參考文獻
[1]行政院環境保護署,國家環境保護計畫(修正草案),2005年11月。
[2]行政院環境保護署統計資料庫,垃圾性質按物理組成、化學分析分類,(1998-2005)。
[3]潘時正,下水污泥灰渣特性及應用於水泥砂漿之研究,中央大學環境工程研究所,博士論文,台灣(2002)。[4]行政院環境保護署統計資料庫,廢棄物管理。
[5]Bertolini, L., M. Carsana, D. Cassago, A. O. Curzio, and M. Collepardi, “MSWI Ashes as Mineral Addition in Concrete”, Cement and Concrete Research, Vol. 34, pp. 1899-1906(2004).
[6]Kula, I., A. Olgun, Y. Erdogan, and V. Sevinc, “Effects of Colemanite Waste, Cool Bottom Ash, and Fly Ash on the Properties of Cement”, Cement and Concrete Research, Vol. 31, pp. 491-494(2001).
[7]Valls, S., A. Yague, E. Vazquez, and E. Marriscal, “Physical and Mechanical Properties of Concrete with Added Dry Sludge From a Sewage Treatment Plant”, Cement and Concrete Research, Vol. 34, pp. 2203-2208(2004).
[8]Monzo, J., J. Paya, M. V. Borrachero, and A. Corcoles, “Use of Sewage Sludge Ash(SSA)-Cement Admixtures in Mortars”, Cement and Concrete Research, Vol. 26, pp.1389-1398(1996).
[9]Valls, S., and E. Eazquez, “Accelerated Carbonation of Sewage Sludge-Cement-Sand Motars and Its Environment Impact”, Cement and Concrete Research, Vol. 31, pp. 1271-1276(2001).
[10]曾迪華、葉俊宏,都市污水廠污泥脫水性和燃燒值改良之研究,中央大學土木工程研究所,台灣(1985)。
[11]曾迪華、葉仁博,以機械脫水和自然乾燥法進行污泥脫水性和燃燒值改良之研究,中央大學土木工程研究所,台灣(1987)。
[12]Vaananen, P., “Fuel, Methane Gas and Fertilisers From Sludge”, Asian Water, Vol.14, No.1, pp. 32-34 (1998).
[13]Bridle, T., “Fuel First”, Water Quality International, No.4, pp. 20-21 (1997).
[14]Akhter, H., F.K., Cartledge, A., Roy , and M.E. Tittlebaum , “A Study of the Effects of Nickel Chloride and Calcium Chloride on Hydration of Portland Cement”, Cement Concrete Research, Vol.23, pp. 833-842 (1993).
[15]Tay, J.H., and K.Y. Show, “The Use of Lime-Blended Sludge for Production of Cementitious Material”, Water Environment Research, Vol.64, pp. 6-12(1992).
[16]Tamai, M., Yoshida, K., and A. Kuromatsu, “Reduction in Environmental Load with Eco-Cement and Porous Concrete”, Proceeding of International Conference on Cleaner Production and Sustainable Development ’99, Taipei, pp.20-33 (1999).
[17]節能與廢棄物再生利用於控制性低強度材料之初步研究,陳彥暉,朝陽科技大學營建工程研究所,碩士論文,台灣(2004)。[18]營建剩餘土石方拌製控制性低強度材料應用於道路回填與傳統回填工法比較之研究,白智榮,中興大學土木工程研究所,碩士論文,台灣(2003)。[19]營建廢棄物再利用於工程填方施工規範研擬之研究,周進煌,中興大學土木工程研究所,碩士論文,台灣(2002)。[20]焚化廠底灰應用於工程回填材料之環境安全性研究,胡志誠,臺灣大學土木工程學研究所,碩士論文。[21]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,台灣科技大學營建工程學系土木工程研究所,博士論文。[22]Chatterji, S., Discussion of “Mercury Porosimetry an Inappropriate Method for the Measurement of Pore Size Distributions in Cement-Based Materials” by S. Diamond, Cement Concrete Research, Vol.31, pp. 1657-1658 (2001).
[23]飛灰混凝土,科技圖書股份有限公司,林平全。
[24]Regourd, M., J.H., Thomassin, P., Baillif, and J.C. Touray, “Blast-Furnace Slag Hydration Surface Analysis”, Cement and Concrete Research, Vol. 13, pp. 549-556(1983).
[25]Roy, D.M., and K.M. Parker, “Microstructures and Properties of Granulated Slag-Portland Cement Blends at Normal and Elevated Tempratures”, ACI Sp79-21, pp. 397-414(1983).
[26]Jawed, I., and J. Skalny, “Hydration of Tricalcium Silicate in the Presence of Fly Ash”, Material Research Society, Annual Meeting, pp. 60-70(1982).
