參考文獻 |
Adam, C., Kley, G., Simon, F. G., 2007. Thermal treatment of municipal sewage sludge aiming at marketable P-fertilisers. Materials transactions, 48(12), 3056-3061.
Akiti, T. T., Constant, K. P., Doraiswamy, L. K., Wheelock, T. D., 2002. A regenerable calcium-based core-in-shell sorbent for desulfurizing hot coal gas. Industrial & engineering chemistry research, 41(3), 587-597.
Al-Salem, S. M., Lettieri, P., 2010. Kinetics of Polyethylene Terephthalate (PET) and Polystyrene (PS) Dynamic Pyrolysis. World Academy of Science, Engineering and Technology, 66, 1267-1275.
Apaydin-Varol, E., Polat, S., Putun, A. E., 2014. Pyrolysis kinetics and thermal decomposition behavior of polycarbonate-a TGA-FTIR study. Thermal Science, 18(3), 833-842.
Aqliliriana, C. M., Ernee, N. M., Irmawati, R., 2015. Preparation and Characterization of Modified Calcium Oxide From Natural Sources and Their Application in The Transesterification of Palm Oil. International Journal of Scientific and Technology Research, 4(11), 168-175.
Arena, U., & Di Gregorio, F., 2013. Element partitioning in combustion-and gasification-based waste-to-energy units. Waste management, 33(5), 1142-1150.
Asaoka, S., Yamamoto, T., Kondo, S., Hayakawa, S., 2009. Removal of hydrogen sulfide using crushed oyster shell from pore water to remediate organically enriched coastal marine sediments. Bioresource technology, 100(18), 4127-4132.
Betancourt-Galindo, R., Cabrera Miranda, C., Puente Urbina, B. A., Castaneda-Facio, A., Sanchez-Valdes, S., Mata Padilla, J., Garc’?a Cerda, A., Perera, Y.A., Rodriguez-Fernandez, O. S., 2012. Encapsulation of silver nanoparticles in a polystyrene matrix by miniemulsion polymerization and its antimicrobial activity. ISRN Nanotechnology, 2012.
Bishay, I. K., Abd-El-Messieh, S. L., Mansour, S. H., 2011. Electrical, mechanical and thermal properties of polyvinyl chloride composites filled with aluminum powder. Materials & Design, 32(1), 62-68.
Bodirlau, R., Teaca, C. A., Resmerita, A. M., Spiridon, I., 2012. Investigation of structural and thermal properties of different wood species treated with toluene-2, 4-diisocyanate. Cellulose chemistry and technology, 46(5), 381.
Boughton, B., 2007. Evaluation of shredder residue as cement manufacturing feedstock. Resources, Conservation and Recycling, 51(3), 621-642.
Buasri, A., Chaiyut, N., Loryuenyong, V., Worawanitchaphong, P., Trongyong, S., 2013. Calcium oxide derived from waste shells of mussel, cockle, and scallop as the heterogeneous catalyst for biodiesel production. ScientificWorldJournal, 2013, 460923.
Bystritskaya, E. V., Monakhova, T. V., Ivanov, V. B., 2013. TGA application for optimising the accelerated aging conditions and predictions of thermal aging of rubber. Polymer testing, 32(2), 197-201.
Chen, Z.-M., & Zhang, L., 2015. Catalyst and process parameters for the gasification of rice husk with pure CO2 to produce CO. Fuel Processing Technology, 133, 227-231.
Chen, L., & Bhattacharya, S., 2013. Sulfur emission from Victorian brown coal under pyrolysis, oxy-fuel combustion and gasification conditions. Environmental science & technology, 47(3), 1729-1734.
Chiono, V., Mozetic, P., Boffito, M., Sartori, S., Gioffredi, E., Silvestri, A., Rainer, A., Giannitelli, S.M., Trombetta, M., Nurzynska, S.,Di Meglio, F.,
Castaldo, C., Miraglia, R., Montagnani, S., Ciardelli, G., 2014. Polyurethane-based scaffolds for myocardial tissue engineering. Interface focus, 4(1), 20130045.
Cho, S.-J., Jung, H.-Y., Seo, Y.-C., Kim, W.-H. 2010. Studies on Gasification and Melting Characteristics of Automobile Shredder Residue. ENVIRONMENTAL ENGINEERING SCIENCE, 27, 577-586.
Cho, M. H., Choi, Y. K., Kim, J. S., 2015. Air gasification of PVC (polyvinyl chloride)-containing plastic waste in a two-stage gasifier using Ca-based additives and Ni-loaded activated carbon for the production of clean and hydrogen-rich producer gas. Energy, 87, 586-593.
