Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/4970
標題: 中彰投三縣市都市廢棄物最佳清運、回收與處理策略之研擬
The optimal municipal solid waste management strategies for Taichung, Changhua and Nantou
作者: 王中祺
Wang, Zhong-Qi
關鍵字: Central Taiwan;中台灣;municipal solid waste;linear programming;optimization;都市廢棄物;線性規劃;最佳化
出版社: 環境工程學系所
引用: 行政院環境保護署,環境品質倉儲系統,2010。http://edw.epa.gov.tw/ 行政院環境保護署,「中華民國環境保護統計年報」,2009。 行政院環境保護署,「垃圾焚化灰渣再利用推動計畫」,2010。 行政院環境保護署,「南投縣、新竹縣及花蓮縣停建焚化廠所提100年至104年之垃圾轉運計畫及監督稽查計畫」,2010。 行政院環境保護署,「資源物分類回收再利用及廚餘回收區域合作評估計畫」,中華民國97年。 行政院環境保護署,「應回收廢棄物回收清除處理成本調查分析及費率訂定計畫」,中華民國96年。 何澄祥,「都市廢棄物收集與處理之研究-以台中市為例」,碩士論文,逢甲大學都市計畫學系碩士班,2006。 李德威,「建築廢棄物收容處理場所設置最佳區位評選之研究」,碩士論文,國立 中央大學營建管理研究所,2006。 汪青慧,「垃圾焚化廠經營績效評估」,碩士論文,國立成功大學建築研究所,2008。 林駿,「環境規劃與管理(下)-實務篇及國際篇」,鼎茂圖書出版股份有限公司,1994。 林駿,「環境規劃與管理(上)-基礎篇及政策篇」,鼎茂圖書出版股份有限公司, 1995。 林耕全,「裝修工程廢棄物回收站與再利用廠設置最佳化區位評選之研究」,碩士 論文,國立中央大學營建管理研究所,2005。 張乃斌,「環境系統分析(上策)」,茂昌圖書有限公司,2002。 張仁福,「環境品質規劃與管理」,揚智文化事業股份有限公司,1996。 張益誠、余泰毅,「電腦在環境工程與管理上的應用」,文魁資訊股份有限公司, 2003。 張耀仁,「都市廢棄物管理決策資源系統之建立-以台灣中部地區為例」,碩士論文,國立中興大學環境工程研究所,2008。 郭宗興,「廚餘收集處理模式最適化分析」,碩士論文,朝陽科技大學環境工程與 管理系,2008。 陳正忠、張靜貞,「台灣焚化爐跨區域代燒垃圾之成本評價模式分析」,第9屆全國實證經濟學論文研討會,2008。 陳玟君,「地方政府垃圾跨縣市處理之研究-以「計量收費」合作模式之縣市為 例」,碩士論文,東海大學行政管理暨政策研究所,2008。 陳冠華,「一般廢棄物資源回收決策支援系統之發展」,碩士論文,朝陽科技大學環境工程與管理系,2007。 彭業煌,「大型都市垃圾焚化廠營運與發電效率之研究」,碩士論文,國立中央大 學環境工程研究所,2009。 馮景如,「作業研究」,滄海書局,2000。 黃敏郎、劉守恆,「地理資訊系統基礎操作實務第二版」,統一元氣資產管理股份有限公司,2009。 廖慶榮,「作業研究」,三民書局,2004。 蔡淑如,「台灣地區大型垃圾焚化廠績效評估」,碩士論文,朝陽科技大學環境工程與管理系,2007。 蘇俊賓,「台灣廢棄物政策評析與廢棄物政策高峰會意義」,『全國廢棄物政策高 峰會』分區會議 立法院永續會報告,2003。 Badran, M. F., and El-Haggar, S. M., Optimization of municipal solid waste management in Port Said – Egypt, Waste Management, 26, 534-545, 2006. Chang, N. B., and Davila, E., Minimax regret optimization analysis for a regional solid waste management system, Waste Management, 27, 820-832, 2007. Chang, N. B., and Lin, Y. T., Economic Evaluation of a Regionalization Program for Solid Waste Management in a Metropolitan Region, Journal of Environmental Management, 51, 241-274, 1997. Chang, N. B., and Wang, S. F., A fuzzy goal programming approach for the optimal planning of metropolitan solid waste management systems, European Journal of Operational Research, 99, 303-321, 1997a. Chang, N. B., and Wang, S. F., Integrated analysis of recycling and incineration programs by goal programming techniques, Waste Management & Research, 15, 121-136, 1997b. Chang, N. B., and Wang, S. F., Solid Waste Management System Analysis by Multiobjective Mixed Integer Programming Model, Journal of Environmental Management, 48, 17-43, 1996. Chang, N. B., Chang, Y. H., and Chen, Y. L., Cost-effective and equitable workload operation in solid-waste management systems, Journal of Environmental engineering, 1997. Chang, N. B., Davila, E., Dyson, B., and Brown, R., Optimal design for sustainable development of a material recovery facility in a fast-growing urban setting, Waste Management, 25, 833-846, 2005. Chang, N. B., Shoemaker, C. A., and Schuler, R. E., Solid waste management system analysis with air pollution and leachate impact limitations, Waste Management & Research, 14, 463-481, 1996. Chang, Y. H., and Chang, N. B., Optimization analysis for the development of short-team waste management strategies using presorting process prior to