參考文獻 |
一、英文文獻
Alatriste-Mondragon, F., P. Samar, H.H.J. Cox, B.K. Ahring, and R. Iranpour(2006). “Anaerobic codigestion of municipal, farm, and industrial organic wastes: a survey of recent literature.” Water Environ. Res. 78. p.607~363.
Angelidaki, I. and L. Ellegaard(2003). “Codigestion of manure and organic wastes in centralized biogas plants – status and future trends.” Appl. Biochem. Biotechnol, 109. p.95~105.
Angelidaki, I. and B. K. Ahing(1997). “Co-digestion of olive mill wastewaters with manure, household waste or sewage sludge.” Biodegradation, Vol.8, p.221~226.
Angelidaki, I., B. K. Ahing, H. Deng and J. E. Schmidt(2002). Anaerobic digestion of olive mill effluents together with swine manure in UASB reactor.” Water Science Technology, Vol.45, p.213~218.
Apples, L., J. Baeyens, J. Degrève and R. Dewil (2008). “Principles and potential of the anaerobic digestion of waste-activated sludge.” Progress in Energy and Combustion Science 34(6), p.755~781.
Bardiya, N. and A.C. Gaur(1997). “Effects of carbon and nitrogen ratio on rice straw biomethanation.” J. Rural Energy, 4. p.1~16.
Bendixen, H. J.(1994). “Safeguards against pathogens in Danish biogas plants.” Water Sci. Tech. 30(12), p.171~180.
BiofermTM Energy System, 2008.
Bitton, G.(1994). “Wastewater Microbiology.” John Wiley-Liss.
Boe, K., Karakashev, D., Trably, E. and Angelidaki, I.(2009). “Effect of post-digestion temperature on serial CSTR biogas reactor performance.” Water Research, Vol. 43, p. 669~676.
Bouallagui, H., A. Torrijos, J.J. Godon, R. Moletta, R. Ben Cheikh, Y. Touhami, J.P. Delgenes, and A.H. Di.(2003). “Mesophilic biogas production from fruit and vegetable waste in a tubular digester.” Biores. Technol. 86, p.85~89.
Boubaker, F. and B. C. Ridha(2007). “Anaerobic co-digestion of olive mill wastewater with olive mill solid waste in a tubular digester at a mesophilic temperature.” Bioresource Technology, 98, p.769~774.
Buffiere, P., D. Loisel, N. Bernet, and J. P. Delgenes(2006). “Towards new indicators for the prediction of solid waste anaerobic disgestion properties.” Water Sci. Technol. 53. p.233~241.
Buhr, H. O. and J. F. Andrews(1977). “The Thermophilic Anaerobic Digestion Process.” Wat. Res., 11, p.129~143.
Callaghan, F. J., D. A. J. Wase, K. Thayanithy and C. F. Forster(1999). “Co-digestion of waste organic solids: batch studies.” Bioresource Technology, 67, p.117~122.
Callaghan, F. J., D. A. J. Wase, K. Thayanithy and C. F. Forster(2002). “Continuous co-digestion of cattle slurry with fruit and vegetable wastes and chicken manure.” Biomass and Bioenergy, 27, p.71~77.
Chae, K. J., A. Jang, S. K. Yim and I.S. Kim(2008). “The effects of digestion temperature and temperature shock on the biogas yields from the mesophilic anaerobic digestion of swine manure.” Biores. Technol. 99. p.1~6.
De Baere, L.(2000). “Anaerobic digestion of solids waste: state of the art.”Water Sci. Technol., 41. p.283~290.
Fischer, T. and A. Krieg(2001). “About Dry Fermentation in Agriculture.” Biogas Journal Nr.1, p.12~16.
Fezzani, B. and R. Ben Cheikh(2007). “Thermophilic anaerobic co-digestion of olive mill wastewater with olive mill solid wastes in a tubular digester.” Chem. Eng. J. 132. p.195~203.
Fujita, M. J. and M. Moo-Yong(1997). “Effect of corn stover addition on the anaerobic digestion of swin manure.” Agricultural Wastes, 2(3), p.177~184.
