「INTEGRATED PLAN AND EVALUATION OF DISTRIBUTED ENERGY SYSTEMS BY AREA ENERGY NETWORK IN LOW CARBON COMMUNITY」の版間の差分
(ページの作成:「'''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…」) |
|||
| 1行目: | 1行目: | ||
| − | '''学生名''': | + | '''学生名''':範 理揚 |
'''研究テーマ''':English | '''研究テーマ''':English | ||
| 5行目: | 5行目: | ||
(日本語) | (日本語) | ||
| − | '''入学年月''': | + | '''入学年月''':2009.10 |
| − | '''修了年月''': | + | '''修了年月''':2013.09 |
'''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 planning and evaluation of distributed energy systems (DES) in low-carbon communities, focusing on energy networks that utilize renewable and untapped energy resources. Increasing urban density and energy consumption exacerbate environmental challenges, such as greenhouse gas emissions and energy inefficiency. While traditional energy approaches emphasize centralized systems, this research advocates for area energy networks that prioritize localized, distributed energy solutions tailored to community-specific needs. |
| + | |||
| + | The research begins by analyzing the characteristics, benefits, and challenges of existing distributed energy generation technologies and introduces the concept of area energy networks. Using Geographic Information Systems (GIS), the study maps and assesses renewable and untapped energy resources to identify optimal integration points within urban environments. A case study in Kitakyushu demonstrates the feasibility of collaborative energy utilization among residential, industrial, and commercial sectors, employing technologies like Combined Heat and Power (CHP) systems and thermal energy storage through PCM (Phase Change Materials). | ||
| + | |||
| + | Findings reveal that distributed systems integrated into community-scale networks can achieve significant energy savings, reduce carbon emissions, and enhance system resilience. This integrated approach, supported by GIS-based planning and smart grid technologies, offers a pathway to sustainable urban energy management. The proposed models and methodologies provide actionable insights for policymakers, engineers, and urban planners aiming to create low-carbon, energy-efficient communities. | ||
2024年12月29日 (日) 23:01時点における最新版
学生名:範 理揚
研究テーマ:English
(日本語)
入学年月:2009.10
修了年月:2013.09
取得学位:博士(工学)
論文概要:This study explores the planning and evaluation of distributed energy systems (DES) in low-carbon communities, focusing on energy networks that utilize renewable and untapped energy resources. Increasing urban density and energy consumption exacerbate environmental challenges, such as greenhouse gas emissions and energy inefficiency. While traditional energy approaches emphasize centralized systems, this research advocates for area energy networks that prioritize localized, distributed energy solutions tailored to community-specific needs.
The research begins by analyzing the characteristics, benefits, and challenges of existing distributed energy generation technologies and introduces the concept of area energy networks. Using Geographic Information Systems (GIS), the study maps and assesses renewable and untapped energy resources to identify optimal integration points within urban environments. A case study in Kitakyushu demonstrates the feasibility of collaborative energy utilization among residential, industrial, and commercial sectors, employing technologies like Combined Heat and Power (CHP) systems and thermal energy storage through PCM (Phase Change Materials).
Findings reveal that distributed systems integrated into community-scale networks can achieve significant energy savings, reduce carbon emissions, and enhance system resilience. This integrated approach, supported by GIS-based planning and smart grid technologies, offers a pathway to sustainable urban energy management. The proposed models and methodologies provide actionable insights for policymakers, engineers, and urban planners aiming to create low-carbon, energy-efficient communities.