Coats, A. W., & Redfern, J. P., 1964. Kinetic parameters from thermogravimetric data. Nature, 201(4914), 68.
Compagnone, G., De Filippis, P., Scarsella, M., Verdone, N., Zeppieri, M., 2006. Heavy metal behaviour during RDF gasification. WIT Transactions on Ecology and the Environment, 92.
Conesa, J. A., Rey, L., Aracil, I., 2016. Modeling the thermal decomposition of automotive shredder residue. Journal of Thermal Analysis and Calorimetry, 124(1), 317-327.
Contat?Rodrigo, L., Ribes?Greus, A., Imrie, C. T., 2002. Thermal analysis of high?density polyethylene and low?density polyethylene with enhanced biodegradability. Journal of applied polymer science, 86(3), 764-772.
Djidjelli, H., Sadoun, T., Benachour, D., 2000. Effect of plasticizer nature and content on the PVC stability and dielectric properties. Journal of applied polymer science, 78(3), 685-691.
Donaj, P., Yang, W., Blasiak, W., Forsgren, C., 2010. Recycling of automobile shredder residue with a microwave pyrolysis combined with high temperature steam gasification. J Hazard Mater, 182(1-3), 80-89.
Dong, J., Chi, Y., Tang, Y., Ni, M., Nzihou, A., Weiss-Hortala, E., & Huang, Q., 2015. Partitioning of Heavy Metals in Municipal Solid Waste Pyrolysis, Gasification, and Incineration. Energy & Fuels, 29(11), 7516-7525.
Dou, B., Wang, K., Jiang, B., Song, Y., Zhang, C., Chen, H., Xu, Y., 2016. Fluidized-bed gasification combined continuous sorption-enhanced steam reforming system to continuous hydrogen production from waste plastic. International Journal of Hydrogen Energy, 41(6), 3803-3810.
Duan, G., Zhang, C., Li, A., Yang, X., Lu, L., Wang, X., 2008. Preparation and characterization of mesoporous zirconia made by using a poly (methyl methacrylate) template. Nanoscale research letters, 3(3), 118.
Fernandez-Berridi, M. J., Gonzalez, N., Mugica, A., Bernicot, C., 2006. Pyrolysis-FTIR and TGA techniques as tools in the characterization of blends of natural rubber and SBR. Thermochimica Acta, 444(1), 65-70.
Filippis, P., Pochetti, F., Borgianni, C., Paolucci, M. (2003). Automobile shredder residue gasification. Waste management & research, 21(5), 459-466.
Fiore, S., Ruffino, B., & Zanetti, M. C., 2012. Automobile Shredder Residues in Italy: characterization and valorization opportunities. Waste Manag, 32(8), 1548-1559.
Fujita, T., Fukase, M., Miyamoto, H., Matsumoto, T., Ohue, T., 1990. Increase of bone mineral density by calcium supplement with oyster shell electrolysate. Bone and mineral, 11(1), 85-91.
Gai, C., Dong, Y., & Zhang, T., 2014. Downdraft gasification of corn straw as a non-woody biomass: Effects of operating conditions on chlorides distribution. Energy, 71, 638-644.
Ge, Z., Jin, H., & Guo, L., 2014. Hydrogen production by catalytic gasification of coal in supercritical water with alkaline catalysts: Explore the way to complete gasification of coal. International Journal of Hydrogen Energy, 39(34), 19583-19592.
Gent, M. R., Menendez, M., Muniz, H., Torno, S., 2015. Recycling of a fine, heavy fluff automobile shredder residue by density and differential fragmentation. Waste Manag, 43, 421-433.
Ghorbel, E., Hadriche, I., Casalino, G., Masmoudi, N., 2014. Characterization of thermo-mechanical and fracture behaviors of thermoplastic polymers. Materials, 7(1), 375-398.
Grammelis, P., Basinas, P., Malliopoulou, A., Sakellaropoulos, G., 2009. Pyrolysis kinetics and combustion characteristics of waste recovered fuels. Fuel, 88(1), 195-205.
Gray, F. M., Smith, M. J., Silva, M. B., 2011. Identification and characterization of textile fibers by thermal analysis. Journal of Chemical Education, 88(4), 476-479.
Gu, J., Wang, Y. Z., Yuan, H. R., Huhe, T. L., Chen, Y., 2017. Influence of Carbon Dioxide on the Thermal Degradation Process of Representative Components of Combustible Solid Wastes Using Thermogravimetric–Mass Spectrometry. Energy & Fuels, 31(8), 8317-8325.