Gannoun, H., N. Ben Othman, H. Bouallagui, and H. Moktar(2007). “Meshophilic and thermophilic anaerobic co-digestion of olive mill wastewaters and abattoir wastewaters in an upflow anaerobic filter.” Ind. Eng. Chem. Res. 46. p.6737~6743.
Hegde, G. and P. Pullammanappallil(2007). “Comparison of thermophilic and mesophilic one-stage, batch, high-solids anaerobic digestion.” Environ. Technol. 28. p.361~369.
IPCC.(2007). “Fourth Assessment Report: Climate Change (AR4).”
Jarvis, A.(2004). “Biogas – renewable energy from organic waste.” Swedish Biogas Association.
Kaparaju, P., Buendia, I., Ellegaard, L. and I. Angelidakia(2008). “Effects of mixing on methane production during thermophilic anaerobic digestion of manure: Lab-scale and pilot-scale studies.” Bioresour.Technolog, 99. p.4919-4928
Karimi, K,. S. Kheradmankinia and M. Taherzadeh(2006). “Conversion of rice straw to sugars by dilute-acid hydrolysis.” Biomass and Bioenergy Vol.30, p.247~253.
Kayhanian, M. and Hardy, S.(1994). “The impact of four design parameters on the performance of high-solids anaerobic digestion of municipal solid waste for fuel gas production.” Environ. Technol. 15. p.557~567.
Kim, M., Ahn, Y. H. and Speece, R. E.(2002). “Comparative process stability and efficiency of anaerobic digestion; mesophilic vs. thermophilic.” Water Research, Vol. 36. p.4369~4385.
Kolumbus, F.(2007). Basic Information on Biogas.
Komemoto, K., Lim, Y. G., Nagao, N., Onoue, Y., Niwa, C. and T. Toda(2009). “Effect of temperature on VFA’s and biogas production in anaerobic solubilization of food waste.” Waste Manag., 29. p.2950-2955
Kumar, R., M. K. Gupta, S. S. Kanwar(1999). “Fate of bacterial pathogens in cattle dung slurry subjected to anaerobic digestion.” World Journal of Microbiology & Biotechnology 15, p.335~338.
Lalman, J. A.(2000). “Anaerobic Degradation of Linoleic, Oleic and Stearic Acids and their Inhibitory Effects on Acidogens, Acetogens and Methanogens.” Civil Engineering, Vol. Doctor of philosophy, p.1~202.
Li, Y., Park, S. Y. and J. Zhu(2011). “Solid-state anaerobic digestion for methane production from organic waste.” Renew. Sustain. Energ. Reviews 15. p.821-826.
Liu T. and S. Sung(2002). “Ammonium inhibition on thermophilic aceticlastic methanogens.” Water Sci. & Tech., 45. p.113~120.
Mata-Alvarez, J., F. Cecchi, P. Pavan and A. Bassetti(1993). “Semi-Dry Thermophilic Anaerobic Digestion of Fresh and Pre-Composted Organic Fraction of Municipal Solid Waste (MSW) Digester Proformace.” Wat. Sci. Tech., 27(2), p.87~89.
Mata-Alvarez, J., S. Mace, and P. Llabres-Luengo(2000). “Anaerobic of organic solids wastes. Anoverview of research achievements and perspectives.” Biores. Technol. 74. p.3~16.
Mata-Alvarez, J(2002). “Biomethanization of the Organic Fraction of Municipal Solid Wastes.” IWA Publishing.
Mitchell, D.A., N. Krieger, and M. Berovic.(2006). Solid-State Fermentation Bioreactors – Fundamentals of Design and Operation.
Mshandete, A., A. Kivaisi, M. Rubindamayugi and B. Mattiasson(2004). “Anaerobic batch co-digestion of sisal pulp and fish wastes.” Bioresource Technology, 95, p.19~24.
Mtz.-Vituratia, A. J. Mata-Alvarez and F. Cecchi(1995). “Two-Phase Continuous Anaerobic Digestion of Fruit and Vegetable Wastes.” Resources, Conservation and Recyvcling, Vol.13, p.257~267.
Nallathambi Gunaseelan, V.(1997). “Anaerobic digestion of biomass for methane production: A review.” Biomass and Bioenergy 13(1-2): p.83~114.
