經歷

• 國立高雄科技大學環境與安全衛生工程系副教授
• 國立高雄第一科技大學環境與安全衛生工程系 助理教授、副教授
• 美國史丹佛大學土木與環境工程系 邀訪學者
• 國立台灣大學 博士後研究員
• 財團法人台灣永續能源研究基金會學術研討委員會 執行秘書

專長

• 薄膜分離技術（積垢控制、膜面改質）
• 水處理與回收再利用（薄膜過濾、吸附、高級氧化、結晶軟化）
• 淨水/污水處理程序功能評估與改善
• 新興污染物之轉化與處理（各式消毒劑對新興消毒副物之生成與控制）
• 能源科技（生質物焙燒技術、二氧化碳封存及資源化）

榮譽

• 108度國立高雄科技大學特殊優秀研究人才彈性薪資獎勵傑出研究獎(2018/9)
• 第四屆環境安全衛生暨消防工程研討會「優秀論文獎」(2019/04)
• 107年度國立高雄科技大學特殊優秀研究人才彈性薪資獎勵優良研究獎(2018/12)
• 107年度環境工程實務技術研討會優秀論文獎，中華民國環境工程學會、台灣區環境保護工程專業營造業同業公會(2018/11)
• 106年度國立高雄第一科技大學教師學術研究傑出獎(2017/09)
• 106年度科技部補助大專校院獎勵特殊優秀人才措施獎勵-傑出研究獎(2017/08)
• 第二十八屆廢水處理技術研討會「最佳論文獎」，中華民國環境工程學會(2016/11)
• 105年度科技部補助大專校院獎勵特殊優秀人才措施獎勵(2016/08-2017/07)
• 105年度國立高雄第一科技大學教師學術研究傑出獎(2016/09)
• 104年度國立高雄第一科技大學輔導楷模(2016/09)
• 第二十七屆廢水處理技術研討會「最佳論文獎」，中華民國環境工程學會(2015/11)
• 104年度國立高雄第一科技大學教師學術研究優良獎(2015/09)
• 104年度科技部補助大專校院獎勵特殊優秀人才措施獎勵(2015/08-2016/07)
• 103年度科技部補助大專校院獎勵特殊優秀人才措施獎勵(2014/08-2015/07)
• 第二十三屆廢水處理技術研討會「優秀論文獎」，中華民國環境工程學會(2011/11)
• 第十四屆海峽兩岸環境保護學術研討會「最佳論文獎」，海外華人環境保護學會(2011/11)
• 第六屆環境荷爾蒙及持久性有機污染物研討會「壁報論文優良獎」，社團法人中華民國環境分析學會(2010/10)
• 第十三屆海峽兩岸環境保護學術研討會「最佳論文獎」，海外華人環境保護學會(2010/04)
• IWA's Young Water Professional ASPIRE 2010 Support Scheme (2010/06)

專利

• 生物污泥減量與回流再利用方法，中華民國 發明第 I647183號，/11/2019-9/17/2037，經濟部智慧財產局。
• 測定水中低濃度溶解性有機氮濃度的方法，中華民國發明第I409448號，9/21/2013-8/11/2030，經濟部智慧財產局。

研究計畫-科技部

• 功能性正滲透薄膜及電強化過濾模組開發以提升分離效能，107年度科技部專題研究計畫，MOST-107-2221-E-992-008-MY3。
• 以濃度極化強化自由基嫁接聚合改質NF/RO膜面以提升對PPCPs之去除效能與抗垢性研究(II-IV)，104年度科技部專題研究計畫，MOST-104-2221-E-327-001-MY3。
• 以濃度極化強化自由基嫁接聚合改質NF/RO膜面以提升對PPCPs之去除效能與抗垢性研究，科技部專題研究計畫，103年度MOST-103-2221-E-327-003。
• 新式微波焙燒廢棄生質物之關鍵技術與機制研究，102年度科技部專題研究計畫，MOST-102-2221-E-327-021。
• 生質物烘燒技術的開發與應用(II)，101年度科技部專題研究計畫，MOST-101-2221-E-327-012。
• 生質物烘燒技術的開發與應用，100年度科技部專題研究計畫，MOST-100-2221-E-327-043。
• 奈米薄膜對微量新興污染物之去除機制及利用臭氧-浸潤式光催化薄膜反應器進行薄膜濃縮液之回收再利用研究(II)，99年度科技部專題研究計畫，MOST-99-2221-E-327-019。
• 奈米薄膜對微量新興污染物之去除機制及利用臭氧-浸潤式光催化薄膜反應器進行薄膜濃縮液之回收再利用研究，98年度科技部專題研究計畫，MOST-98-2221-E-327-002。