Gu, A., & Liang, G., 2003. Thermal stability and kinetics analysis of rubber?modified epoxy resin by high?resolution thermogravimetric analysis. Journal of applied polymer science, 89(13), 3594-3600.
Gupta, N., Saxena, R. K., Sharma, B., Sharma, S., Agrawal, A. K., Jassal, M., Manchanda, R. K., 2014. Leaching of plastic polymers by plastic vials used for storing homoeopathic medicines: A preliminary study. Indian Journal of Research in Homoeopathy, 8(2), 95.
Hamad, M. A., Radwan, A. M., Heggo, D. A., Moustafa, T., 2016. Hydrogen rich gas production from catalytic gasification of biomass. Renewable Energy, 85, 1290-1300.
Han, L., Zhang, Y., Lin, K., Jia, X., Zhang, H., Zhong, Y., Wang Q., Li, Z., 2017. Developing a novel CaO-based sorbent for promoted CO2 capture and tar reduction. Energy & Fuels, 31(5), 5306-5317.
Hathaway, B. J., Honda, M., Kittelson, D. B., Davidson, J. H., 2013. Steam gasification of plant biomass using molten carbonate salts. Energy, 49, 211-217.
Haydary J., Susa D., Gelinger V., Cacho F., 2016. Pyrolysis of automobile shredder residue in a laboratory scale screw type reactor. Journal of Environmental Chemical Engineering, 4(1), 965-972
Hornsby, P. R., Wang, J., Rothon, R., Jackson, G., Wilkinson, G., Cossick, K., 1996. Thermal decomposition behaviour of polyamide fire-retardant compositions containing magnesium hydroxide filler. Polymer Degradation and Stability, 51(3), 235-249.
Hu, B., Huang, Q., Buekens, A., Chi, Y., Yan, J., 2017. Co-gasification of municipal solid waste with high alkali coal char in a three-stage gasifier. Energy Conversion and Management, 153, 473-481.
Hu, Y., & Ye, L., 2006. Study on the thermal stabilization effect of polyamide on polyoxymethylene. Polymer-Plastics Technology and Engineering, 45(7), 839-844.
Jimenez, A., Berenguer, V., Lopez, J., Sanchez, A., 1993. Thermal degradation study of poly (vinyl chloride): kinetic analysis of thermogravimetric data. Journal of Applied Polymer Science, 50(9), 1565-1573.
Jin, Z., Pramoda, K. P., Xu, G., Goh, S. H., 2001. Dynamic mechanical behavior of melt-processed multi-walled carbon nanotube/poly (methyl methacrylate) composites. Chemical Physics Letters, 337(1), 43-47.
Joung, H. T., Seo, Y. C., Kim, K. H., 2007. Distribution of dioxins, furans, and dioxin-like PCBs in solid products generated by pyrolysis and melting of automobile shredder residues. Chemosphere, 68(9), 1636-1641.
Joung, H. T., Cho, S. J., Seo, Y. C., Kim, W. H., 2007. Status of recycling end-of-life vehicles and efforts to reduce automobile shredder residues in Korea. Journal of Material Cycles and Waste Management, 9(2), 159-166.
Kameda, T., Uchiyama, N., Yoshioka, T., 2011. Removal of HCl, SO2, and NO by treatment of acid gas with Mg–Al oxide slurry. Chemosphere, 82(4), 587-591.
Kandare, E., Deng, H., Wang, D., Hossenlopp, J. M. 2006. Thermal stability and degradation kinetics of poly (methyl methacrylate)/layered copper hydroxy methacrylate composites. Polymers for advanced technologies, 17(4), 312-319.
Karatas, H., Olgun, H., Akgun, F., 2013. Coal and coal and calcined dolomite gasification experiments in a bubbling fluidized bed gasifier under air atmosphere. Fuel processing technology, 106, 666-672.
Kayacan, I., & Do?an, O. M., 2008. Pyrolysis of low and high density polyethylene. Part I: non-isothermal pyrolysis kinetics. Energy Sources, Part A, 30(5), 385-391.
Kebukawa, Y., Nakashima, S., Ishikawa, M., Aizawa, K., Inoue, T., NAKAMURA MESSENGER, K., & Zolensky, M. E., 2010. Spatial distribution of organic matter in the Bells CM2 chondrite using near-field infrared microspectroscopy. Meteoritics & Planetary Science, 45(3), 394-405.
