參考文獻
Ampadu, K.O. and Kazuyuki, T., Characterization of ecocement pastes and mortars produced from incinerated ashes, Cement and Concrete Research, Vol. 31, pp. 431-436, 2001.
ASTM, “1984 Annual Book of ASTM Standard”, Vol. 04.01~04.24, 1984.
Alba, N., Gasso, E., Vazquez, S. Gasso and Baldasano, J. M., “Stabilization/solidification of MSW incineration residues from facilities with different air pollution control systems. Durability of matrices versus carbonation”, Waste Management, Vol. 21, pp. 313-323, 2001.
Alba, N., Gasso, S., Lacorte, T. and Baldasano, J. M., “Characterization of municipal solid waste incineration residues from facilities with different air pollution control systems”, Journal of the Air & Waste Managment Association, Vol. 47, pp. 1170-1179, 1997.
Arjunan, P., Michael, R. and Della M. Roy, “Silfoaluminate-belite cement from low-calcium fly ash and sulfur-rich and other industrial by-products”, Cement and concrete research, Vol. 29, No. 8, pp.1305-1311, 1999.
Berg, E.R., Neal, J.A., “Municipal solid waste bottom ash as Portland cement concrete ingredient”, Journal of Materials in Civil Engineering, August, pp.168-173, 1998.
Buchholz, B.A. and Landsberger, S., “Leaching dynamics studies of municipal solid waste incinerator ash”, Journal of the Air & Waste Management Association, Vol. 45, p.579, 1995.
Chatterji, S., A. D. Jensen, N. Thaulow, and P. Christemsens, “ Studies of Alkali-Silica Reaction Part 3 Mechanisms by Which NaCl and Ca(OH)2 Affect the Reaction”, Cement and Concrete Research, Vol. 16, pp. 246-254, 1986.
Chengzhi, Z., W. Aiqin, and T. Mingshu, “The Filling Rolf of Pozzolanic Material”, Cement and Concrete Research, Vol. 26, No. 6, pp. 943-947, 1996.
Chiaki, I.,“Metal recovery from fly ash generated from vitrification process for MSW ash”, Waste Management, Vol.16, No.5/6, pp.501-507, 1996.
Cong, X. and Kirkpatrick,R. J., “17O and 29Si MAS NMR study of hydration and the structure of calcium silicate hydrates”, Cement and Concrete Research, 23, pp. 1065-1077, 1993.
Daube, J., and R. Bakker,“Portland Blast-Furnace Slag Cement :A Review”, ASTM STP 897, pp.5-14, 1986.
Derie, R., “A new way to stabilize fly ash from municipal incinerators”, Waste Management, Vol. 16, No. 8, p.711, 1996.
Eighmy, T.T., Eusden, J.D., Krzanowski, J.E. and et al., “Comprehensive approach toward understanding element speciation and leaching behavior in municipal solid waste incineration electrostatic precipctator ash”, Environmental Science & Technology, Vol. 29, No. 3, p.629, 1995.
Frearson, J. P. H., and J. M. Uren,“Investigations of a Ground Granulated Blaet Furace Slag Containing Merwinitic Crystallization”, ACI Journal, SP-91, pp.1401-1421, 1986.
Goldin, A., Bigelow, C., Veneman, P., L.M., “Concentration of metals in ash from municipal solid waste combusters”, Chemosphere, Vol.24, No.3, pp.271-280, 1992.
Gong, Y. asn Kirk, D.W., “Behaviour of municipal solid waste incinerator fly ash. I: Gene ral leaching study”, Journal of Hazardous Materials, Vol. 36, p.249, 1994.
Hamernik, J.D. and Frantz, G.C., “Physical and chemical properties of municipal solid waste fly ash”, ACI Materials Journal, Vol.88, No. 3, p.294, 1991.
Hanehara, S., Tomosawa, F., Kobayakawa, M. and Hwang, K.R., “Effects of water/powder ratio, mixing ration of fly ash, and curing temperature on pozzolanic reaction of fly ash in cement paste,” Cement and Concrete Research, Vol. 31, No. 1, pp.31-39, 2001.
Hester, R.E., Harrison, R.M., “Waste incineration and the environment”, The Royal Society of Chemistry, p.49, 1994.
Hiraoka, M. “Advanced sludge thermal processes in Japan ”, Water Science Technology, Vol.30, No.8, pp.139-148, 1994.
Hjelmar, Ole, “Disposal strategies for municipal solid waste incineration residues”, Journal of Hazardous Materials 47, pp.347-350, 1996
IAWG(The International Ash Working Group),“Municipal Solid Waste Incinerator Residues”, Elsevier, 1997.
