Abstract
The high consumption of fossil fuels (e.g., petroleum and natural gas) followed the industrial revolution and the introduction of new technologies and modern transportations. The high utilization of natural resources increases the environmental impact and climate change become a critical problem all over the world. Taiwan has set an aggressive target and proposed a set of greenhouse gas (GHG) control strategies to reduce carbon dioxide (CO2) emissions. Currently, Taiwan, similar to most developed nations, is highly dependent on thermal power which accounts for 70% of total primary energy supply in 2009. The data show that Taiwan needs to actively seek the renewable energy sources and promote effective policies to reduce carbon emissions, such as policies to promote the development of the solar energy industrial sector and utilization of solar energy products. The objective of this paper is to develop a dynamic cost-benefit evaluation method for administrative regions to review the effectiveness of their renewable energy policies. This paper develops system dynamics (SD) models to construct and simulate causal feedback relationships of solar energy applications (e.g., photovoltaics (PV) systems and solar water heating or lighting systems). The SD models, with causal feedback loops considering the renewable policies, have been developed and verified as workable with environmental and economic development experts. The results describe the relationship between the renewable policies, the impacts of economy, and the effects of carbon emissions. Afterward, the SD models are run with simulated data to analyze the required costs and related effects of carbon reduction policies. This research provides a formal methodology, reference models, and analytical results for evaluating renewable energy policies and strategies in different economic regions with different input and output factors.
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References
Bureau of Energy (BOE). Available at: <http://www.moeaboe.gov.tw/English/english_index.aspx?Group=4>. Accessed on: Feb. 9th 2011
Demiroren A, Yilmaz U. Analysis of change in electric energy cost with using renewable energy sources in Gökceada, Turkey: An island example. Renewable and Sustainable Energy Reviews, 2010; 14(1): 323-333.
Forrester JW. Industrial Dynamics. MIT Press, 1961
IPCC, 2007, IPCC Fourth assessment report (AR4), Available at: < http://www.ipcc.ch/publications_and_data/publications_ipcc_fourth_assessment_report_synthesis_report.htm > . Accessed on: Dec. 29th 2010
Liu HY, Wu SD. An assessment on the planning and construction of an island renewable energy system: A case study of Kinmen Island. Renewable Energy, 2010; 35(12): 2723-2731.
Nakata T, Silva D, Rodionov M. Application of energy system models for designing a low-carbon society. Progress in Energy and Combustion Science, 2010; (in press).
Oikonomou EK, Kilias V, Goumas A, Rigopoulos A, Karakatsani E, Damasiotis M., et al. Renewable energy sources (RES) projects and their barriers on a regional scale: The case study of wind parks in the Dodecanese islands, Greece. Energy Policy, 2009; 37(11): 4874-4883.
Shin KH, Kwon IH, Lee JH, Kim CO. Performance trajectory-based optimised supply chain dynamics. International Journal of Computer Integrated Manufacturing, 2010; 23(1): 87-100.
Srinivasan S. The Indian solar photovoltaic industry: A life cycle analysis. Renewable and Sustainable Energy Reviews, 2007; 11(1): 133-147.
Susman GI. Evolution of the solar energy industry: Strategic groups and industry structure. Portland International Conference on Management of Engineering and Technology, 2008: 2489–2498
Uemura Y, Kai T, Natori R, Takahashi T, Hatate Y, Yoshida M. et al. Potential of renewable energy sources and its applications in Yakushima Island. Renewable Energy, 2004; 29(4): 581-591.
United Nations. Kyoto protocol to the united nations framework convention on climate change. UNFCCC, 1998
Yim NH, Kim SH, Kim HW, Kwahk KY. Knowledge based decision making on higher level strategic concerns: System dynamics approach. Expert Systems with Applications, 2004; 27(1): 143-158.
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Trappey, C.V., Trappey, A.J.C., Lin, G.Y.P., Chang, YS. (2011). System Dynamics Evaluation of Renewable Energy Policies. In: Frey, D., Fukuda, S., Rock, G. (eds) Improving Complex Systems Today. Advanced Concurrent Engineering. Springer, London. https://doi.org/10.1007/978-0-85729-799-0_15
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DOI: https://doi.org/10.1007/978-0-85729-799-0_15
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