Kihedu, J. H., Yoshiie, R., Naruse, I., 2016. Performance indicators for air and air–steam auto-thermal updraft gasification of biomass in packed bed reactor. Fuel Processing Technology, 141, 93-98.
Kim, Y. S., Choi, Y. M., Noh, D. O., Cho, S. Y., Suh, H. J., 2007. The effect of oyster shell powder on the extension of the shelf life of tofu. Food chemistry, 103(1), 155-160.
Kim, C. S., Jung, K. H., Kim, H., Kim, C. B., Kang, I. K., 2016. Collagen-grafted porous HDPE/PEAA scaffolds for bone reconstruction. Biomaterials Research, 20(1), 23.
Kim, K. H., Joung, H. T., Nam, H., Seo, Y. C., Hong, J. H., Yoo, T. W., Lim, B.S., Park, J. H., 2004. Management status of end-of-life vehicles and characteristics of automobile shredder residues in Korea. Waste Management, 24(6), 533-540.
Kim, K. D., Jeon, S. M., Hasolli, N., Lee, K. S., Lee, J. R., Han, J. W., Kim, H.T., Park, Y. O., 2017. HCl removal characteristics of calcium hydroxide at the dry-type sorbent reaction accelerator using municipal waste incinerator flue gas at a real site. Korean Journal of Chemical Engineering, 34(3), 747-756.
Kondoh, M., Hamai, M., Yamaguchi, M., Mori, S. 2001. Study of gasification characteristics of automobile shredder residue. JSAE review, 2(22), 234-236.
Kumar, G., Mahesh, L., Neelakantan, N. R., Subramanian, N., 1993. Studies on thermal stability and behaviour of polyacetal and thermoplastic polyurethane elastomer blends. Polymer international, 31(3), 283-289.
Kumar, M. N. S., 2007. Thermo gravimetric analysis and morphological behavior of castor oil based polyurethane–polyester nonwoven fabric composites. Journal of applied polymer science, 106(5), 3521-3528.
Kwon, H. B., Lee, C. W., Jun, B. S., Weon, S. Y., Koopman, B., 2004. Recycling waste oyster shells for eutrophication control. Resources, conservation and recycling, 41(1), 75-82.
Lee, Y. M., & Viswanath, D. S., 2000. Degradation of poly (methyl methacrylate)(PMMA) with aluminum nitride and alumina. Polymer Engineering & Science, 40(11), 2332-2341.
Lee, C. H., Truc, N. T., Lee, B. K., Mitoma, Y., Mallampati, S. R., 2015. Evaluation of heavy metals in hazardous automobile shredder residue thermal residue and immobilization with novel nano-size calcium dispersed reagent. J Hazard Mater, 296, 239-247.
Lee, C. H., Lee, D. K., Ali, M. A., Kim, P. J., 2008. Effects of oyster shell on soil chemical and biological properties and cabbage productivity as a liming materials. Waste Management, 28(12), 2702-2708.
Lin, K.-S., Chowdhury, S., Wang, Z.-P., 2010. Catalytic gasification of automotive shredder residues with hydrogen generation. Journal of Power Sources, 195(18), 6016-6023.
Liu, X., & Yu, W., 2006. Evaluating the thermal stability of high performance fibers by TGA. Journal of applied polymer science, 99(3), 937-944.
Liu, S., Ye, H., Zhou, Y., He, J., Jiang, Z., Zhao, J., Huang, X., 2006. Study on flame-retardant mechanism of polycarbonate containing sulfonate-silsesquioxane-fluoro retardants by TGA and FTIR. Polymer degradation and stability, 91(8), 1808-1814.
Liu, Y. X., Yang, T. O., Yuan, D. X., Wu, X. Y., 2010. Study of municipal wastewater treatment with oyster shell as biological aerated filter medium. Desalination, 254(1-3), 149-153.
Luftl, S., Archodoulaki, V. M., Seidler, S., 2006. Thermal-oxidative induced degradation behaviour of polyoxymethylene (POM) copolymer detected by TGA/MS. Polymer degradation and stability, 91(3), 464-471.
Lundberg, L., Tchoffor, P. A., Pallares, D., Johansson, R., Thunman, H., Davidsson, K., 2016. Influence of surrounding conditions and fuel size on the gasification rate of biomass char in a fluidized bed. Fuel Processing Technology, 144, 323-333.
Mayyas, M., Mayyas, M., Pahlevani, F., Liu, Z., Rajarao, R., Sahajwalla, V., 2016. From automotive shredder residue to nano-ceramics and graphitic carbon—Thermal degradation kinetics. Journal of analytical and applied pyrolysis, 120, 60-74.
