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Publications

Referred Paper :

2023

  1. Narindri, B. R. W., Ho, J. Y., Hsueh, H. T., Chu, H.* (2023, Jul). Multifunctional Thermosynechococcus sp. CL-1 cultivation in swine wastewater for nutrients utilization, CO2 fixation, and C-phycocyanin production. Journal of the Taiwan Institute of Chemical Engineers, 105046. 本人為通訊作者

  2. Narindri, B. R. W., Chen, Y. C., Hsueh, H. T., Chu, H.* (2023, Aug). Thermosynechococcus sp. CL-1 cultivation for Zn removal in swine wastewater with simultaneous CO2 fixation and macromolecules accumulation. Journal of Water Process Engineering, 54, 103927. 本人為通訊作者

  3. Narindri, B. R. W., Cheng, H. F., Hsueh, H. T., Chu, H.* (2023, Jul). Removal of endocrine disruptor compounds, CO2 fixation, and macromolecules accumulation in Thermosynechococcus sp. CL-1 cultivation. Journal of Biotechnology, 373, 1-11. 本人為通訊作者

  4. Narindri Rara Winayu. B., Chen S.T.,  Chang W.C., Chu H.. 2023. rGO doped S0.05N0.1/TiO2 accelerated visible light driven photocatalytic degradation of dimethyl sulfide and dimethyl disulfide. Applied Catalysis A: General, Volume 655, 5 April 2023, 119113.

  5. Narindri Rara Winayu B., Tsai S.B., Hsueh H.T., Chu H.. 2023. Combined strategy for 17-α-ethynilestradiol removal, CO2 fixation, and carotenoid accumulation using Thermosynechococcus sp. CL-1 cultivation. Process Biochemistry Volume 128, May 2023, Pages 137-146

  6. Narindri Rara Winayu B., Li J.D., Chu H.. 2023. Fe-based Oxygen Carrier for the Chemical Looping Combustion of CO, H2, and CH4 Syngas in Fluidized Bed Reactor Under Interruption of H2S. Chemical Engineering Research and Design . DOI: https://doi.org/10.1016/j.cherd.2023.05.002

  7. Narindri Rara Winayu,B., Weng, W.C., Chu, H. 2023. Introduction of Fe on rGO/TiO2 improves styre visible light-driven photocatalytic oxidation: Characterization, stability, kinetics, and mechanism. Journal of photochemistry and photobiology A: Chemistry (439) 114613. (IF: 5.141).

2022

  1. Narindri Rara Winayu,B., Li, C.T., Chu, H. 2022. Effective performance of ilmenite oxygen carrier for chemical looping combustion of carbon monoxide, hydrogen, and methane in a fluidized bed reactor. Journal of Cleaner Production (379-part 2) 134881. (IF: 11.072).

  2. Narindri Rara Winayu,B., Shen, N.Y., Chu, H. 2022. Valuable reutilization of basic oxygen furnace (BOF) slag for the CO2 sorption from oxy-fuel combustion in a fluidized bed reactor. Journal of CO2 utilization (66) 102280. (IF: 8.321).

  3. Narindri Rara Winayu,B., Hsueh, H.T., Chu, H. 2022. CO2 fixation and cultivation of Thermosynechococcus sp. CL-1 for the production of phycocyanin. Bioresource technology (364) 128105. (IF: 11.889).

  4. Narindri Rara Winayu,B., Chou, C.C., Chu, H. 2022. Enhancement of toluene photocatalytic degradation using GO/S/TiO2. Journal of the Taiwan Institute of Chemical Engineers (139) 104529. (IF: 5.477).

  5. Narindri Rara Winayu,B., Tsai, Y.Y., Chu, H. 2022. Enhancement of formaldehyde removal by graphene, S, and N doping on TiO2 nanocomposite photocatalyst. Journal of physics and chemistry of solids (170) 110961. (IF: 4.383).

  6. Narindri Rara Winayu,B., Li, B.H., Chu, H. 2022. Fe2O3/TiO2 oxygen carrier for chemical looping combustion of CO, H2, and CH4 in a fluidized bed reactor. Materials today communications (32) 104026. (IF: 3.662).

  7. Narindri Rara Winayu,B., Mao, W.H., Chu, H. 2022. Combination of rGO/S,N/TiO2 for the enhancement of visible light-driven toluene photocatalytic degradation. Sustainable environment research (32) 34. (IF: 6.763).