研究計畫-產學

• 濕地樣品分析檢測案（2019-2020），技佳工程科技股份有限公司，2019-2020。
• 開發高濃度廢水之膜分離技術處理案，大成儀器有限公司，2018。
• 銅鑼科學工業園區聯合污水處理廠處理廠商納管水質導電度至符合灌溉用水標準可行性評估計畫（共同主持人），2018。
• 濕地樣品分析檢測案，技佳工程科技股份有限公司，2018。
• 污泥減量與再利用之循環經濟模式，國立高雄第一科技大學，2017。
• 綠色技術-創新生物污泥減量處理系統開發與推廣，國立高雄第一科技大學，2016。
• 成型腊特性與成分分析，金采精密鑄造公司，2015。
• 電廠批次式廢水蒸發濃縮結晶試驗及分析成果報告，台灣電力股份有限公司綜合研究所，2014。
• 推動區域能源智庫運作-南區低碳智慧城市發展規劃研究，工業技術研究院，2011。
• 補助大專校院辦理永續發展通識課程，教育部，2012。
• 增設綠色奈米技術前瞻性實驗室，國立高雄第一科技大學，2011。
• 台塑公司仁武廢水場各處理單元功能評估及改善計畫，台灣塑膠工業股份有限公司，2011。

期刊論文(Referred Journal Articles)