incinerators, Resources, Conservation and Recycling, 24(1), 7-32, 1998. Chang, Y. J., and Lin, M. D., Economic Evaluation of Municipal Solid Waste Management System for Taiwan’s Taichung Special Municipality, 2nd International Conference on Environmental Science and Technology, 2011. Eriksson, O., Reich, M. C., Frostell, B., Bjorklund, A., Assefa, G., Sundqvist, J. O., Granath, J., Baky, A., and Thyselius, L., Municipal solid waste management from a systems perspective, Journal of Cleaner Production, 13, 241-252, 2005. Fiorucci, P., Minciardi, R., Robba, M.,and Sacile, R., Solid waste management in urban areas Development and application of a decision support system, Resources, Conservation and Recycling, 37, 301-328, 2003. Galante, G., Aiello, G., Enea, M., and Panascia, E., A multi-objective approach to solid waste management, Waste Management, 30, 1720-1728, 2010. Garg, A., Smith, R., Hill, D., Longhurst, P. J., Pollard, S. J. T., and Simms, N. J., An integrated appraisal of energy recovery options in the United Kingdom using solid recovered fuel derived from municipal solid waste, Waste Management, 29, 2289-2297, 2009. Guermoud, N., Ouadjnia, F., Abdelmalek, F., Taleb, F., and addou, A., Municipal solid waste in Mostaganem city (Western Algeria), Waste Management, 29, 896-902, 2009. He, L., Huang, G. H., Zeng, G. M., and Lu, H. W., Identifying optimal regional solid waste management strategies through an inexact integer programming model containing infinite objectives and constraints, Waste Management, 29, 21-31, 2009. Huang, G. H., Baetz, B. W., and Patry, G. G., Grey integer programming: An application to waste management planning under uncertainty, European Journal of Operational Research, 83, 594-620, 1995. Huang, Y. S., Ting, C. T., and Li, T. L., Evaluating the Efficiency of City Municipal Solid Waste Treatment in Taiwan, International Conference on Asia Pacific Business Innovation and Technology Management, 2010. Kirkeby, J. T., Birgisdottir, H., Hansen, T. L., and Christensen, T. H., Evaluation of environmental impacts from municipal solid waste management in the municipality of Aarhus, Denmark (EASEWASTE), Waste Manage Res, 24, 16-26, 2006. Ley, E., Macauley, M. K., and Salant, S. W., Spatially and Intertemporally Efficient Waste Management: The Costs of Interstate Trade Restrictions, Journal of Environmental Economics and Management, 43, 188-218, 2002. Lin, M. D., Wang, C.,and Lin, C., Evaluation of Solid Waste Management Strategies in the Taipei Metropolitan Area of Taiwan, Journal of the Air & Waste Management Association, 56, 650-656, 2006. Maqsood, I., Huang, G. H., and Zeng, G. M., An inexact two-stage mixed integer linear programming model for waste management under uncertainty, Civil Engineering and Environmental Systems, 21(3), 187-206, 2004. Marans, R. W., and Lee, Y. J., Linking recycling behavior to waste management planning: A case study of office workers in Taiwan, Landscape and Urban Planning, 26, 203-214, 1993. Minciardi, R., Paolucci, M., Robba, M., and Sacile, R., Multi-objective optimization of solid waste flows: Environmentally sustainable strategies for municipalities, Waste Management, 28, 2202-2212, 2008. Rathi, S., Optimization model for integrated municipal solid waste management