  8. Narindri Rara Winayu,B., Chang, Y.L., Chu, H. 2022. Simultaneous 17β-estradiol degradation, carbon dioxide fixation, and carotenoid accumulation by Thermosynechococcus sp. CL-1. Bioresource technology (354) 127197. (IF: 11.889).

 

2021

  1. Narindri Rara Winayu,B., Chen, D.S., Hsueh, H.T., Lin, H.P., Chu, H. 2021. Combination of iron-silicate adsorption and Thermosynechococcus sp. CL-1 cultivation for swine wastewater treatment, CO2 fixation, phycobiliproteins generation. Journal of water Process Engineering (44) 102406. (IF: 7.34).

  2. Narindri Rara Winayu,B., Chuang H.P., Hsueh, H.T., Chu, H. 2021. Elimination of inorganic carbon and nitrogen resided in swine wastewater usingThermosynechococcus sp. CL-1 enriched culture. Bioresource technology (336) 125325. (IF: 11.889).

  3. Chang, J.Y., Narindri Rara Winayu,B., Hsueh, H.T., Chu, H. 2021. Nitrogen and  17β-estradiol level regulate Thermosynechococcus sp. CL-1 carbon dioxide fixation, monosaccharide production, and estrogen degradation. Bioresource technology (336) 125313. (IF: 11.889).

  4. Hoi, S.K., Narindri Rara Winayu,B., Hsueh, H.T., Chu, H. 2021. Light factors and nitrogen availability to enhance biomass and C-phycocyanin productivity ofThermosynechococcus sp. CL-1. Biochemical engineering journal (167) 107899. (IF: 4.446).

 

2020

  1. Li, T.Y., Narindri Rara Winayu,B., Hsueh, H.T., Chu, H. 2020. Growth factors arrangement enhancesThermosynechococcus sp. CL-1 carotenoid productivity during CO2 fixation. Food and bioproducts processing (124) 258-265. (IF: 5.105).

  2. Narindri Rara Winayu,B., Lai K.T., Hsueh, H.T., Chu, H. 2020. Production of phycobiliprotein and carotenoid by efficient extraction fromThermosynechococcus sp. CL-1 cultivation in swine wastewater. Bioresource technology (319) 124125. (IF: 11.889).

  3. Chu, H.M., Narindri Rara Winayu,B., Hsueh, H.T., Chu, H. 2020. Improvement of Thermosynechococcus sp. CL-1 performance on biomass productivity and CO2 fixation via growth factors arrangement. Journal of photochemistry and photobiology B: Biology (205) 111822. (IF: 6.814).

  4. Cheng, H.H., Narindri Rara Winayu,B., Chu, H., Whang L.M. 2020. Recent advancement on biological technologies and strategies for resource recovery from swine wastewater. Bioresource technology (303) 122861. (IF: 11.889).

 

2019

  1. Chu, H. M., Narindri, B., Hsueh, H. T., Chu, H.*, “Improvement of Thermosynechococcus sp. CL-1 performance on biomass productivity and CO2 fixation via growth factors arrangement”, J. Photoch. Photobio. B, 205, 111822, April, 2020. (2019 SCI impact factor 4.383, 13/71 of Biophysics)

2018

  1. Ko, T. H., Chang, F. H., Hsueh, H.T.*, Wang, Y. F., Su, C. M., Huang, L. C., Chu, H., Tseng, C. M., Ray, D. T., Shen, Y. H., “Photocurrent production with thermophilic cyanobacterial strain under electrochemical treatment without adding of mediators”, Int. J. Electrochem. Sci., 13, 3429-3440, March, 2018. (2018 SCI impact factor 1.284, 22/26 of Electrochemistry)

2017

  1. Su, C. M., Hsueh, H. T., Tseng, C. M., Ray, D. T., Shen, Y. H., Chu, H.*, “Effects of nutrient availability on the biomass production and CO2 fixation in a flat plate photobioreactor”, Aerosol Air Qual. Res., 17, 1887-1897, July, 2017. (2017 SCI impact factor 2.589, 92/242 of Environmental Sciences)

  2. Chu, H.*, Lin, Y. H., Lin, C. Y., “Characterization, degradation, and reaction pathways of indoor toluene over visible-light-driven S, Zn co-doped TiO2”, IOP Conference Series: Earth and Environmental Science 51 (1), 012001, January, 2017. (EI)

