3-E ANALYSIS OF A HEAT PUMP DRIVEN BY A MICRO-COGENERATOR

Maurizio Sasso; Carlo Roselli; Raffaello Possidente; Sergio Sibilio

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3-E ANALYSIS OF A HEAT PUMP DRIVEN BY A MICRO-COGENERATOR

机译：微发电机驱动的热泵的3-E分析

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The cogeneration, or the combined production of electric (and/or mechanical) and thermal energy, is a well established technology, which has important environmental benefits and it has been noted by the European Community as one of the first elements to save primary energy, to avoid network losses and to reduce the greenhouse gas emissions. In particular, the study will be focused on the micro-cogeneration process with micro-combined heat and power system, or MCHP (electric power output <=15 kW), which represents a valid and interesting application of this technology applicable, above all, to residential and light commercial users. This paper presents the Energy, Economic and Environmental (3-E) analysis of a natural gas-fired MCHP in combination with an electric heat pump (EHP). The 3-E analysis of the MCHP/EHP begins with the results of a detailed experimental activity developed in a test facility [1] for a wide range of conditions. Two operating conditions were simulated: a heating mode with co-production of electric and thermal energy, and a cooling mode with co-production of electric, thermal and cooling energy (tri-generation). The annual operating performance, also based on the typical features of the Italian market, is also discussed with a simplified approach.

机译：热电联产或电能（和/或机械能和热能的联合生产）是一项成熟的技术，具有重要的环境效益，并且被欧洲共同体视为节省一次能源的首批要素之一，以避免网络损失并减少温室气体排放。尤其是，这项研究将集中于具有热电联产系统或MCHP（电力输出<= 15 kW）的微型热电联产过程，这代表了这项技术的有效且有趣的应用，最重要的是，住宅和轻型商业用户。本文介绍了结合电热泵（EHP）的天然气MCHP的能源，经济和环境（3-E）分析。 MCHP / EHP的3-E分析始于在测试设备中针对各种条件开发的详细实验活动的结果[1]。模拟了两个运行条件：加热模式与电能和热能共同产生，以及冷却模式与电能，热能和冷却能共同产生（三代）。还基于简化的方法来讨论年度运营绩效（也基于意大利市场的典型特征）。

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来源
《Proceedings of the ASME Advanced Energy Systems Division》 |2006年第null期|共6页
作者
Maurizio Sasso; Carlo Roselli; Raffaello Possidente; Sergio Sibilio;
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正文语种 eng
中图分类计量学;
关键词
micro-cogeneration; HVAC system; MCHP; EHP; energy analysis;

机译：微型热电联产;HVAC系统;MCHP;EHP;能源分析;

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1. 3-E ANALYSIS OF A HEAT PUMP DRIVEN BY A MICRO-COGENERATOR [J] . Maurizio Sasso, Carlo Roselli, Raffaello Possidente, Proceedings of the ASME Advanced Energy Systems Division . 2006,第Null期

机译：微发电机驱动的热泵的3-E分析
2. Analysis of operation and energy performance of a heat pump driven by a PV system for space heating of a single family house in polish conditions [J] . Chwieduk Bartosz, Chwieduk Dorota Renewable energy . 2021,第Pta2期

机译：PV系统驱动的热泵运行和能量性能分析，用于抛光条件下单个家庭房屋空间加热
3. Exergo-economic assessment and sensitivity analysis of a solar-driven combined cooling, heating and power system with organic Rankine cycle and absorption heat pump [J] . Chen Yuzhu, Xu Jinzhao, Zhao Dandan, Energy . 2021,第Sepa1期

机译：具有有机朗肯循环和吸收热泵太阳能驱动的混合冷却，加热和电力系统的exergo - 经济评估和敏感性分析
4. 3-E ANALYSIS OF A HEAT PUMP DRIVEN BY A MICRO-COGENERATOR [C] . Maurizio Sasso, Carlo Roselli, Raffaello Possidente, AES-vol.45; ASME(American Society of Mechanical Engineers) International Mechanical Engineering Congress and Exposition; 20051105-11; Orlando,FL(US) . 2005

机译：微型发电机驱动的热泵的3-E分析
5. Analysis and design of a solid adsorbent heat driven heat pump. [D] . Miles, Daniel Joseph. 1989

机译：固体吸附剂热驱动热泵的分析和设计。
6. Experimental study and performance analysis of solar-driven exhaust air thermoelectric heat pump recovery system [O] . Zhongbing Liu, Weijiao Li, Ling Zhang, -1

机译：太阳能驱动废气热电热泵回收系统的实验研究与性能分析
7. Numerical and experimental analysis of a novel heat pump driven sorption storage heater [O] . Devrim Aydin, Sean P. Casey, Xiangjie Chen, 2018

机译：新型热泵驱动吸附储层加热器的数值和实验分析
8. Magnetically coupled Stirling engine driven heat pump: Design optimization and operating cost analysis. [R] . Vincent, R. J., Waldron, W. D. 1990

机译：磁耦合斯特林发动机驱动的热泵：设计优化和运行成本分析。

3-E ANALYSIS OF A HEAT PUMP DRIVEN BY A MICRO-COGENERATOR

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