Pavan, p., p. Battistoni, and J. Mata-Alvarez(2000). “Performance of thermophilic semi-dry anaerobic digestion process changing the feed biodegradability.” Water Sci. Technol. 41. p.75~81.
Parkin, G. F. and W. F. Owen(1986). “Fundamentals of Anaerobic Digestion of Wastewater Sludges.” J. Wat. Poll. Control, 112, p.867~920
Perry L. McCarty (1964). ” Anaerobic Waste Treatment Fundamentals PART ONE-Chemistry and Microbiology.” PUBLIC WORKS, Vol.95, p.107~112.
Pfeffer, J. T.(1974), “Temperature Effects on Anaerobic Fermentation of Domestic Refuse.” Biotech. And Bioeng., 16, p.771~781.
Rittmann, B. E. and P. L. McCarty(2001). “Environmental Biotechnology- Priciple and Applications.” McGraw-Hill.
Rubia, M. A., Perez, M., Romero, L. I. and D. Sales(2006). “Effect of solids retention time (SRT) on pilot scale anaerobic thermophilic sludge digestion.” Pro. Biochem., 41 p.79~86.
Skillman, L. C., Bajsa, O., Ho, L., Santhanam, B., Kumar, M. and G. Ho(2009). “Influence of high gas production during thermophilic anaerobic digestion in pilot-scale and lab-scale reactors on survival of the thermotolerant pathogens Clostridium perfringens and Campylobacter jejuni in piggery wastewater.” Water Res., 43. p.3281~3291.
Song, Y. C., Kwon, S. J. and J. H. Woo(2004). “Mesophilic and thermophilic temperature co-phase anaerobic digestion compared with single-stage mesophilic and thermophilic digestion of sewage sludge.” Water Res., 38. p.1653~1662
Sosnowaki, P., A. Wieczorek and S. Ledakowicz(2003). “Anaerobic co-digestion of sewage sludge and organic fraction of municipal solid wastes.” Advances in Environmental Research, Vol.7, p.609~616.
Su, J. J., Liu, B. Y. and Y. C. Chang(2003). “Emission of greenhouse gas from livestock waste and wastewater treatment in Taiwan.” Agri. Ecosys. Environ., 95. p.253~63.
Van, W.( 2001). “Biotechnology and the utilization of biowaste as a resource for bioproduct development.” Trends in Biotechnology, Vol. 19, p.172~177.
Vidal, G., A. Carvalho, R. Mendez and J. M. Lema(2000). “Influence of the content in fats and proteins on the anaerobic biodegradability of dairywastewaters.” Bioresource Technology, 74(3). p.231~239.
Watanable, H., T. Kitamura, S. Ochi and M. Ozaki(1997). “Inactivation of pathogenic bactrtia under mesophelic and thermophilic conditions.” Water Science Technology, Vol.36, p.25~32.
Werner, J. J., D. Knights, M. L. Garcia, N. B. Scalfone, S. Smith. K. Yarasheski, T. A., Cummings, A. R. Beers, R. Knight, and L.T. Angenent(2011). “Bacterial community structures are unique and resilient in full-scale bioenergy systems.” PNAS, 108. p.4158~4163.
Yamada, K., Y. Kamagata and K. Nakamura(1997). “The effect of endosymbiotic methanogens on the growth and metabolic profile of the anaerobic free-living ciliate Trimyema compressum.” FEMS microbiology Letters, 149(1), p.129~132.
Yang, Y., Tsukahara, K., Yagishita, T. and S. Sawayama(2004). “Performance of a fixed-bed reactor packed with carbon felt during anaerobic digestion of cellulose.” Bioresource Technology, Vol.94, p.197~201.
Yen, H. W. and D. E. Brune(2007). “Anaerobic co-digestion of algal sludge and waste paper to produce methane.” Bioresource Technology,Vol.98. p.130~134.
Zhu, H., A. Stadnyk, M. Bèland and P. Seto (2008). “Co-production of hydrogen and methane from potato waste using a two-stage anaerobicdigestion process.” Bioresource Technology 99(11), p.5078~5084.
Zinder, S. H. (1990). “Conversion of acetic acid to methane by thermophiles.” FEMS Microbiology Letters 75(2-3), p.125~137.