Meng, N., Jiang, D., Liu, Y., Gao, Z., Cao, Y., Zhang, J., Gu, J., Han, Y., 2016. Sulfur transformation in coal during supercritical water gasification. Fuel, 186, 394-404.
Mishra, S. P., & Venkidusamy, P., 1995. Structural and thermal behavior of PC/PBT blends. Journal of applied polymer science, 58(12), 2229-2234.
Morselli, L., Santini, A., Passarini, F., Vassura, I., 2010. Automotive shredder residue (ASR) characterization for a valuable management. Waste Manag, 30(11), 2228-2234.
Murakami, K., Sato, M., Tsubouchi, N., Ohtsuka, Y., Sugawara, K., 2015. Steam gasification of Indonesian subbituminous coal with calcium carbonate as a catalyst raw material. Fuel Processing Technology, 129, 91-97.
Nakatani, N., Takamori, H., Takeda, K., Sakugawa, H., 2009. Transesterification of soybean oil using combusted oyster shell waste as a catalyst. Bioresource Technology, 100(3), 1510-1513.
Namasivayam, C., Sakoda, A., Suzuki, M., 2005. Removal of phosphate by adsorption onto oyster shell powder—kinetic studies. Journal of Chemical Technology and Biotechnology, 80(3), 356-358.
Ni, F., & Chen, M., 2014. Studies on pyrolysis and gasification of automobile shredder residue in China. Waste Manag Res, 32(10), 980-987.
Ni, F., & Chen, M., 2015. Research on ASR in China and its energy recycling with pyrolysis method. Journal of Material Cycles and Waste Management, 17(1), 107-117.
Nzihou, A., & Stanmore, B., 2013. The fate of heavy metals during combustion and gasification of contaminated biomass-a brief review. J Hazard Mater, 256-257, 56-66.
Oh, S. C., Kwon, W. T., Kim, S. R., 2009. Dehydrochlorination characteristics of waste PVC wires by thermal decomposition. Journal of Industrial and Engineering Chemistry, 15(3), 438-441.
Ok, Y. S., Oh, S.-E., Ahmad, M., Hyun, S., Kim, K.-R., Moon, D. H., Lim, K.J., Lee, S.S., Jeon, W.-T., Yang, J. E., 2010. Effects of natural and calcined oyster shells on Cd and Pb immobilization in contaminated soils. Environmental Earth Sciences, 61(6), 1301-1308.
Osada, M., Tanigaki, N., Takahashi, S., Sakai, S. I., 2008. Brominated flame retardants and heavy metals in automobile shredder residue (ASR) and their behavior in the melting process. Journal of material cycles and waste management, 10(2), 93-101.
Parlikad, A. K., & McFarlane, D., 2010. Quantifying the impact of AIDC technologies for vehicle component recovery. Computers & Industrial Engineering, 59(2), 296-307.
Passarini, F., Ciacci, L., Santini, A., Vassura, I., Morselli, L., 2012. Auto shredder residue LCA: implications of ASR composition evolution. Journal of Cleaner Production, 23(1), 28-36.
Peterson, J. D., Vyazovkin, S., Wight, C. A., 2001. Kinetics of the thermal and thermo-oxidative degradation of polystyrene, polyethylene and poly (propylene). Macromolecular Chemistry and Physics, 202(6), 775-784.
Poskrobko, S., Kro?l, D., ?ach, J., 2012. Hydrogen chloride bonding with calcium hydroxide in combustion and two-stage combustion of fuels from waste. Energy & Fuels, 26(2), 842-853.
Pressler, E. E., Brunauer, S., Kantro, D. L., 1956. Investigation of Franke method of determining free calcium hydroxide and free calcium oxide. Analytical Chemistry, 28(5), 896-902.
Rajakumar, P. R., Nanthini, R., 2011. Thermal and morphological behaviours of polybutylene terephthalate/polyethylene terephthalate blend nanocomposites. Rasayan Journal of Chemistry, 4(3), 567-579.
Ramiah, M. V., 1970. Thermogravimetric and differential thermal analysis of cellulose, hemicellulose, and lignin. Journal of Applied Polymer Science, 14(5), 1323-1337.
Rantuch, P. E. T. E. R., & Chrebet, T. O. M. A. ?., 2014. Thermal decomposition of cellulose insulation. Cellulose Chem. Technol, 48(5-6), 461-467.
Ratchahat, S., Kodama, S., Tanthapanichakoon, W., Sekiguchi, H., 2015. CO2 gasification of biomass wastes enhanced by Ni/Al2O3 catalyst in molten eutectic carbonate salt. International Journal of Hydrogen Energy, 40(35), 11809-11822.
