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2930. "Pig-Electricity Synergy" System in Sustainable Energy Development
Invited abstract in session MC-53: Sustainable Energy, stream Sustainable and Resilient Systems.
Monday, 12:30-14:00Room: 8007 (building: 202)
Authors (first author is the speaker)
| 1. | HUANG SUN-WENG.
|
| Department of Health Care Management, National Taipei University of Nursing and Health Sciences | |
| 2. | JIAN-HUA XIA
|
| Department of Intelligent Life Technology, Huafan University | |
| 3. | James Liou
|
| Industrial Engineering and Management, National Taipei University of Technology | |
| 4. | Gwo-Hshiung Tzeng
|
| Graduate Institute of Urban Planning, National Taipei University |
Abstract
In the current scenario where energy crises are increasingly evident, the development of renewable energy has become a crucial pathway towards achieving sustainable development. The "Pig-Electricity Synergy" system emerges as an advanced energy solution, seamlessly integrating pig farming and solar energy storage technologies.The core advantage of this technology lies in its integrated application of solar energy and storage technology, forming a diverse and reliable energy management system.The uniqueness of the "Pig-Electricity Synergy" system lies in its successful realization of the integration of solar energy and pig farming, enhancing energy reliability through collaborative operations and significantly mitigating system risks. The resulting diverse and flexible energy management system not only meets the escalating demands of energy but also contributes to enhancing the resilience of the overall energy framework. This study employs DEMATEL analysis and ISM modeling to delve into the pivotal role of the "Pig-Electricity Synergy" system in sustainable energy development. Through a comprehensive analysis of the system's technology, diverse energy integration, and flexibility, the research aims to provide tangible and viable solutions for sustainable energy development. The application of DEMATEL and ISM contributes to a deeper understanding of the inherent relationships within the system, offering profound insights for sustainable development decision-making.
Keywords
- Sustainable Development
- Critical Decision Making
- Multi-Objective Decision Making
Status: accepted
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