Papers- Huang-Mu Lo

 Papers

2020, Lin Kae-Long*, Lin Ya-Wen, Cheng Ta-Wui, Chen Chiao-Ying, Lo Kang-Wei, Lo Huang-Mu, 2020. Green synthesis of mesoporous humidity controlling materials with different aluminum contents and their water vapor adsorption characteristics. Submitted to Materials Chemistry and Physics.

2020, Lin Kae-Long*, Lin Ya-Wen, Cheng Ta-Wui, Chen Chiao Ying, Lo Kang Wei, Lo Huang-Mu, 2020. Green synthesis of a hydrophilic mesoporous molecular sieve with a high surface area and environmental humidity control, Submitted to Materials Letters.

2020, Lin Kae-Long*, Lin Ya-Wen, Cheng Ta-Wui, Chen Chiao-Ying, Lo Kang-Wei, Lo Huang-Mu, 2020. Synthesis of aluminum containing MCM-41 and its control and application of humidity environment, Submitted to Powder Technology.

2020, Ya-Wen Lin, Ta-Wui Cheng, Wei-Ting Lin, Huang-Mu Lo, Kang-Wei Lo, Chiao-Ying Chen, Kae-Long Lin*, 2020. Molecular sieve material from liquid crystal Display waste glass and silicon carbide sludge via hydrothermal process with alkali fusion pretreatment, Submitted to Journal of Material Cycles and Waste Management.

2020, T. Y. Pai *, R. S. Wu, C. H. Chen, H. M. Lo, Terng-Jou Wan, M. H. Liu, M. R. Lin, H. Tan, Y. X. Sun, W.C. Chen, 2020. Predicting RPI in different river basins of Taiwan based on land use patterns using grey model and neural network, Submitted to Sustainability.

2020, Tzu-Yi Pai*, R.S. Wu, C.H. Chen, T.J. Wan, H.M. Lo, M.H. Liu, H.G. Leu, C.J. Tzeng, W.C. Chen, Y.P. Lin, 2020. Modeling the interaction behaviors of pollution components in a shallow slow-flowing open channel, Submitted to Environmental Monitoring and Assessment.

2020, Tonni Agustiono Kurniawan*, Wai-hung Lo, Ram Avtar, Mohd Hafiz Dzarfan Othman, Goh Hui Hwang, Huang-Mu Lo, 2020. Treatment of Stabilized Leachate Using Integrated Ammonium Stripping and Ozonated Activated Carbon, Submitted.

2020, C.K. Chen, K.L. Lin, T.Y. Pai, W.G. Yang, Y.M. Tzeng, H.Y. Chiu, C.J. Banks, H.M. Lo* (2020). Electricity production from MSW using MFCs with MSW incinerator bottom ash as electrode plate. (Submitted). MOST 106-2221-E-324-019-.

2019, C.H. Ho, H.M. Lo, K.L. Lin*, J.Y. Lan (2019, Mar). Characteristics of porous ceramics prepared from sandblasting waste and waste diatomite by co-sintering process. Environmental Progress & Sustainable Energy, 38(2), 321–328.

2019, F.C. Lo, K.L. Lin, T.Y. Pai, W.G. Yang, Y.M. Tzeng, H.Y. Chiu, S.W. Lo, C.K. Hsiao, C.J. Banks, H.M. Lo* (2019, Mar). Biogas production from most agricultural organic wastes by anaerobic digestion in Taiwan. Environmental Progress & Sustainable Energy, DOI:10.1002/ep.13242. (Accepted). NSC 101- 2621-M-324-001.

2018, Kae-Long Lin*, Huang -Mu Lo, Chih-Ming Ma, Yu-Min Chang, Chiao-Ying Chen, Ju-Ying Lan (2018, Jul). Humidity-Conditioning Mesoporous Molecular Sieves Synthesized from Thin-Film-Transistor Liquid- Crystal-Display Waste Glass and SiC Sludge. Environmental Progress & Sustainable Energy, 37, 1285–1290.