[27]Plowman, C., and J.G. Cabrera, “Mechanism and Kinetis of Hydration of C3A and C4AF, Extracted from Cement”, Cement and Concrete Research, Vol.14, pp. 238-248(1984).
[28]Helmuth, R.A., “Fly Ash in Cement and Concrete”, Portland Cement Association.
[29]行政院環境保護署,「垃圾焚化廠焚化灰渣中重金屬及戴奧辛成份分析計畫」,並已建置於「台灣地區焚化灰渣特性資料庫」(2003-2004)。
[30]郭子豪,經前處理垃圾焚化底灰作為水泥原料之研究,國立成功大學環境工程研究所,碩士論文,台灣(2000)。[31]環保署87年至94年之垃圾減量及資源回收成效詳表。
[32]高雄市政府環境保護局,高雄市資源回收廠垃圾焚化底渣最終處理規劃評估計畫期末報告,中興工程顧問股份有限公司。
[33]Palomo, A., M.W. Grutzeck, and M.T. Blanco, “Alkali-Activated Fly Ashes a Cement for the Future”, Cement and Concrete Research, Vol. 29, pp. 1323-1329(1999).
[34]Wiles, C.C., “Municipal Solid Waste Combustion Ash:State of the Knowledge”, Journal of Hazardous Materials, Vol. 47, pp. 325-344(1996).
[35]Bruggen, B.V., H.V., Vandecasteele, and G. Vogles, “Simulation of Acid Washing of Municipal Solid Waste Incineration Fly Ashes in Order to Remove Heavy Metals”, Journal of Hazardous Material, Vol. 57, pp. 127-144(1998).
[36]Pera, J., G., Thevenin, and M. Chabannet, “Design of a Novel System Allowing the Selection of an Adequate Binder for Solidification/Stabilization of Waste”, Cement and Concrete Research, Vol. 27, pp. 1533-1542(1997).
[37]Pane, I., and W. Hansen, “Investigation of Blended Cement Hydration by Isothermal Calorimetry and Thermal Analysis”, Cement and Concrete Research, Vol. 35, pp. 1155-1164(2005).
[38]Kovler, K., “Setting and Hardening of Gypsum-Portland Cement-Silica Fume Blends, Part2:Early Strength, DTA, XRD, and SEM ObserVations”, Cement and Concrete Research, Vol. 28, pp. 523-531(1998).
[39]混凝土施工,科學技術叢書,常正之,三民書局。
[40]Hilbig, H., F.H. Kohler , and P. Schießl, “Quantitative 29Si MAS NMR Spectroscopy of Cement and Silica Fume Containing Paramagnetic Impurities”, Cement and Concrete Research, Vol. 36, pp. 326-329(2006).
[41]Hanna, R.A., P.J. Barrie, C.R. Cheeseman, C.D. Hills, P.M. Bachler, and R. Perry, “Solid State 29Si and 27Al NMR and Ftir Study of Cement Paste Containing Industrial Wastes and Organics”, Cement and Concrete Research, Vol. 25, pp. 1435-1444(1995).
[42]Andersen, M.D., H.J. Jakobsen, J. Skibsted, “A New Aluminium-Hydrate Species in Hydrated Portland Cements Characterized by 27Al and 29Si MAS NMR Spectroscopy”, Cement and Concrete Research, Vol. 36, pp. 3-17(2006).
[43]Wang, S.D., and K.L. Scrivener, “29Si and 27Al NMR Study of Alkali-Activated Slag”, Cement and Concrete Research, Vol. 33, pp. 769-774(2003).
[44]Hansen, E.W., H.C. Gran, and Y. MachabeÂe, “FLR Technique Exchange of Methanol/Fluorescent Dye with Water Inwater-Saturated Cement Paste Examined by NMR”, Cement and Concrete Research, Vol. 30, pp. 535-541(2000).
[45]Gomes, S., and M. François, “Characterization of Mullite in Silicoaluminous Fly Ash by XRD, TEM, and 29Si MAS NMR”, Cement and Concrete Research, Vol. 30, pp. 175-181(2000).
[46]Kudryavtsev, A.B., T.V. Kouznetsova, W. Linert, and G. Hunter, “On the Possibilities of the Hydration of Aluminate Cement Using Wideline 27Al NMR Spectroscope”, Cement and Concrete Research, Vol. 27, pp. 501-513(1997).