inMumbai, India, Environment and Development Economics, 12, 105-121, 2007. Rodionov, M., and Nakata, T., Design of an Optimal Waste Utilization System: A Case Study in St. Petersburg, Russia, Sustainability, 3(9), 1486-1509, 2011. Rotich, K. H., Zhao, Y., and Dong, J., Municipal solid waste management challenges in developing countries – Kenyan case study, Waste Management, 26, 92-100, 2006. Sharifi, M., Hadidi, M., Vessali, E., Mosstafakhani, P., Taheri, K., Shahoie, S., and Khodamoradpour, M., Integrating multi-criteria decision analysis for a GIS-based hazardous waste landfill sitting in Kurdistan Province, western Iran, Waste Management, 29, 2740-2758, 2009. Su, J., Xi, B. D., Liu, H. L., Jiang, Y. H., and Warith, M. A., An inexact multi-objective dynamic model and its application in China for the management of municipal solid waste, Waste Management, 28, 2532-2541, 2008. Tanskanen, J. H., Strategic planning of municipal solid waste management, Resources, Conservation and Recycling, 30, 111-133, 2000. Tavares, G., Zsigraiova, Z., Semiao, V., and Carvalho, M. G., Optimisation of MSW collection routes for minimum fuel consumption using 3D GIS modelling, Waste Management, 29, 1176-1185, 2009. Tralhao, L., Coutinho-Rodrigues, J., and Alcada-Almeida, L., A multiobjective modeling approach to locate multi-compartment containers for urban-sorted waste, Waste Management, 30, 2418-2429, 2010. Vego, G., Kucar-Dragicevic, S, and Koprivanac, N, Application of multi-criteria decision-making on strategic municipal solid waste management in Dalmatia, Croatia, Waste Management, 28, 2192-2201, 2008. Wang, C., Lin, M. D., and Lin, C., Factors Influencing Regional Municipal Solid Waste Management Strategies, Journal of the Air & Waste Management Association, 58, 957-964, 2008. Young, D., Scharp, R., and Cabezas, H., The waste reduction (WAR) algorithm: environmental impacts, energy consumption, and engineering economics, Waste Management, 20, 605-615, 2000.
摘要: 
在現今社會,由於人口增加,工業快速成長,自然環境的過度利用,造成生態環境之汙染與不平衡,也因經濟活動日趨頻繁,使得垃圾產量不僅與日俱增,不同種類的垃圾更增加了處理的困難,在環境保護意識日漸高漲的今天,垃圾處理成為一個重要的環境課題。本研究之目的在於將台灣中部區域縣市(台中市、彰化縣、南投縣)視為一整體區塊,透過區域聯合營運研擬最小營運成本的都市廢棄物清運處理策略。本研究以Python語言配合線性規劃技術建立「都市廢棄物管理系統」。研究結果顯示區域聯營為較佳之管理策略,其中在整體收入方面,與其他收益相比較,資源回收為各類處理方式中較具經濟效益的一種,而堆肥法在目前條件下則較不具備經濟效益。

In modern society, due to the increase of population, industry and economic activities, the amounts of solid waste also tremendously increased. Therefore, solid waste management has become a global issue all over the world. The main goal of this study is to investigate the least-cost strategy for the management of municipal solid waste (MSW) of Taichung City, Changhua County and Nantou County. The impacts of regional co-operation MSW strategy on costs are also evaluated. Linear programming are employed to optimize the MSW management system. The results indicate that regional co-operation MSW strategy is more economic than the current policy. For revenues of the MSW management system, resources recycling has higher efficiency than others. However, currently compost is not an economic way to treat kitchen wastes.
URI: http://hdl.handle.net/11455/4970
其他識別: U0005-0602201213200200
Appears in Collections:環境工程學系所

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