2018, KL Lin*, CM Ma, HM Lo, JY Lan, 2018. Preparation and characteristics of humidity controlling characteristics porous ceramics with waste fiberglass and waste catalyst (2018, Jan). Preparation and Characteristics of Humidity Controlling Characteristic Porous Ceramics with Waste Fiberglass and Waste Catalyst. Journal of Clean Energy Technologies, 6(1), 6-10.

2017, CH Ho, HM Lo, KL Lin*, JY Lan (2017, Dec). Characteristics of water-retaining porous ceramics with sandblasting waste. Construction and Building Materials, 157, 75-82.

2017, Tzu-Yi Pai*, Shun-Cheng Wang, Huang-Mu Lo, Li Chen, Terng-Jou Wan, MingRay Lin, Ching-Yuan Lin, Pei-Yu Yang, Wei-Jia Lai, Ya-Hsuan Wang, TienHsuan Lu, (2017, Nov). A simulation of sewer biodeterioration by analysis of different components with a model approach. International Journal of Biodeterioration and Biodegradation, 125, 37-44.

2017,FC Lo, KL Lin, TY Pai, SL Lo, HY Chiu, TC Chang, SW Lo, MH Liu, CA Chang, SC Wang, CF Chiang, KP Chao, WY Lo, YL Chu, HM Lo*. Characterisation of raw water resources in northern and central Taiwan. Desalination and Water Treatment. Accepted (January 5, 2017).

2016,H.Y. Chiu, T.Y. Pai, M.H. Liu, C.A. Chang, F.C. Lo, T.C. Chang, H.M. Lo*, C.F. Chiang, K.P. Chao, W.Y. Lo, S.W. Lo, Y.L. Chu., 2016. Electricity production from municipal solid waste using microbial fuel cells. Waste Management & Research, 34(7), 619-629. NSC 101-2221-E-324-009. Waste Management & Research

2015,Tzu-Yi Pai, Huang-Mu Lo, Terng-Jou Wan, Shun-Cheng Wang, Pei-Yu Yang, Yu-Ting Huang. 2014. Behaviors of biomass and kinetic parameter for nitrifying species in A2O process at different sludge retention time. Applied Biochemistry and Biotechnology, 174, 2875-2885.,Applied Biochemistry and Biotechnology

2015,Tzu-Yi Pai, Huang-Mu Lo, Terng-Jou Wan, Li Chen, Pei-Shan Hung, Hsuan-Hao Lo, Wei-Jia Lai, Hsin-Yi Lee. 2015. Predicting air pollutant emissions from a medical incinerator using grey model and neural network. Applied Mathematical Modelling, 39, 1513-1525.

2013,Pai, T.Y., Shyu, G.S., Chen, L., Lo, H.M., Chang, D.H., Lai, W.J., Yang, P.Y., Chen, C.Y., Liao, Y.C., Tseng, S.C., 2013. Modelling transportation and transformation of nitrogen compounds at different influent concentrations in sewer pipe. Applied Mathematical Modelling, Vol. 37, pp. 1553-1563. (SCI, April 21, 2012) (SCI). Impact Factor: 1.579.

2013,Lo, Huang-Mu; Pai, Tzu-Yi; Wang, Wen-Yu; Lin, Chao-Yang; Chiang, Chow-Feng; Chen, Lee; Lin, Kuo-Ching; Chiu, Hsun-Ying; Chen, Chih-Kuei; Kurniawan, Tonni A.; Lo, Fang-Chen; Lo, Sheng-Wen; Wu, Hung-Yu; Liou, Da-Wai; Wu, Jia-Jin; Zeng, Yu-Shen; Lu, Dao-Xiang. 2013. Effect of micro-nano MSWI ashes on the compressive strength of mortar. ,Advanced Science Letters,19,11,pp3421-3427