二、中文文獻
A+醫學百科,http://cht.a-hospital.com/w/滲漉法。
塗秋吉,(2007)「畜牧場廢水處理與管理方法之探討-以雲林縣為例」,碩士論文,國立雲林科技大學-環境衛生與安全工程系。
涂有為,(2011)「固體停留時間對高溫厭氧消化甲烷產出影響之研究」,碩士論文,國立中央大學-環境工程研究所。
李俊德,(1982)「養豬場廢污處理方法輯要」,畜牧及飼料污染調查研究及示範計畫報告第二輯,臺灣區雜糧發展基金會。
李超運、侯福分,(2002)「珍惜農業資源-做好稻草掩埋處理」,豐年,第52卷,第14期,30~33頁。
林茜羽,(2008)「稻稈之生質能醱酵」,碩士論文,逢甲大學-環境工程與科學學系。
羅秋雄,(2008)「堆肥製作及使用技術」,桃園區農技報導,第57期。
郭猛德,(1989)「一貫式豬糞尿處理之規範與管理」,臺灣省養豬科學研究所,豬場廢水管理研討會,152~164頁。
郭猛德、林晉卿、黃山內及廖錦聰,(1999)「養豬廢水污泥之資源化研究」,第二十四屆廢水處理技術研討會。
郭文健,(2002)「屏東縣垃圾分類廚餘資源化利用試驗性計畫」,國立屏東科技大學-環境工程與科學系。
郭文健、林景和、陳美霞,(2007)「臺灣養豬廢水處理技術之現況與展望-以屏東縣武洛溪流域為例」,第三十二屆廢水處理技術研討會。
工業污染防治技術服務團,(1993)「厭氧處理新技術」,經濟部工業局。
黃慶昌、林龍富,(2010) 「以上流式厭氧污泥床處裡養豬廢水之甲烷產能評估」,中華民國燃燒學會第二十屆學術研討會論文集,No. A-035。
黃萬傳,(2007)「德國發展生質能源村之現況與策略」,國際農業科技新知,第34期,3~9頁。
經濟部能源局,(2009)「再生能源發展條例」。
經濟部能源局,(2009)「能源政策與能源供需情勢」http://www.moeaboe.gov.tw/About/webpage/book3/page1.htm。
邱素芳,(2003)「以高溫厭氧共消化有機廢棄物之研究」,碩士論文,國立屏東科技大學-環境工程與科學系。
行政院農業委員會農糧署,(2012)「農糧統計」。
行政院農業委員會畜產試驗所,(2012)「畜牧統計」。
許晃雄,(1999)「人為的全球暖化與氣候變遷」,第四屆東亞大氣國際學術演討會,國立台灣大學-大氣科學系。
張添晉,(2000)「沼氣控制及回收再利用技術」,封閉垃圾場復育綠美化執行成效評估,國立台北科技大學-循環型環境研究中心。
莊義雄,(1996)「稻田收穫後稻草處理與利用」,花蓮區農業專訊,第15期,18~19頁。
陳文卿,(2009)「推動廚餘、水肥、養豬廢水及生活污水產生之污泥集中處理及生質能源再利用性評估計畫」,期末報告,財團法人環境與發展基金會。
沈紹儀、許淑茹、李燿州及蕭庭訓,(1994)「畜牧廢水中之氮、磷去除技術」,八十三年度畜牧污染防治試驗研究計畫成果報告彙編。
93~99頁。
蔡紹斌,(2003)「WTO之後,我們依然放火燒田」,鄉間小路,第29卷,第2期,14~15頁。
楊盛行、郭坤土、張哲明、王鯤生,(1999)「掩埋場甲烷通量及周界大氣甲烷濃度之研究」八十八年度國科會/環保署科技合作研究計畫期末報告。
楊易霖,(2002)「有機廢棄物之厭氧消化-前處理及溫度之影響」,碩士論文,國立屏東科技大學-環境工程與科學系。
吳民貴,(2006)「高雄縣大寮鄉豬糞尿生質能源集中式開發之研究」,碩士論文,輔英科技大學-環境工程與科學研究所。
吳耿東、李宏台,(2004)「生質能源-化腐朽為能源」,科學發展月刊,383期,20~27頁。
王如意、易任,(1979)「應用水文學-新編上冊」,大學用書,國立編譯館。
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