Roh, S. A., Kim, W. H., Yun, J. H., Min, T. J., Kwak, Y. H., Seo, Y. C., 2013. Pyrolysis and gasification-melting of automobile shredder residue. Journal of the Air & Waste Management Association, 63(10), 1137-1147.
Ruffino, B., Fiore, S., Zanetti, M. C., 2014. Strategies for the enhancement of automobile shredder residues (ASRs) recycling: results and cost assessment.
Run, M., Zhang, D., Wu, S., Wu, G., 2007. Thermal decomposition of poly (ethylene terephthalate)/mesoporous molecular sieve composites. Frontiers of Chemical Engineering in China, 1(1), 50-54.
Sakai, S.-i., Noma, Y., Kida, A., 2007. End-of-life vehicle recycling and automobile shredder residue management in Japan. Journal of Material Cycles and Waste Management, 9(2), 151-158.
Sawyer, C.N., Mccarty, P.L., Parkin, G.F., 2003.Chemistry for environmental engineering and science fifth edition.
Santhoskumar, A. U., Palanivelu, K., Sharma, S. K., Nayak, S. K., 2010. Comparison of biological activity transistion metal 12 hydroxy oleate on photodegradation of plastics. Journal of Bioremediation and Biodegradation, 1(2).
Senthil, R., Sastry, T. P., Saraswathy, G., Das, B. N., Gobi, N., 2018. Leather Insole with Acupressure Effect: New Perspectives. Journal of Polymers and the Environment, 26(1), 175-182.
Serrano, D., Kwapinska, M., Horvat, A., Sanchez-Delgado, S., Leahy, J. J., 2016. Cynara cardunculus L. gasification in a bubbling fluidized bed: The effect of magnesite and olivine on product gas, tar and gasification performance. Fuel, 173, 247-259.
Sevim, F., Demir, F., Bilen, M., Okur, H., 2006. Kinetic analysis of thermal decomposition of boric acid from thermogravimetric data. Korean Journal of Chemical Engineering, 23(5), 736-740.
Siefert, N. S., Shekhawat, D., Litster, S., Berry, D. A., 2013. Steam–Coal Gasification Using CaO and KOH for in Situ Carbon and Sulfur Capture. Energy & Fuels, 27(8), 4278-4289.
Singh, J., & Lee, B. K., 2015. Hydrometallurgical recovery of heavy metals from low grade automobile shredder residue (ASR): An application of advanced Fenton process (AFP). J Environ Manage, 161, 1-10.
Singh, J., Reddy, K. J., Chang, Y.-Y., Kang, S.-H., Yang, J.-K., 2016. A novel reutilization method for automobile shredder residue as an adsorbent for the removal of methylene blue: Mechanisms and heavy metal recovery using an ultrasonically assisted acid. Process Safety and Environmental Protection, 99, 88-97.
Singh, R. K., Biswal, B., Kumar, S., 2013. Determination of activation energy from pyrolysis of paper cup waste using thermogravimetric analysis.
Singh, S., Wu, C., & Williams, P. T., 2012. Pyrolysis of waste materials using TGA-MS and TGA-FTIR as complementary characterisation techniques. Journal of Analytical and Applied Pyrolysis, 94, 99-107.
Siriwardane, R., Fisher, J. C., Simonyi, T., 2010. Regenerable Multifunctional Sorbent Development for Sulfur and Chloride Removal from Coal-Derived Synthesis Gas. Energy & Fuels, 24(8), 4226-4230.
Sotirchos, S. V., & Smith, A. R., 2004. Performance of porous CaO obtained from the decomposition of calcium-enriched bio-oil as sorbent for SO2 and H2S removal. Industrial & engineering chemistry research, 43(6), 1340-1348.
Sreejith, C. C., Muraleedharan, C., Arun, P., 2015. Air–steam gasification of biomass in fluidized bed with CO2 absorption: A kinetic model for performance prediction. Fuel Processing Technology, 130, 197-207.
Srivastava, S., Srivastava, S., Srivastava, S., La′Verne, S. J., Khan, I. A., Ali, P., Gupta, V. D., 2011. Phonons and heat capacity of polyoxymethylene. Journal of Applied Polymer Science, 122(2), 1376-1381.
Stutzman, P. E., 2001. Scanning Electron Microscopy in Concrete Petrography. National Institute of Standards and Technology.