[47]混凝土性質與行為,黃兆龍,詹氏書局。
[48]層狀材料及奈米複合材料之合成及鑑定,彭文琴,中 原 大 學化學系,碩士論文,台灣(2003)。[49]高科技產業氟化鈣污泥做為水泥生料之可行性研究,林珊如,國立交通大學產業安全防災研究所,碩士論文。[50]焚化灰渣取代部份水泥生料燒製環保水泥之可行性研究,邱玫韶,雲林科技大學營建工程研究所,碩士論文,台灣(2003)。
[51]廢混凝土再利用於控制性低強度材料可行性之研究,張靜忠,台灣科技大學營建工程研究所,碩士論文,台灣(2003)。[52]Saikia, N.J., P. Sengupta, P.K. Gogoi, and P.C. Borthakur, “Hydration Behaviour of Lime-Co-Calcined Kaolin-Petroleum Effluent Treament Plant Sludge”, Cement and Concrete Research, Vol. 32, pp. 297-302(2002).
[53]Pan, S.C., D.H. Tseng, C.C. Lee, and C. Lee, “Influence of the Fineness of Sewage Sludge Ash on the Mortar Properties”, Cement and Concrete Research, Vol. 33, pp. 1749-1754(2003).
[54]Cheeseman, C.R., and G.S. Virdi, “Properties and Microstructure of Lightweight Aggregate Produced from Sintered Sewage Sludge Ash”, Resources Conservation and Recycling Research, Vol. 45, pp.18-30(2005).
[55]Polettini, A., R. Pomi, and G. Carcani, “The Effect of Na and Ca Salts on MSWI Bottom Ash Activation for Reuse as a Pozzolanic Admixture”, Resources Conservation and Recycling Research, Vol. 43, pp.403-418(2005).
[56]Demirbas, A., and A. Aslan, “Evaluation of Lignite Combustion Residues as Cement Additives”, Cement and Concrete Research, Vol. 29, pp.983-987(1999).
[57]Luca, B., M. Carsana, D. Cassago, A.Q. Curzio, and M. Collepardi, “MSWI Ashes as Mineral Additions in Concrete”, Cement and Concrete Research, Vol. 34, pp.1899-1906(2004).
[58]利用核磁共振光譜學探討蛋白質的結構、動性及功能,黃太煌,物理雙月刊(廿四卷三期)403-412,台灣(2001年6月)。[59]Andersen, M.D., H.J. Jakobsen, and J. Skibsted, “Characterization of White Portland Cement Hydration and the C-S-H Structure in the Presence of Sodium Aluminate by 27Al and 29Si MAS NMR Spectroscopy”, Cement and Concrete Research, Vol. 34, pp. 857-868(2004).
[60]Schneider, J., M.A. Cincotto, and H. Panepucci, “29Si and 27Al High-Resolution NMR Characterization of Calcium Silicate Hydrate Phases in Activated Blast-Furnace Slag Pastes”, Cement and Concrete Research, Vol. 31, pp. 993-1001(2001).
[61]Yun, H., M.E. Patton, J.H. Garrett Jr., G.K. Fedder, K.M. Frederick, J.J. Hsu, I.J. Lowe, I.J. Oppenheim, and P.J. Sides, “Detection of Free Chloride in Concrete by NMR”, Cement and Concrete Research, Vol. 34, pp. 379-390(2004).
[62]Rottstegge, J., M. Arnold, L. Herschke, G. Glasser, M. Wilhelm, H.W. Spiess, and W.D. Hergeth, “Solid State NMR and LVSEM Studies on the Hardeningof Latex Modified Tile Mortar Systems”, Cement and Concrete Research, Vol. 35, pp. 2233-2243(2005).
[63]Koudriavtsev, A.B., M.D. Danchev , G. Hunter , and W. Linert, “Application of 19F NMR Relaxometry to the Determination of Porosity and Pore Size Distribution in Hydrated Cements and Other Porous Materials”, Cement and Concrete Research, Vol. 36, pp. 868-878(2006).
[64]Zanni, H., M. Cheyrezy, V. Maret, S. Philippot, and P. Nieto, “Investigation of Hydration and Pozzolanic Reaction in Reactive Powder Concrete (RPC) Using 29Si NMR”, Cement and Concrete Research, Vol. 26, pp. 93-100(1996).
[65]Yu, P., and R.J. Kirkpatrick, “35Cl NMR Relaxation Study of Cement Hydrate Suspensions”, Cement and Concrete Research, Vol. 31, pp. 1479-1485(2001).
[66]中國國家標準 CNS 11270。
[67]混凝土材料品質控制試驗,黃兆龍,詹氏書局。
[68]Bengtsson, M., and A.M. Tillman, “Actors and Interpretations in an Environmen Talcontroversy: the Swedish Debate on Sewage Sludge Use in Agriculture”, Cement and Concrete Research, Vol. 42, pp. 65-82(2004).
