15029466
申请日:2014-10-13
发明人: Dragan STEVANOVIC , Karl BROTZMANN
CPC分类号: F02C1/04 , F02C1/05 , F02C6/16 , F02C7/08 , F02C7/10 , F28D20/00 , F28D20/02 , Y02E60/142 , Y02E60/15
摘要: The invention relates to a method for storing energy by converting the energy into thermal energy and then generating power by means of a gas turbine set with a compressor (1), an expander (6) and a power generator (8), comprising at least one (3) and a second (4) low-temperature storage unit, where the electric energy is stored only in form of high-temperature heat (above the turbine outlet temperature TOT) in a thermal storage unit (5). Depending on the requirements, a compressed gas from the compressor (1) is heated to a temperature approximating the turbine outlet temperature TOT in a low-temperature storage unit (3, 4) and then heated to a temperature level of at least turbine inlet temperature TIT in a high-temperature storage unit (5) using stored heat from electric energy and supplied to a gas turbine (6) in order to generate power.
摘要翻译: 本发明涉及一种通过将能量转换成热能然后通过具有压缩机(1),膨胀器(6)和发电机(8)的燃气轮机组发电来存储能量的方法,至少包括 一个(3)和第二(4)个低温存储单元,其中电能仅以热存储单元(5)中的高温热(高于涡轮出口温度TOT)的形式存储。 根据要求,来自压缩机(1)的压缩气体在低温存储单元(3,4)中被加热到接近涡轮机出口温度TOT的温度,然后被加热至至少涡轮机入口温度 TIT在高温存储单元(5)中使用来自电能的储存热量并供应到燃气轮机(6)以产生电力。
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公开(公告)号:US10794276B2
公开(公告)日:2020-10-06
申请号:US15565867
申请日:2015-04-13
发明人: Dragan Stevanovic , Karl Brotzmann
摘要: The present invention relates to a process of storing energy through the conversion of thermal energy and subsequent power generation by means of a gas turbine set with compressor, expander and power generator, with at least one and with a second low-temperature reservoir, and a high-temperature reservoir with bulk material as the heat storage medium, the electric energy is stored in the form of high-temperature heat above the turbine outlet temperature in a thermal reservoir, that during the power generation phase a compressed gas from the compressor is heated in a low-temperature reservoir to a temperature near the turbine outlet temperature and subsequently heated in a high-temperature reservoir with stored heat from electric power to a temperature level of at least the turbine inlet temperature, and that the ratio between the bed height in flow direction and the mean particle diameter of the bulk material in the high-temperature reservoir is at least 10.
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公开(公告)号:US20210062713A1
公开(公告)日:2021-03-04
申请号:US16850756
申请日:2020-04-16
发明人: Dragan STEVANOVIC , Karl BROTZMANN
摘要: The invention relates to a method for storing energy by converting the energy into thermal energy and then generating power by means of a gas turbine set with a compressor (1), an expander (6) and a power generator (8), comprising at least one (3) and a second (4) low-temperature storage unit, where the electric energy is stored only in form of high-temperature heat (above the turbine outlet temperature TOT) in a thermal storage unit (5). Depending on the requirements, a compressed gas from the compressor (1) is heated to a temperature approximating the turbine outlet temperature TOT in a low-temperature storage unit (3, 4) and then heated to a temperature level of at least turbine inlet temperature TIT in a high-temperature storage unit (5) using stored heat from electric energy and supplied to a gas turbine (6) in order to generate power.
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公开(公告)号:US20180106195A1
公开(公告)日:2018-04-19
申请号:US15565867
申请日:2015-04-13
发明人: Dragan STEVANOVIC , Karl BROTZMANN
CPC分类号: F02C6/14 , F02C1/05 , F02C7/16 , F02C7/22 , F05D2220/32 , F05D2220/76 , F05D2260/2214 , F05D2260/42 , F05D2300/30 , F05D2300/5023 , F28D20/0056
摘要: The present invention relates to a process of storing energy through the conversion of thermal energy and subsequent power generation by means of a gas turbine set with compressor (1), expander (6) and power generator (8), with at least one (3) and with a second (4) low-temperature reservoir, and a high-temperature reservoir (5) with bulk material as the heat storage medium (11), characterized in that, the electric energy is stored in the form of high-temperature heat above the turbine outlet temperature TOT in a thermal reservoir (5), that during the power generation phase a compressed gas from the compressor (1) is heated in a low-temperature reservoir (3, 4) to a temperature near the turbine outlet temperature TOT and subsequently heated in a high-temperature reservoir (5) with stored heat from electric power to a temperature level of at least the turbine inlet temperature TIT, and that the ratio between the bed height in flow direction and the mean particle diameter of the bulk material (11) in the high-temperature reservoir (5) is at least 10, preferably at least 100, more preferably at least 250, even more preferably at least 500 and especially preferably at least 1000, in addition, a means in which this process can be used.
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