Iori, J., Balg, J. and Wiechert, C., “Detoxification of municipal waste incineration residues by vitrification”, ABB Review, Vol. 6-7, p.9, 1995
Jakob, A., Stucki, S. and Kuhn, P., “Evaporation of heavy metals during th heat treatment of municipal solid waste incinerator fly ash”, Environmental Science &Technology, Vol. 29, No. 9, p.2429, 1995.
Jazairi, B.E. and Illston, J.M., “The hydration fo cement paste vsing the semi-isothermal method of derivative thermogravity”, Cement and Concrete Research, Vol. 10, pp. 361-366, 1980.
Jean. Pera., Assefa. Wolde, and M. Chabannet, “Hydraulic Activity of Slags Obtained by Vitrification of Wastes,” ACI Materials Journal, Vol. 93, No. 6, pp.132-142 (1996).
Johnson, C.A., Brandenberger, S., and Baccini, P., “Acid Neutralizing capacity of municipal waste incinerator bottom ash”, Environmental Science & Technology, Vol.29, No.1, pp.142-17, 1995.
Kida, A., Noma, Y. and Imada, T., “Chemical Speciation and leaching properties of elements in municipal incinerator ashes”, Waste Management, Vol. 16, No. 5-6, p.527, 1996.
Kirby, C.S., Rimstidt, J.D., “Mineralogy and surface properties of municipal solid waste ash”, Environmental Science & Technology, Vol.27, No.4, pp.652-660, 1993.
Kosson, D.S., Sloot, H.A., and Eighmy, T.T., “An approach for estimation of contaminant release during utilization and disposal of municipal waste combustion residues”, Journal of Hazardous Materials, Vol.47, No. 2-3, pp.43-75, 1996.
Lea, F.M., “The chemistry of cement and concrete”, Edward Arnold, London, 1980
Lipmma, E., M. Magi, A. Samoson, G. Engelhardt, and A. R. Grimmer, “Structural studies of silicates by solid-state high-reslution 29Si magic angle spinning NMR in solids”, J. Amer. Chem. Soc., Vol. 120, pp. 4889-4893, 1980.
Lipmma, E., M. Magi, M. Tavmak,, “A high reslution 29Si NMR study of the hydration of tricalciumsilicate”, Cement and Concrete Reearch, Vol. 12, pp. 597-602, 1982.
Lumley, J. S., Gollop, R. S., Moir, G. K.; Tayor, H. F. W., “Degrees of reaction of the slag in some blends with portland cements”, Cement and Concrete Research, Vol. 26, pp. 139-151, 1996.
Makoto, M. and Eiji S., “Solidification of heavy metal-containing sludges by heating with silicate”, Toxic and Hazardous Waste Disposal, Vol. 3, Ann Arbor Science, pp.141-154, 1981.
Mangialardi, T., Paolini, A.E., Polettini, A., Sirini, P., “Optimization of the solidification/stabilization process of MSW fly ash in cementitious matrices”, Journal of Hazardous Materials, Vol. 70, No. 1-2, pp. 53-70, 1999.
Maoahide Nishigaki,“Reflecting surface-Melt furnace and Utilization of the slag”, Waste Management, Vol.16, No.5/6, pp.445-452, 1996.
Meima, J.A., Comans, R.N.J., “Geochemical modeling of weathering reactions in municipal solid waste incinerator bottom ash”, Environmental Scence &. Technology, Vol.32, No.5, pp.688-693, 1998.
Mitchell, D.J., Wild, S.DR. and Jones, K.C., “Arrested municipal solid waste incinerator fly ash as a source of heavy metals to the UK environment”, Environmental Pollution, Vol. 76, p.79, 1992.
Moises, F., Joseph C., “Pore size distribution and degree of hydration of metakaolin─cement pastes,” Cement and Concrete Research, Vol. 30 pp. 561-569, 2000.
Morf, L.S., Brunner, P.H., “The MSW incinerator as a monitoring tool for waste management”, Environmental Science & Technology, Vol.32, No.12, pp.1825-1831, 1998.
Ontiveros, J.T., Clapp, T.L. and Kosson, D.S., “Physical properties and chemical species distributions within municipal waste combuster ashes”, Environmental Progress, Vol. 8, No. 3, p.200, 1989.
Pera, J., Coutaz, L., Ambroise, J., Chababbet, M., “Use of incinerator bottom ash in concrete”, Cement and Concrete Research, Vol.27, No.1, pp.1-5, 1997.
Plowaman, C. and J. G. Cabbrra, “Mechanism and Kinetics of Hydration of C3A and C4AF, Extracted from Cement”, Cement and Concrete Research, Vol. 14, No. 2, pp.238-248, 1984.