2016

  1. Lin, Y. H., Hsueh, H. T., Chang, C. W., Chu, H.*, “The visible light-driven photodegradation of dimethyl sulfide on S-doped TiO2: Characterization, kinetics, and reaction pathways”, Appl. Catal. B-Environm., 199, 1-10, December, 2016. (2016 SCI impact factor 9.446, 1/49 of Environmental Engineering)

  2. Tseng, C. M., Ko, T. H., Hsueh, H. T., Chen, H. H., Ray D. T., Shen, Y. H., Chu, H.*, “Cellular composition changes and nitrogen uptake under extra-limited nitrogen condition by Thermosynechococcus sp. CL-1 carbon biofixation”, J. Chemistry, August, 2016. (2016 SCI impact factor 1.300, 105/166 of Multidisciplinary Chemistry)

 

2015

  1. Hsueh, H. T., Chien, T. W., Ko, T. H., Huang, T. T., Chu, H.*, “The regeneration of ammonia solution by calcium hydroxide for carbon dioxide absorption from the flue gas”, Global Environ. Eng., 2, 23-28, July, 2015. (equivalent to 2015 SCI impact factor 0.500)

  2. Lin, Y. H., Chen, Y. C., Chu, H.*, “The mechanism of coal gas desulfurization by iron oxide sorbents”, Chemosphere, 121, 62-67, February, 2015. (2015 SCI impact factor 3.698, 37/225 of Environmental Sciences)

2014

  1. Lin, Y. H., Chou, S. H., Chu, H.*, “A kinetic study for the degradation of 1,2-dichloroethane by S-doped TiO2 under visible light”, J. Nanopart. Res., 16, 2539-2550, August, 2014. (2014 SCI impact factor 2.184, 75/259 of Multidisciplinary Materials Science)

  2. Lin, Y. H., Hung, W. C., Chen, Y. C., Chu H.*, “Photocatalytic degradation of 1, 2-dichloroethane by V/TiO2: the mechanism of photocatalytic reaction and byproduct”, Aerosol Air Qual. Res., 14, 280-292, February, 2014. (2014 SCI impact factor 2.094, 93/221 of Environmental Sciences)

  3. Lin, Y. H., Tseng, T. K., Chu H.*, “Photocatalytic degradation of dimethyl disulfide on S and metal-ions co-doped TiO2 under visible-light irradiation”, Appl. Catal. A-Gen., 469, 221-228, January, 2014. (2014 SCI impact factor 3.942, 22/221 of Environmental Sciences)

  4. 曾庭科,謝昕懌,林依杏,朱信*,“廢棄物高溫吸收純氧燃燒產物二氧化碳捕獲技術之研究”,量測資訊雙月刊,156, 25-29, March, 2014

2013

  1. Su, C. M., Hsueh, H. T., Li, T. Y., Huang, L. C., Chu, Y. L., Tseng, C. M., Chu, H.*, “Effects of light availability on the biomass production, CO2 fixation, and bioethanol production potential of Thermosynechococcus CL-1”, Bioresource Technol., 145, 162-165, October, 2013. (2013 SCI impact factor 5.039, 9/82 of Energy & Fuels)

  2. Su, C. M., Hsueh, H. T., Chen, H. H., Chu, H.*, “Effects of nitrogen availability on the bioenergy production potential and CO2 fixation of Thermosynechococcus CL-1 under continuous cultivation”, Aerosol Air Qual. Res., 13, 1321-1330, August, 2013. (2013 SCI impact factor 2.664, 65/215 of Environmental Sciences)

  3. Tseng, T. K., Wang, L., Chu, H.*, “Influence of CO and H2 concentration on coal gas dechlorination by supported manganese oxide sorbent”, Aerosol Air Qual. Res., 13, 209-218, February, 2013. (2013 SCI impact factor 2.664, 65/215 of Environmental Sciences)

2012

  1. Tseng, T. K., Wang, L., Chu, H.*, “High-temperature cleaning of chlorine-containing coal gas by supported manganese oxides sorbent”, Aerosol Air Qual. Res., 12, 961-971, October, 2012. (2012 SCI impact factor 2.827, 43/210 of Environmental Sciences)

  2. Tseng, T. K., Hsueh, H. T., Chu, H.*, Ko, T. H., Huang, T. S., Ou, J. J., “NOx formation from the radiant tube burner in a continuous annealing line”, Sustain. Environ. Res., 22(4), 217-224, July, 2012. (equivalent to 2012 SCI impact factor 0.500)