2013,Huang-Mu Lo, Tzu-Yi Pai, Hsun-Ying Chiu,Wen-Fung Liu, Yii-Der You, Keh-Ping Chao, Ming-Ching Wu, Chun-Hsiung Hung, Min-Hsin Liu, Shun-Cheng Wang, Hsun-Ying Chiu, Sheng-Wen Lo, Fang-Chen Lo, Hung-Yu Wu, Da-Wai Liou, Jia-Jin Wu, Dao-Xiang Lu, Yu-Shen Zeng. 2013. The effect of BPA on MSW anaerobic digestion.,Journal of Biobased Materials and Bioenergy ,7,4,pp429-429

2012,Lo*, H.M., Chiu, H.Y., Pai, T.Y., Liu, M.H., Wang, W.Y., Chuang, S.H., Wang, S.C., Wu, J.J., Liou, D.W., Lu, D.X., Zeng, Y.S., Lo, F.C., Lo, S.W., Wu, H.Y., Chu, Y.L., 2012. Anaerobic digestion of MSW spiked with BPA. ,Int. J. Appl. Sci. Eng., 6, 29-37. Accepted.

2012,Lo*, H.M., Chiu, H.Y., Lo, S.W., Lo, F.C., 2012. Effects of micro-nano and non micro-nano MSWI ashes addition on MSW anaerobic digestion. Bioresource Technol. 114, 90-94. (SCI, March 2, 2012), Impact Factor: 4.980. (1/12=8.33%, Agricultural Engineering, 2010; 23/160=14.37%, Biotechnology & Applied Microbiology, 2010; 9/79=11.39%, Energy & Fuels, 2010)

2012,Lo*, H.M., Chiang, C.F., Tsao, H.C., Pai, T.Y., Liu, M.H., Kurniawan, T.A., Chao, K.P., Liou, C.T., Lin, K.C., Chang, C.Y., Wang, S.C., Banks, C.J., Lin, C.Y., Liu, W.F., Chen, P.H., Chen, C.K., Chiu, H.Y., Wu, H.Y., Chao, T.W., Chen, Y.R., Liu, D.W., Lo, F.C., 2012. Effects of spiked metals on the MSW anaerobic digestion. Waste Manag. Res., 30, 32-48. (SCI). Impact Factor: 1.222. (26/45=57.78%, Engineering, Environmental, 2010; 120/193=62.62%, Environmental Science, 2010),Waste Manag. Res.

2012,Lo*, H.M., Pai, T.Y., Chiu, H.Y., Liu, W.F., You, Y. D., Chao, K.P., Wu, M.C., Hung, C.H., Liu, M.H., Wang, S.C., Lo, S.W., Lo, F.C., Wu, H.Y., Liou, D.W., Wu, J.J., Lu, D.X., Zeng, Y.S., 2012. The effect of BPA on MSW anaerobic digestion. Journal of Biobased Materials and Bioenergy. Accepted (SCI, March 2, 2012), Impact Factor: 1.360. (39/79=49.36%, Energy & Fuels, 2010)

2012,Lo*, H.M., Pai, T.Y., Wang, W. Y., Lin, C.Y., Chiang, C.F., Chen, L., Ling, K.C., Chiu, H.Y., Chen, C.K., Kurniawan, T.A., Lo, F.C., Lo, S.W., Wu, H.Y., Liou, D.W., Wu, J.J., Zeng, Y.S., Lu, D.X., 2012. Effect of micro-nano MSWI ashes on the compressive strength of mortar. Advanced Science Letters. Accepted (SCI, April 2, 2012), Impact Factor: 1.253. (15/59=25.42%, Multidisplinary Sciences, 2010)

2012,Lo*, H.M., Chiu, H.Y., Lo, S.W., Lo, F.C., 2012. Effects of different SRT on anaerobic digestion of MSW dosed with various MSWI ashes. Bioresource Technol. 125, 233-238. (SCI, September 29, 2012), Impact Factor: 4.980. (1/12=8.33%, Agricultural Engineering, 2011; 20/157=12.74%, Biotechnology & Applied Microbiology, 2011; 8/81=9.88%, Energy & Fuels, 2011),125,pp233-238