[69]Kaniraj, S.R., and V.G. Havanagi, “Compressive Strength of Cement Stabilized Fly Ash-Soil Mixtures”, Cement and Concrete Research, Vol. 29, pp. 673-677(1999).
[70]Papadakis, V.G., “Effect of Fly Ash on Portland Cement Systems Part I. Low-Calcium Fly Ash”, Cement and Concrete Research, Vol. 29, pp. 1727-1736(1999).
[71]Hanehara, S., F. Tomosawa, M. Kobayakawa, and K. 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, Vol. 31, pp. 31-39(2001).
[72]Babu, K.G., and G.S.N. Rao, “Effeiency of Fly Ash in Concrete with Age”, Cement and Concrete Research, Vol. 26, pp. 456-474(1996).
[73]Wang, A., C. Zhang, and W. Sun, “Fly Ash Effects II. The Active Effect of Fly Ash”, Cement and Concrete Research, Vol. 34, pp. 2057-2060(2004).
[74]Wang, A., C. Zhang, and W. Sun, “Fly Ash Effects III. The Microaggregate Effect of Fly Ash”, Cement and Concrete Research, Vol. 34, pp. 2061-2066(2004).
[75]Sakai, E., S. Miyahara, S. Ohsawa, S.H. Lee, and M. Daimon, “Hydration of Fly Ash Cement”, Cement and Concrete Research, Vol. 35, pp. 1135-1140(2005).
[76]Ma, W., and P.W. Brown, “Hydration Reaction of Fly Ash with Ca(OH)2 and CaSO4•2H2O”, Cement and Concrete Research, Vol. 27, pp. 1237-1248(1997).
[77]Maltias, Y., and J. Marchand, “Influence of Curing Temprature on Cement Hydration and Mechanical Strength Development of Fly Ash Mortars”, Cement and Concrete Research, Vol. 27, pp. 1009-1020(1997).
[78]Li, G., and X. Wu, “Influence of Fly Ash and Its Mean Particle Size on Certain Engineering Properties of Cement Composite Mortars”, Cement and Concrete Research, Vol. 35, pp. 1128-1134(2005).
[79]Chindaprasirt, P., S. Homwuttiwong, and V. Sirivivatnanon, “Influence of Fly Ash Fineness on Strength, Drying Shrinkage and Sulfate Resistance of Blended Cement Mortar”, Cement and Concrete Research, Vol. 34, pp. 1087-1092(2004).
[80]Li, G., “Properties of High-Volume Fly Ash Concrete Incorporating Nano-SiO2”, Cement and Concrete Research, Vol. 34, pp. 1043-1049(2004).
[81]Shehata, M.H., and M.D.A. Thomas, “The Effect of Fly Ash Composition on the Expansion of Concrete Due to Alkali-Silica Reaction”, Cement and Concrete Research, Vol. 30, pp. 1063-1072(2000).
[82]Li, D., Y. Chen, J. Shen, J. Su, and X. Wu, “The Influence of Alkalinity on Activation and Microstructure of Fly Ash”, Cement and Concrete Research, Vol. 30, pp. 881-886(2000).
[83]Yu, Q., S. Nagataki, J. Lin, T. Saeki, and M. Hisada, “The Leachability of Heavy Metals in Hardened Fly Ash Cement and Cement-Solidified Fly Ash”, Cement and Concrete Research, Vol. 35, pp. 1056-1063(2005).
[84]Agopyan, V., and V. John ,“Durability Evaluation on Vegetable Fibre Reinforced Materials”, Building Research, Vol. 20, pp. 233-235(1992).
[85]Roy, D.M., and I.A. Malek, “Hydration of Slag Cement”, in: S.N. Ghosh, S. Sarkar, and S. Harsh(Eds), “Progress in Cement and Concrete Mineral Admixure in Cement and Concrete”, ABI Books, New Delhi, pp. 85-117(1993).
[86]Pane, I., and W. Hansen, “Investigation of Blended Cement Hydration by Isothermal Calorimetry and Thermal Analysis”, Cement and Concrete Research, Vol. 35, pp. 1155-1164(2005).
[87]Pera, J., G. Thevein, and M. Chabannet, “Design of a Novel System Allowing the Selection of an Adequate Binder for Solidification/Stabilization of Wastes”, Cement and Concrete Research, Vol. 27, pp. 1533-1542(1997).
[88]Kovler, K., “Setting and Hardening of Gypsum-Portland Cement-Silica Fume Blends , Part 2: Early Strength , DTA, XRD,And SEM Observations”, Cement and Concrete Research, Vol. 28, pp. 523-531(1998).