1. Comparison of different disinfection processes for controlling disinfection by-product formation in rainwater, J. Hazard. Mater. Accepted (2020). (SCI)
2. Environmental and energy assessment of biomass residues to biochar as fuel: A brief review with recommendations for future bioenergy systems, J. Clean. Prod. 251, 119714 (2020). (SCI)
3. A comparison of dissolved organic matter transformation in low pressure ultraviolet (LPUV) and ultraviolet light-emitting diode (UV-LED)/chlorine processes, Sci. Total Environ. 702, 134942 (2020). (SCI)
4. Degradation of diiodoacetamide in water by UV/chlorination: Kinetics, efficiency, influence factors and toxicity evaluation, Chemosphere 240, 124761 (2020). (SCI)
5. Investigation of iohexol degradation kinetics by heat-activated persulfate, Chem. Eng. J. 379, 122403 (2020). (SCI)
6. Enhancing anti-organic fouling and PPCP rejection using in-situ modified NF90, Environ. Sci. Pollut. Res. 26, 34073-34084 (2019). (SCI)
7. A novel event detection model for water distribution systems based on data-driven estimation and support vector machine classification, Water Resour. Manag. 33, 4569-4581 (2019). (SCI)
8. Investigation of iohexol degradation kinetics by heat-activated persulfate, Chem. Eng. J. 379, 122403 (2019). (SCI)
9. Enhanced ronidazole degradation by UV-LED/chlorine compared with conventional low-pressure UV/chlorine at neutral and alkaline pH values, Water Res. 160, 296-303 (2019). (SCI)
10. Kinetics and model development of iohexol degradation during UV/H2O2 and UV/S2O82- oxidation, Chemosphere 229, 602-610 (2019). (SCI)
11. Modelling of iohexol degradation in a Fe(II)-activated persulfate system, Chem. Eng. J. 367, 86-93 (2019). (SCI)
12. Chlorination of Bromacil: Kinetics and formation of disinfection by-products, Sep. Purif. Technol. 212, 913-919 (2019). (SCI)
13. Degradation kinetics of diatrizoate during UV photolysis and UV/chlorination, Chem. Eng. J. 360, 1003-1010 (2019). (SCI)
14. Enhanced inactivation of E. coli by pulsed UV-LED irradiation during water disinfection, Sci. Total Environ. 650, 210-215 (2019). (SCI)
15. Efficient heterogeneous activation of persulfate by iron-modified biochar for removal of antibiotic from aqueous solution: a case study of tetracycline removal, Catalysts 9, 1-14 (2019). (SCI)
16. Removal of sulfonamides from wastewater in the UV/TiO2 system: effects of pH and salinity on photodegradation and mineralization, Water Sci. Technol. 79, 349-355 (2019). (SCI)
17. Single-step solvothermal process for synthesizing SnO2/Bi2WO6 composites with high photocatalytic activity in the photodegradation of C.I. Reactive Red2 under solar light, React. Kinet. Mech. Catal. 126, 1097-1113 (2019). (SCI)
18. Synthesis of Bi2O3/Bi2WO6 composites using single-step solvothermal method: determinations of surface characteristics and photocatalytic activity, Desalin. Water Treat. 151, 56-65 (2019). (SCI)
19. Reutilization of dredged harbor sediment and steel slag by sintering as lightweight aggregate, Process Saf. Environ. Protect. 126, 287-296 (2019). (SCI)
20. The degradation of phthalate esters in marine sediments by persulfate over iron–cerium oxide catalyst, Sci. Total Environ. 696, 133973 (2019). (SCI)
21. Effect of UV irradiation on iodinated trihalomethane formation during post-chloramination, Water Res. 147, 101-111 (2018). (SCI).
22. Adsorption of haloforms onto GACs: Effects of adsorbent properties and adsorption mechanisms, Chem. Eng. J. 349, 849-859 (2018). (SCI)
23. Factors affecting the water odor caused by chloramines during drinking water disinfection, Sci. Total Environ. 639, 687-694 (2018). (SCI)
24. Degradation kinetics and disinfection by-product formation of chlorimuron-ethyl during aqueous chlorination, Sep. Purif. Technol. 204, 49-55 (2018). (SCI)
25. Formation of iodinated trihalomethanes during breakpoint chlorination of iodide-containing water, J. Hazard. Mater. 353, 505-513 (2018). (SCI)
26. Improving the organic and biological fouling resistance and removal of pharmaceutical and personal care products through nanofiltration by using in situ radical graft polymerization, Sci. Total Environ. 635, 543-550 (2018). (SCI)
27. In situ concentration-polarization-enhanced radical graft polymerization of NF270 for mitigating silica fouling and improving pharmaceutical and personal care product rejection, J. Membr. Sci. 552, 387-395 (2018). (SCI)
28. Degradation of acrylamide during chlorination as a precursor of haloacetonitriles and haloacetamides, Sci. Total Environ. 615, 38-46 (2018). (SCI)
29. Degradation of acrylamide by the UV/chlorine advanced oxidation process, Chemosphere 187, 268-276 (2017). (SCI)
30. Effects of organic, biological and colloidal fouling on the removal of pharmaceuticals and personal care products by nanofiltration and reverse osmosis membranes, J. Membr. Sci. 542, 342-351 (2017). (SCI)
31. Degradation kinetics and DBP formation during chlorination of metribuzin, J. Taiwan Inst. Chem. E. 80, 255-261 (2017). (SCI)
32. Iodinated trihalomethanes formation during chloramination of iodate-containing waters in the presence of zero valent iron, Water Res. 124, 219-226 (2017). (SCI)
33. Chlor(am)ination of iopamidol: Kinetics, pathways and disinfection by-product formation, Chemosphere 184, 489-497 (2017). (SCI)
34. Kinetics and modeling of iodoform degradation during UV/chlorine advanced oxidation process, Chem. Engi. J. 323, 312-319 (2017). (SCI)
35. Factors affecting THM, HAN and HNM formation during UV-chlor(am)ination of drinking water, Chem. Engi. J. 306, 1180-1188 (2017). (SCI)
36. Formation of organic chloramines and N-DBPs during chlor(am)ination and UV/chlor(am)ination of algae organic matter in drinking water, Water Res. 103, 189-196 (2016). (SCI)
