Study on energy conservation effects of housing electricity and heat source equipments: Installation effect of distributed power and heat source system for housing (Part 2)

Hiroshi Kuroki; Shotaro Shimizu; Miharu Nakao; Hiroko Aoki; Hiroto Takaguchi; Toshiyuki Watanabe

doi:10.3130/aije.75.43

Study on energy conservation effects of housing electricity and heat source equipments: Installation effect of distributed power and heat source system for housing (Part 2)

Hiroshi Kuroki^*, Shotaro Shimizu, Miharu Nakao, Hiroko Aoki, Hiroto Takaguchi, Toshiyuki Watanabe

^*この研究の対応する著者

創造理工学部

研究成果: Article › 査読

5 被引用数 (Scopus)

抄録

This paper presents effects of housing electricity and heat source equipments. We studied about energy saving effects of 4 equipments, CO ₂ Heat Pump water heater (CO₂-HP), Micro Gas Engine Co-Generation System (GE-μ CGS), Polymer Electrolyte Fuel Cell Co-Generation System (PEFC-CGS), and Solid Oxide Fuel Cell Co-Generation System (SOFC-CGS). As the result, we have found that energy consumption and CO₂ emission reduction rate is the highest in case of SOFC-CGS. Energy consumption is reduced by 17-20% using SOFC-CGS on Electric Power Load Tracking Operation, and 44-47% on Rated Operation. And CO₂ emission is reduced by 5-20% on Electric Power Load Tracking Operation and 22-46% on Rated Operation.

本文言語	English
ページ（範囲）	43-50
ページ数	8
ジャーナル	Journal of Environmental Engineering
巻	75
号	647
DOI	https://doi.org/10.3130/aije.75.43
出版ステータス	Published - 2010 1月

ASJC Scopus subject areas

環境工学

UN SDG

この成果は、次の持続可能な開発目標に貢献しています

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10.3130/aije.75.43

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引用スタイル

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title = "Study on energy conservation effects of housing electricity and heat source equipments: Installation effect of distributed power and heat source system for housing (Part 2)",

abstract = "This paper presents effects of housing electricity and heat source equipments. We studied about energy saving effects of 4 equipments, CO 2 Heat Pump water heater (CO2-HP), Micro Gas Engine Co-Generation System (GE-μ CGS), Polymer Electrolyte Fuel Cell Co-Generation System (PEFC-CGS), and Solid Oxide Fuel Cell Co-Generation System (SOFC-CGS). As the result, we have found that energy consumption and CO2 emission reduction rate is the highest in case of SOFC-CGS. Energy consumption is reduced by 17-20% using SOFC-CGS on Electric Power Load Tracking Operation, and 44-47% on Rated Operation. And CO2 emission is reduced by 5-20% on Electric Power Load Tracking Operation and 22-46% on Rated Operation.",

keywords = "Co-generation system, Model-based simulation, Polymer electrolyte fuel cell, Primary energy reduction, Solid oxide electrolyte fuel cell Gas Engine Co-Generation System",

author = "Hiroshi Kuroki and Shotaro Shimizu and Miharu Nakao and Hiroko Aoki and Hiroto Takaguchi and Toshiyuki Watanabe",

year = "2010",

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doi = "10.3130/aije.75.43",

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AU - Kuroki, Hiroshi

AU - Shimizu, Shotaro

AU - Nakao, Miharu

AU - Aoki, Hiroko

AU - Takaguchi, Hiroto

AU - Watanabe, Toshiyuki

PY - 2010/1

Y1 - 2010/1

N2 - This paper presents effects of housing electricity and heat source equipments. We studied about energy saving effects of 4 equipments, CO 2 Heat Pump water heater (CO2-HP), Micro Gas Engine Co-Generation System (GE-μ CGS), Polymer Electrolyte Fuel Cell Co-Generation System (PEFC-CGS), and Solid Oxide Fuel Cell Co-Generation System (SOFC-CGS). As the result, we have found that energy consumption and CO2 emission reduction rate is the highest in case of SOFC-CGS. Energy consumption is reduced by 17-20% using SOFC-CGS on Electric Power Load Tracking Operation, and 44-47% on Rated Operation. And CO2 emission is reduced by 5-20% on Electric Power Load Tracking Operation and 22-46% on Rated Operation.

AB - This paper presents effects of housing electricity and heat source equipments. We studied about energy saving effects of 4 equipments, CO 2 Heat Pump water heater (CO2-HP), Micro Gas Engine Co-Generation System (GE-μ CGS), Polymer Electrolyte Fuel Cell Co-Generation System (PEFC-CGS), and Solid Oxide Fuel Cell Co-Generation System (SOFC-CGS). As the result, we have found that energy consumption and CO2 emission reduction rate is the highest in case of SOFC-CGS. Energy consumption is reduced by 17-20% using SOFC-CGS on Electric Power Load Tracking Operation, and 44-47% on Rated Operation. And CO2 emission is reduced by 5-20% on Electric Power Load Tracking Operation and 22-46% on Rated Operation.

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KW - Model-based simulation

KW - Polymer electrolyte fuel cell

KW - Primary energy reduction

KW - Solid oxide electrolyte fuel cell Gas Engine Co-Generation System

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