Su?kowski, W. W., Bartecka, G., Su?kowska, A., Ma?lanka, S., Borek, J., Moczy?ski, M., 2012. Thermogravimetric analysis of composites obtained from polyurethane and rubber waste. Molecular Crystals and Liquid Crystals, 556(1), 39-51.
Sun, Z., Chen, S., Ma, S., Xiang, W., Song, Q., 2016.Simulation of the calcium looping process (CLP) for hydrogen, carbon monoxide and acetylene poly-generation with CO2 capture and COS reduction. Applied Energy, 169, 642-651.
S?yc, M., Pohor?ely?, M., Jeremia?s?, M., Vosecky?, M., Kamenikova, P., Skoblia, S., Svoboda, K., Punc?ocha?r?, M., 2011. Behavior of heavy metals in steam fluidized bed gasification of contaminated biomass. Energy & Fuels, 25(5), 2284-2291.
Takaoka, M., Shiota, K., Imai, G., Oshita, K., 2016. Emission of particulate matter 2.5 (PM 2.5) and elements from municipal solid waste incinerators. Journal of Material Cycles and Waste Management, 18(1), 72-80.
Tanigaki, N., Fujinaga, Y., Kajiyama, H., Ishida, Y., 2013. Operating and environmental performances of commercial-scale waste gasification and melting technology. Waste Management & Research, 31(11), 1118-1124.
Taylor, R., Ray, R., Chapman, C., 2013. Advanced thermal treatment of auto shredder residue and refuse derived fuel. Fuel, 106, 401-409.
Terrill, E. R., Centea, M., Evans, L. R., MacIsaac Jr, J. D., 2010. Dynamic mechanical properties of passenger and light truck tire treads. DOT HS, 811, 270.
Trovati, G., Sanches, E. A., Neto, S. C., Mascarenhas, Y. P., Chierice, G. O., 2010. Characterization of polyurethane resins by FTIR, TGA, and XRD. Journal of Applied Polymer Science, 115(1), 263-268.
Van Graan, M., & Bunt, J. R., 2016. Evaluation of A TGA Method to Predict the Ignition Temperature and Spontaneous Combustion Propensity of Coals of Different Rank. In International Conference on Advances in Science, Engineering, Technology and Natural Resources (ICASETNR-16) (pp. 24-25).
Vermeulen, I., Van Caneghem, J., Block, C., Baeyens, J., Vandecasteele, C. 2011. Automotive shredder residue (ASR): reviewing its production from end-of-life vehicles (ELVs) and its recycling, energy or chemicals′ valorisation. J Hazard Mater, 190(1-3), 8-27.
Vigano, F., Consonni, S., Grosso, M., Rigamonti, L., 2010. Material and energy recovery from Automotive Shredded Residues (ASR) via sequential gasification and combustion. Waste Management, 30(1), 145-153.
Wang, Z., Hong, C., Xing, Y., Li, Y., Feng, L., Jia, M., 2018. Combustion behaviors and kinetics of sewage sludge blended with pulverized coal: With and without catalysts. Waste Management.
Wei, L., Yang, H., Li, B., Wei, X., Chen, L., Shao, J., Chen, H., 2014. Absorption-enhanced steam gasification of biomass for hydrogen production: Effect of calcium oxide addition on steam gasification of pyrolytic volatiles. International Journal of Hydrogen Energy, 39(28), 15416-15423.
Westmoreland, P. R., & Harrison, D. P., 1976. Evaluation of candidate solids for high-temperature desulfurization of low-Btu gases. Environmental Science & Technology, 10(7), 659-661.
Yang, E. I., Yi, S. T., Leem, Y. M., 2005. Effect of oyster shell substituted for fine aggregate on concrete characteristics: Part I. Fundamental properties. Cement and Concrete Research, 35(11), 2175-2182.
Yang, E. I., Kim, M. Y., Park, H. G., Yi, S. T., 2010. Effect of partial replacement of sand with dry oyster shell on the long-term performance of concrete. Construction and building materials, 24(5), 758-765.
Yang, M. H., 2000. The thermal degradation of acrylonitrile-butadiene-styrene terpolymer under various gas conditions. Polymer testing, 19(1), 105-110.
Yang, X., Li, Q., Chen, Z., Han, H., 2009. Fabrication and thermal stability studies of polyamide 66 containing triaryl phosphine oxide. Bulletin of Materials Science, 32(4), 375.
Yokotsuka, K., Nagao, A., Nakazawa, K., Sato, M., 1999. Changes in anthocyanins in berry skins of Merlot and Cabernet Sauvignon grapes grown in two soils modified with limestone or oyster shell versus a native soil over two years. American journal of enology and viticulture, 50(1), 1-12.