37. Formation of iodinated trihalomethanes during UV/chloramination process with iodate as the iodine source, Water Res. 98, 199-205 (2016). (SCI)
38. Effect of UV irradiation on the formation of organic chloramines during water chlorination, Chemosphere 144, 940-947 (2016). (SCI)
39. Degradation of iohexol by UV/chlorine process and formation of iodinated trihalomethanes during post-chlorination, Chem. Engi. J. 283, 1090-1096 (2016).
40. Degradation of chlortoluron during UV irradiation and UV/chlorine processes and formation of disinfection by-products in sequential chlorination, Chem. Engi. J. 283, 412-419 (2016). (SCI)
41. Removal of pharmaceuticals and personal care products by Eichhornia crassipe and Pistia stratiotes, J. Taiwan Inst. Chem. E. 58, 318-323 (2016). (SCI)
42. Effect of pipe corrosion product-Goethite on the formation of disinfection by-products during chlorination, Desalin. Water Treat. 57, 553-561 (2016). (SCI)
43. Identification and quantification of ineffective chlorine by NaAsO2 selective quenching method during drinking water disinfection, Chem. Engi. J. 277, 295-302 (2015). (SCI)
44. Effects of microwave-induced torrefaction on waste straw upgrading, IJCEA 66, 401-404 (2015).
45. Chlorination of bensulfuron-methyl: kinetics, reaction factors and disinfection by-product formation, J. Taiwan Inst. Chem. E., 53, 46-51 (2015). (SCI)
46. Dissolved organic matter fractions and disinfection byproduct formation potentials from major raw waters in water-receiving area of south-to-north water diversion project, China, Desalin. Water Treat. 56, 1689-1667 (2015). (SCI)
47. A comparison of iodinated trihalomethane formation from chlorine, chlorine dioxide and potassium permanganate oxidation processes, Water Res. 68, 394-403 (2015). (SCI)
48. Kinetic models and pathways of ronidazole degradation by chlorination, UV irradiation and UV/chlorine Processes”, Water Res. 65, 271-281 (2014). (SCI)
49. A comparison of iodinated trihalomethane formation from iodide and iopamidol in the presence of organic precursors during monochloramination, Chem. Engi. J. 257, 292-298 (2014). (SCI)
50. A comparison of carbonaceous, nitrogenous and iodinated disinfection by-product formation potential in different dissolved organic fractions and their reduction in drinking water treatment processes, Sep. Purf. Technol. 133, 82-90 (2014). (SCI)
51. Photodegradation kinetics of iopamidol by UV irradiation and enhanced formation of iodinated disinfection by-products in sequential oxidation processes, Water Res. 58, 198-208 (2014). (SCI)
52. Elucidating the rejection mechanisms of PPCPs by nanofiltration and reverse osmosis membranes, Ind. Eng. Chem. Res. 53, 6798-6806 (2014). (SCI)
53. Effect of silica fouling on the removal of pharmaceuticals and personal care products by nanofiltration and reverse osmosis membranes, J. Hazard. Mater. 277, 102-109 (2014). (SCI)
54. 複合式積垢對奈米/逆滲透薄膜去除醫藥與個人保健用品之效能與機制影響, 先進工程學刊9(1) 37-43 (2014).
55. 方形流體化結晶軟化床之流況分析與改善建議, 先進工程學刊 8(4), 235-239 (2013).
56. Monochloramination of oxytetracycline: kinetics, mechanisms, pathways, and disinfection by-products formation, Clean-Soilr, Air, Water 41(10) 969-975 (2013). (SCI)
57. Reduction of N-Nitrosodimethylamine (NDMA) in aqueous solution by nanoscale Fe/Al2(SO4)3, Water, Air & Soil Poll. 224, 1632-1641 (2013). (SCI)
58. Formation of iodinated disinfection by-products during oxidation of iodide-containing waters with chlorine dioxide, Water Res. 47(9), 3006-3014 (2013). (SCI)
59. Effects of physico-chemical properties of nanofiltration membranes on the rejection of small organic DBP precursors, J. Environ. Eng.-ASCE 139, 127-136 (2013). (SCI)
60. Formation of iodinated disinfection by-products during oxidation of iodide-containing water with potassium permanganate, J. Hazard. Mater. 241-242, 348-354 (2012). (SCI)
61. Formation of volatile halogenated by-products during the chlorination of oxytetracycline, Water, Air & Soil Poll. 223, 4429-4436 (2012). (SCI)
62. Degradation kinetics and N-nitrosadimethylamine formation during monochloramination of chlortoluron, Sci. Total Environ. 417-418, 241-247 (2012). (SCI)
63. Chlorination of chlortoluron: kinetics, pathways and chloroform formation, Chemosphere 83, 909-916 (2011). (SCI)
64. Measurement of dissolved organic nitrogen in a drinking water treatment plant: Size fraction, fate, and relation to water quality parameters, Sci. Total Environ. 409, 1116-1122 (2011). (SCI)
65. Measurements of dissolved organic nitrogen (DON) in water samples by nanofiltration pretreatment, Water Res. 44, 5376-5387 (2010). (SCI)
66. Reduction of natural organic matter by nanofiltration process, Chemosphere 76, 1265-1272 (2009). (SCI)
67. Removal of small trihalomethane precursors from aqueous solution by nanofiltration, J. Hazard. Mater. 146, 20-29 (2007). (SCI)
68. Establishment and Implementation of Source Water Implementation Plan for Water Treatment Plants in Taiwan, the Practice Periodical of Hazardous, Toxic, and Radioactive Waste Management, ASC, 11, 2-10 (2007). (EI)
69. Development and Implementation of Performance Evaluation System for a Water Treatment Plant: A Case Study, the Practice Periodical of Hazardous, Toxic, and Radioactive Waste Management, ASCE 11, 36-47 (2007). (EI)
70. Reduction of disinfection by-products precursors by nanofiltration process, J. Hazard. Mater. 137, 324-331 (2006). (SCI)
71. Relationship of chlorine consumption and chlorination by-products formation on model compounds, Chemosphere 64, 1196-1203 (2006). (SCI)
72. Evaluation of Source Water Quality Standards for Total Coliforms TOC and COD in Taiwan, the Practice Periodical of Hazardous, Toxic, and Radioactive Waste Management, ASCE 9, 193-203 (2005). (EI)
73. 美日新能源科技之研究與課程規劃，環境工程會刊第20卷第4期，民國98年11月。
74. 飲用水安全管理策略雛議，化工技術第167期，2007年2月。