「INTEGRATED EVALUATION OF ENERGY USE BY INTRODUCING THE DISTRIBUTED ENERGY RESOURCES IN THAILAND’S COMMERCIAL BUILDINGS」の版間の差分
(ページの作成:「'''学生名''':渡利 和之 '''研究テーマ''':English (日本語) '''入学年月''':2009.04 '''修了年月''':2012.03 '''取得学位''':博士(工学)…」) |
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| − | '''学生名''': | + | '''学生名''':Suapphong Kritsanawonghong |
'''研究テーマ''':English | '''研究テーマ''':English | ||
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(日本語) | (日本語) | ||
| − | '''入学年月''': | + | '''入学年月''':2011.10 |
| − | '''修了年月''': | + | '''修了年月''':2014.09 |
'''取得学位''':博士(工学) | '''取得学位''':博士(工学) | ||
| − | 論文概要: | + | 論文概要:This study explores the feasibility and impact of introducing Distributed Energy Resources (DERs) in commercial buildings in Thailand. With increasing energy demands and the depletion of traditional energy resources, DERs, including Combined Heat and Power (CHP) systems, renewable energy technologies, and storage solutions, offer significant potential for improving energy efficiency, reducing environmental pollution, and enhancing energy security. |
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| + | The research first investigates Thailand’s current energy landscape, including primary energy supplies, energy policies, and the potential for DER adoption. Key technologies such as biomass-based generators, photovoltaic systems, and micro turbines are evaluated for their applicability in commercial settings. The study also examines regulatory frameworks, focusing on incentives for Small Power Producers (SPPs) and Very Small Power Producers (VSPPs), and reviews energy efficiency strategies proposed by the government. | ||
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| + | Using case studies of commercial buildings, including office buildings, hotels, and convenience stores, the research evaluates the performance of CHP systems in terms of energy savings, environmental impact, and economic viability. Results indicate that optimal sizing and integration of DERs can reduce primary energy consumption by more than 20%, significantly lowering operational costs and carbon emissions. Furthermore, the study demonstrates that tailored DER solutions can enhance energy resilience and reduce dependency on centralized energy systems. | ||
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| + | This comprehensive evaluation provides critical insights for policymakers, engineers, and building operators, promoting the adoption of DERs as a key component of sustainable urban development in Thailand. The findings underline the importance of targeted investment and policy support to unlock the full potential of DER technologies for a low-carbon future. | ||
2024年12月29日 (日) 22:57時点における最新版
学生名:Suapphong Kritsanawonghong
研究テーマ:English
(日本語)
入学年月:2011.10
修了年月:2014.09
取得学位:博士(工学)
論文概要:This study explores the feasibility and impact of introducing Distributed Energy Resources (DERs) in commercial buildings in Thailand. With increasing energy demands and the depletion of traditional energy resources, DERs, including Combined Heat and Power (CHP) systems, renewable energy technologies, and storage solutions, offer significant potential for improving energy efficiency, reducing environmental pollution, and enhancing energy security.
The research first investigates Thailand’s current energy landscape, including primary energy supplies, energy policies, and the potential for DER adoption. Key technologies such as biomass-based generators, photovoltaic systems, and micro turbines are evaluated for their applicability in commercial settings. The study also examines regulatory frameworks, focusing on incentives for Small Power Producers (SPPs) and Very Small Power Producers (VSPPs), and reviews energy efficiency strategies proposed by the government.
Using case studies of commercial buildings, including office buildings, hotels, and convenience stores, the research evaluates the performance of CHP systems in terms of energy savings, environmental impact, and economic viability. Results indicate that optimal sizing and integration of DERs can reduce primary energy consumption by more than 20%, significantly lowering operational costs and carbon emissions. Furthermore, the study demonstrates that tailored DER solutions can enhance energy resilience and reduce dependency on centralized energy systems.
This comprehensive evaluation provides critical insights for policymakers, engineers, and building operators, promoting the adoption of DERs as a key component of sustainable urban development in Thailand. The findings underline the importance of targeted investment and policy support to unlock the full potential of DER technologies for a low-carbon future.