Pai T.Y., Yang P.Y., Wang S.C., Lo H.M., Chiang C.F., Sung P.J., Kuo J.L., Chu H.H., Lin C.Y., Su H.C., Yu L.F. and Hu H.C.,2011,Pai T.Y., Yang P.Y., Wang S.C., Lo H.M., Chiang C.F., Sung P.J., Kuo J.L., Chu H.H., Lin C.Y., Su H.C., Yu L.F. and Hu H.C., 2011. Predicting effluent from the wastewater treatment plant of industrial park based on fuzzy network and influent quality. Applied Mathematical Modelling, 35, 3674-3684. (SCI). Impact Factor: 1.371. (16/87=18.39%, Engineering, Multidisciplinary, 2010; 23/93=24.73%, Mathematics, Interdisciplinary Applications, 2010; 42/133=31.58%, Mechanics, 2010), Applied Mathematical Modelling

2010,Lo*, H.M., Kurniawan, T.A., Sillanpää, M.E.T., Pai, T.Y., Chiang, C.F., Chao, K.P., Liu, M.H., Chuang, S.H., Banks, C.J., Wang, S.C., Lin, K.C., Lin, C.Y., Liu, W.F., Cheng, P.H., Chen, C.K., Chiu, H.Y., Wu, H.Y., 2010. Modeling biogas production from organic fraction of MSW co-digested with MSWI ashes in anaerobic bioreactors. Bioresource Technol. 101, 6329-6335. (SCI, March 11, 2010), Impact Factor: 4.980. (1/12=8.33%, Agricultural Engineering, 2010; 23/160=14.37%, Biotechnology & Applied Microbiology, 2010; 9/79=11.39%, Energy & Fuels, 2010),Waste Management & Research

2010,Pai, T.Y., Ho, C.L., Chen, S.W., Lo, H.M., Sung, P.J., Lin, S.W., Lai, W.J., Tseng, S.C., Ciou, S.P., Kuo, J.L., Kao, J.T., 2010. Using seven type of GM(1, 1) model to forecast hourly particulate matter concentration in Banciao City of Taiwan. Water, Air, & Soil Pollution., Vol. 217, No. 1-4, pp. 25-33. (SCI), Impact Factor: 1.765. (83/193=43.01%, Environmental Science, 2010; 31/68=45.59%, Meteorology & Atmospheric Sciences, 2010; 19/76=25%, Water Resources, 2010)

2010,Chiang, C.F., Tsai, C.T., Pai, T.Y., Lo, H.M., Chao, K.P., 2010. Analyzing the design criteria of primary settlers for small sewage treatment systems: A national survey in Taiwan. J. Hazard. Maters., 175, 915-919. (SCI), Impact Factor: 4.173. (4/42=9.5%, Engineering, Environmental; 1/106=0.9%, Engineering, civil, 2009)

2009,T.Y. Pai , S.C.Wang, H.M. Lo, C.F. Chiang, M.H. Liu, R.J. Chiou, W.Y. Chen, P.S. Hung, W.C. Liao, H.G. Leu, 2009. Novel modeling concept for evaluating the effects of cadmium and copper on heterotrophic growth and lysis rates in activated sludge process. J. Hazard. Maters., 166, 200-206. (SCI), Impact Factor: 4.173. (4/42=9.5%, Engineering, Environmental; 1/106=0.9%, Engineering, civil, 2009)

2009,Lo*, H. M., Liu, M.H., Pai, T.Y., Liu, W.F., Lin, C.Y., Wang, S.C., Banks, C.J., Hung, C.H., Chiang, C.F., Lin, K.C., Chen, P.H., Chen, J.K., Chiu, H.Y., Su, M.H., Kurniawan, T.A., Wu, K.C., Hsieh, C.Y., Hsu, H.H., 2009. Biostabilization assessment of MSW co-disposed with MSWI fly ash in anaerobic bioreactors. J. Hazard. Maters., 162, 1233-1242. (SCI), Impact Factor: 4.173. (4/42=9.5%, Engineering, Environmental; 1/106=0.9%, Engineering, civil, 2009)