Pluss, A. and Ferrell, J.R., “Characterization of lead and other heavy metal in fly ash from municipal waste incinerators”, Hazardous waste and Hazardous Materials, 8(4), pp. 275-292 (1991)
Pu, X., “Investigation on pozzolanic effect of mineral additives in cement and concrete by specific strength index”, Cement and Concrete Research, Vol. 29, No. 6, pp.951-955, 1999.
Reimann, D.O., “Heavy metal in domestic refuse and their distribution in incinerator residues”, Waste Management & Research, Vol.7, pp.57-62, 1989.
Richers, U. and Birnbaum, L., “Detailed investigations of filer asher from c municipal solid waste incineration”, Waste Management & Research, Vol. 6, p.227, 1998.
Sakai, S. and Hiraoka, M., “Municipal solid waste incinerator residue recycling by thermal processes”, Waste Management, Vol. 20, No. 2-3, pp.249-258, 2000.
Sakai, S. , M. Ifiraoka, N. Takeda and T. Tsunemi,“Sewage Sludge Melting Process:Preliminary system design and full-scale plant study ”, Water Science Technology, Vol. 22, No.12, pp.329-338, 1990.
Sanchez, M. I., and M. Frias, “The Pozzolanic Activity of Different Materials, Its Influence On The Hydration Heat In Mortars”, Cement and Concrete Research, Vol. 26, No. 2, pp. 203-213, 1996.
Shunsuke Hanehara, Fuminori Tomosawa , Makoto Kobayakawa , KwangRyul Hwang, Effects of water/powder ratio, mixing ratio of fly ash, and curing temperature on pozzolanic reaction of fly ash in cement paste, Cement and Concrete Research 31 (2001) 31-39.
Tadashi Ito,“Vitrification of fly ash by swirling-flow furnace”, Waste Management, Vol.16, No.5/6, pp.453-460, 1996.
Tanaka, T. et al., “Demonstration of a multi-purpose incineration melter system”, ANS International Topical Meeting, 1986.
Taylor, H.F.W., “Cement chemistry”, Thomas Telford, 1997.
van der Sloot, H.A., Kosson, D.S. and Hjelmar, O., “Characteristics, treatment and utilization of residues from municipal waste incineration”, Waste Management, Vol. 21, No. 8, pp.753-765, 2001.
Wang, S. W., and K. L. Scrivener, “Hydration Products of Activated Slag Cement”, Cement and Concrete Research, Vol. 25, No. 3, pp. 561-571, 1995.
Wiles, C.C., “Municipal solid waste combustion ash: State-of-the-knowledge”, Journal of Hazardous Materials, Vol.47, pp.325-344, 1996.
Wunsch, P., Greilinger, C., Bienick, D. and Kettrup, A., “Investigation of the binding of heavy metals in thermally treated residues from waste incineration”, Chemosphere, Vol. 32, No. 11, p.2211, 1996.
Young, J.F., Mindess, S., Gray, R. J. and Bentur, A., “The science and technology of civil engineering materials”, Prentice Hall, 1997.
Yousuf, M., Mollah, A., Vempati, R.K., Lin, T.C., and Cocke, D.L., “The Interfacial chemistry of solidification/stabilization of metals in cement and pozzolanic material systems”, Waste Management, Vol. 15, No. 2, pp.137-148, 1995.
Zhang, M. H., R. Lastra, and V. N. Malhotra, “Rice-Husk Ash paste And Concrete: Some Aspects of Hydration and The Microstructure of The Interfacial Zone Between The Aggregare And Paste”, Cement and Concrete Research, Vol. 26, No. 6, pp. 963-977, 1996.