Yoon, G.-L., Kim, B.-T., Kim, B.-O., Han, S.-H., 2003. Chemical–mechanical characteristics of crushed oyster-shell. Waste Management, 23(9), 825-834.
Zhang, J., & Delichatsios, M. M., 2011. TGA maximum heat release rate and mass loss rate and comparison with the cone calorimeter. Fire Safety Science, 10, 1333-1346.
Zhang, W., Liu, H., Ul Hai, I., Neubauer, Y., Schroder, P., Oldenburg, H., Seilkopf, A., Kolling, A., 2012. Gas cleaning strategies for biomass gasification product gas. International Journal of Low-Carbon Technologies, 7(2), 69-74.
Zhao, B., Chen, L., Long, J. W., Chen, H. B., Wang, Y. Z., 2013. Aluminum hypophosphite versus alkyl-substituted phosphinate in polyamide 6: flame retardance, thermal degradation, and pyrolysis behavior. Industrial & Engineering Chemistry Research, 52(8), 2875-2886.
Zheng, Z., Liu, Y., Zhang, L., Wang, H., 2016. Synergistic effect of expandable graphite and intumescent flame retardants on the flame retardancy and thermal stability of polypropylene. Journal of Materials Science, 51(12), 5857-5871.
Zhu, H. M., Jiang, X. G., Yan, J. H., Chi, Y., Cen, K. F., 2008. TG-FTIR analysis of PVC thermal degradation and HCl removal. Journal of analytical and applied pyrolysis, 82(1), 1-9.
Jordilabs, Case study FTIR v. pyrolysis mass spectrometry, 2017,URL: https://jordilabs.com
The Plastics Industry Trade Association, Automotive Recycling devalued is now revalued., 2016, URL: http://www.plasticsindustry.org
United States Environmental Protection Agency, Technical approaches to characterizing and cleaning up automotive recycling brownfields, 2002, URL: https://www.epa.gov/
Zevenhoven, R., & Kilpinen, P., Control of pollutants in flue gases and fuel gases, 2004, URL: http://users.abo.fi/rzevenho/gasbook.html
朱東川,廢棄牡蠣殼粉取代水泥及細骨材對水泥砂漿性質之影響,國立雲林科技大學營建工程研究所,碩士論文,雲林,2003。
江康鈺,呂承翰,簡光勵,廢紙排渣衍生燃料催化氣化過程之焦油轉化評估研究,第二十五屆廢棄物處理研討會,P.375,屏東,2010。
林柏丞,添加灰化牡蠣殼粉、大蒜粉、抗性澱粉與燕麥粉對乳化肉丸品質影響之研究,中國文化大學農學院生活應用科學系,碩士論文,台北,2011。
李哲榮,牡蠣殼粉資源化做為水泥膠結材料之研究,國立台灣海洋大學海河工程學系,碩士論文,基隆,2005。
林健佑,添加牡蠣殼及蜆殼廢棄物進行低毒性拜香之研發,嘉南藥理科技大學環境工程與科學系,碩士論文,台南,2013。
林壹鴻,灰化牡蠣殼粉應用於截切蔬菜對其品質影響之研究,中國文化大學農學院生活應用科學系,碩士論文,台北,2008。
陳昕怡,牡蠣殼水溶液業對魚漿、全蛋液之物理化學變化,國立澎湖科技大學食品科學研究所,碩士論文,澎湖,2012。
陳岍汝,牡蠣殼粉溶液對食品及食品接觸面上食品病原菌及組織胺生產菌之清除效果,國立高雄海洋科技大學水產食品科學研究所,碩士論文,高雄,2011。
陳淦政,灰階改質牡蠣殼粉環保鎘熱塗料之熱特性研究,明志科技大學環境與安全衛生工程系,碩士論文,新北,2015。
胡嫻筠,發泡型牡蠣殼水泥版材中和回收雨水水質研究,南亞技術學院材料應用科技研究所,碩士論文,桃園,2011。
賴家煒,牡蠣殼之再利用研究,國立新竹教育大學應用科學系,碩士論文,新竹,2010。
郭文田,蘇德馨,廢牡蠣殼應用於控制性低強度材料可行性之研究,台灣混凝土學會2011年混凝土工程研討會,台南,2011。
行政院農業委員會,農業出版品,96年2月(第176期),2007年,取自http://www.coa.gov.tw/index.php。
行政院環境保護署資源回收管理基金管理會,統計資料,回收量86年-106年, 2018年,取自http://recycle.epa.gov.tw。 |