2009,Lo*, H.M., Lin, K.C., Liu, M.H., Pai, T.Y., Lin, C.Y., Liu, W.F., Fang, G.C., Lu, C., Chiang, C.F., Wang, S.C., Chen, P.H., Chen, J.K., Chiu, H.Y., Wu, K.C., 2009. Solubility of heavy metals added to MSW. J. Hazard. Maters., 161, 294-299. (SCI), Impact Factor: 4.173. (4/42=9.5%, Engineering, Environmental; 1/106=0.9%, Engineering, civil, 2009)

2008,Lo*, H.M., Liu, M.H., Pai, T.Y., Lin, K.C., Wang, S.C., Cheng, P.H., Chiu, H.Y., Hsu, H.H., Wu, K.C., Hseih, C.Y., 2008. Preparation and Characterization of Micro-nanoscale MSWI Ash and Their metal Release on MSW Anaerobic Digestion. Int. J. Appl. Sci. Eng., 6, 29-37.

2008,Pai, T.Y., Chuang, S.H., Wan, T.J., Lo, H. M., Tsai, Y.P., Su, H.C., Yu, L.F., Hu, H.C., Sung, P.J., 2008. Comparisons of grey and neural network prediction of industrial park wastewater effluent using influent quality and online monitoring parameters. Environ. Monit. Assess. 146, 51-66. (SCI), Impact Factor: 1.356. (105/180=58.33%, Environmental Science, 2009)

2007,Pai, T. Y., Chang, T. C., Lo, H. M., Wen H. H., Kong H. W., Ho, H. H., Yeh, S. C., 2007. Using grey model GM (1, N) to evaluate impact level of different factors in environmental impact assessment of sewer system. Int. J. Appl. Sci. Eng. 5, 7-16.

2007,Pai, T. Y., Tsai, Y. P., Lo, H. M., Tsai, C. H., Lin, C. Y., 2007. Grey and network prediction of suspended solids and chemical oxygen demand in hospital wastewater treatment plant effluent. Computers and Chemical Engineering 31, 1272-1281. Impact Factor: 1.808. (34/126=26.98%, Engineering, Chemical, 2009)

2007,Fu, Ming-Yue, Liu, Wen-Fung, Chuang, Ying-Pin, Lo, Huang-Mu., 2007. The bending measurement of long period grating in photonic crystal fibers. Japanese Journal of Applied Physics 46, 1189-1192. (SCI), Impact Factor: 1.138. (57/105=54.28%, Physics, Applied, 2009)

2007,Lo*, H. M., Liao, Y. L., 2007. The metals-leaching and acids-neutralizing capacity of MSW incinerator ash co-disposed with MSW in landfill sites. J. Hazard. Mater., 142, 512-519. (SCI), Impact Factor: 4.173. (4/42=9.5%, Engineering, Environmental; 1/106=0.9%, Engineering, civil, 2009)

2005,Lo*, H. M., 2005. metals behaviors of MSWI bottom ash co-digested anaerobically with MSW. Resources, Conservation & Recycling 43: 263-280. (SCI). Impact Factor: 1.987. (13/42=30.95%, Engineering, Environmental, 2009)

2004,Lin, C. Y., Lo, H. M, Chou, W. C., Lin, W. T., 2004. Vegetation recovery monitoring using the NDVI-based vegetation index at the Jou-Jou Mountain landslide area in central Taiwan. Ecological Modelling 176: 75-81. (SCI). Impact Factor: 1.871. (56/127=44.09%, Ecology, 2009)

2003,Banks, C. J., Lo, H. M., 2003. Assessing the effects of municipal solid waste incinerator bottom ash on the decomposition of biodegradable waste using a completely mixed anaerobic reactor. Waste Management & Research 21: 225-234. (SCI). Impact Factor: 1.308. (23/42=54.76%, Engineering, Environmental, 2009)

 

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