王和源,「爐石製成及添加方式對水泥強度的影響」,國立台灣工業技術學院營建技術組碩士論文,1985。
王鯤生,張旭彰,“垃圾焚化灰渣熔融處理操作特性之研究“,中華民國環境工程學會第七屆廢棄物處理技術研討會,1992王鯤生、孫常榮、林凱隆、張景雲、張毓舜,「都市廢棄物焚化對灰渣粒徑與重金屬分布即溶出特性之探討」,第十三屆廢棄物處理技術研討會論文集,高雄市,pp.463-469,1998。
中國建築工業出版社與中國矽酸鹽學會,「矽酸鹽辭典」,1983年4月。
永澤正行,山內泉,村木宏,「都市こみ燒卻灰の有效利用への取り組み(第1報)」,都市清掃,第48卷,第206號,pp.29-36,1995。
行政院環境保護署統計室編印,「中華民國台灣地區環境統計年報」,2001。
池原洋一與鈴木邦雄等,「清掃工廠のっぅィゥシシュの抵抗爐による熔融處理技術時について」,都市清掃,第39卷,第153號,1986。
村上忠弘與石田貴榮,「污泥熔融に係ゐ指標の檢討」,下水道協會誌,Vol. 26,No. 300,1989。
村上忠宏、石田 貴、鈴木和美、角田幸二、世部 薰,“污泥熔に係ゐる指標の檢討”,下水道協會誌,Vol.2,No.300,pp.32-46(1985)。
沈永年,林仁益與黃兆龍,「核磁共振解析含飛灰水泥漿體之波索蘭反應」,中國土木水利工程學刊,第五卷,第四期,pp.387-392,1993。李宗彥,「都市垃圾焚化飛灰熔渣粉體對不同型態水泥之卜作嵐反應行為」,碩士論文,國立中央大學環境工程研究所,中壢(2001)。李建中、李釗、何啟華與鄭清江,「垃圾焚化灰燼之力學特性與在大地工程之應用」,一般廢棄物灰渣資源化技術與實務研討會論文集,p.193,1996。
阪本明彥與阪谷正人,「こみ垃圾燒卻灰前處理實驗」,都市清掃,第51卷,第225號,pp.438-444,1995。
汪建民等,「陶瓷技術手冊(下)」,中華民國粉末冶金協會與中華民國產業科技發展協進會,1994。
沈得縣,「高爐熟料與飛灰之卜作嵐反應機理及對水泥漿體巨微觀性質影響之研究」,博士論文,國立台灣工業技術學院,台北(1991)。林志棟,「Mixture Proportion Design of Slag Cement and Slag Concrete」, 特殊水泥混凝土研討會專輯,國立中央大學土木工程研究所,第3-1至3-85頁(1991)。
林利國,「稻殼灰性質與混凝土材料上之利用」,碩士論文,國立台灣工業技術學院,台北(1989)。林秋國,「水泥與水泥/不飽和聚酯複合體固定化鉻之機制」,博士論文,國立交通大學環境工程研究所博士論文,新竹(1997)。洪文芳,「爐石在混凝土的應用─固態廢料處理研究方案之二」,財團法人台灣營建研究中心,1985。
許樹恩、吳泰伯,「X光繞射原理與材料結構分析」,中國材料科學學會,1996。
酒井伸一,「一般廢棄物燒卻殘渣の性狀とをの溶出特性」,都市清掃,第48卷,第208號,pp.438-444,1995。
陳志州,「水泥混凝土添加爐石提高早期強度策略之研究」,國立中央大學土木工程研究所碩士論文,pp.9-12,1984。
陳清泉、陳振川、袁宏績與詹穎雯,「爐石為水泥熟料與填加料對混凝土特性影響之文獻及國外現況調查研究」,營建研究中心,1987。
張建中,「普通水泥添加飛灰水話機理之研究」,國立台灣工業技術學院工程技術研究所營建工程技術組碩士論文,.台北,1987。
張旭彰,「都市垃圾焚化灰渣熔融處理操作特性之研究」,碩士論文,國立中央大學環境工程學研究所,中壢(1992)。
張祉祥,「都市垃圾焚化底灰燒結資源化之研究」,碩士論文,國立中央大學環境工程學研究所,中壢(1999)。黃兆龍,「高爐熟料及飛灰材料在混凝土工程上之應用」,高爐石與飛灰資源在混凝土工程上應用研討會,財團法人台灣營建研究中心,1986。
黃兆龍,「混凝土性質與行為」,詹氏書局,1997。
黃尊謙,「都市垃圾焚化飛灰熔融處理取代部分水泥之研究」,碩士論文,國立中央大學環境工程研究所,中壢(2000)。鈴木孝與藤本忠生,「都市こみ燒卻殘渣の熔融處理」,都市清掃,第40卷,第159號,1987。
蕭炳欽,「都市垃圾灰渣與下水污泥灰渣共同高溫熔融處理操作溫度特性之研究」,碩士論文,國立中央大學環境工程學研究所,中壢(1993)。廉慧珍與童良,「建築材料物相研究基礎」,清華大學出版社,中華人民共和國,(1995)。
楊金鐘與吳裕民,「垃圾焚化灰渣穩定化產物再利用之可行性探討」,一般廢棄物焚化灰渣資源化技術與實務研討會論文集,p.43,台北,1996。
廖錦聰,「從日本的經驗談台灣焚化灰渣資源化方向」,一般廢棄物焚化灰渣資源化技術與實務研討會論文集,p.29,台北,1996。
鄭文欽,「都市垃圾焚化底灰受鹽類影響重金屬釋出之研究」,淡江水資源及環境工程研究所碩士論文,1995。謝素蘭,「以高壓及高溫燒結技術鑄造水泥、粘土及飛灰混合料組件之研究」,國立台灣工業技術學院工程技術研究所營建工程技術組碩士論文,.台北,1990。