  3. Su, C. M., Hsueh, H. T., Chen, H. H., Chu, H.*, “Effects of dissolved inorganic carbon and nutrient levels on carbon fixation and properties of Thermosynechococcus sp. in a continuous system”, Chemosphere, 88, 706-711, July, 2012. (2012 SCI impact factor 3.137, 36/210 of Environmental Sciences)

  4. Hsueh, H. T., Ko, T. H., Chou, W. C., Hung, W. C., Chu, H.*, “Health risk of aerosols and toxic metals from incense and joss paper burning”, Environ. Chem. Lett., 10, 79-87, March, 2012. (2012 SCI impact factor 1.623, 64/152 of Multidisciplinary Chemistry)

2011

  1. Lin, Y. H., Chiu, T. C., Hsueh, H. T., Chu, H.*, “N-doped TiO2 photo-catalyst for the degradation of 1, 2-dichloroethane under fluorescent light”, Appl. Surf. Sci., 258, 1581-1586, December, 2011. (2012 SCI impact factor 2.112, 2/17 of Material Science, Coatings & Films)

  2. Fukushima, Y.*, Huang, Y. J., Chen, J. W., Lin, H. C., Whang, L. M., Chu, H. Lo. Y. C., Chang, J. S., “Material and energy balances of an integrated biological hydrogen production and purification system and their implications for its potential to reduce greenhouse gas emissions”, Bioresource Technol., 102, 8550-8556, September, 2011. (2012 SCI impact factor 4.750, 7/81 of Energy & Fuels)

  3. 薛欣達,柯子星,陳幸慧,朱信*,“連續培養微藻固碳及生產生質燃料潛力之研究”,燃燒季刊,Vol. 20, No. 3, p. 59-70, August, 2011。

2010

  1. Chien, T. W., Hsueh, H. T. Chu, H.*, Hsu, W. C. Tu, Y. Y. Tsai, H. S. Chen, K. Y., “A feasibility study of a predictive emissions monitoring system applied to Taipower’s Nanpu and Hsinta power plants”, J. Air Waste Manage., 60, 907-913, August, 2010. (2012 SCI impact factor 1.204, 28/42 of Environmental Engineering)

  2. Tseng, T. K., Lin, Y. S., Chen Y. J., Chu, H.*, “A review of photocatalysts prepared by sod-gel method for VOCs removal”, Int. J. Mol. Sci., 11(6), 2336-2361, June, 2010. (2012 SCI impact factor 2.464, 48/152 of Multidisciplinary Chemistry)

  3. Chu, H.*, Chiu, T. C., Chou, S. H., Chen, Y. J., Hsueh, H. T., Tseng, T. K., “Photocatalytic degradation of chlorinated-VOCs under UV/VL with modified TiO2 photocatalysts and its kinetic study”, Engineering Science & Technology Bulletin, NSC, 67, June, 2010. (equivalent to 2012 SCI impact factor 0.500)

  4. Tseng, T. K., Wang, L., Ho, C. T., Chu, H.*, “The destruction of dichloroethane over a γ-alumina supported manganese oxide catalyst”, J. Hazard. Mater., 178, 1035-1040, June, 2010. (2012 SCI impact factor 3.925, 2/122 of Civil Engineering)

  5. Hsueh, H. T., Hsiao, C. L., Chu, H.*, “Removal of CO2 from flue gas with ammonia solution in a packed tower”, J. Environ. Eng. Manage., 20(1), 1-7, January, 2010. (equivalent to 2012 SCI impact factor 0.500)

2009

  1. Chien, T. W., Hsueh, H. T., Chu, B. Y., Chu, H.*, “Absorption kinetics of NO from simulated flue gas using Fe(II)EDTA solutions”, Process Saf. Environ., 87, 300-306, September, 2009. (2012 SCI impact factor 1.495, 50/133 of Chemical Engineering)

  2. Hsueh, H. T., Li, W. J., Chen, H. H., Chu, H.*, “Carbon bio-fixation by photosynthesis of Thermosynechococcus sp. CL-1 and Nannochloropsis oculta”, J. Photoch. Photobio. B, 95, 33-39, April, 2009. (2012 SCI impact factor 3.110, 28/72 of Biophysics)

2008

  1. Hung, W. C., Chen, Y. C., Chu, H.*, Tseng, T. K., “Synthesis and characterization of TiO2 and Fe/TiO2 nanoparticles and their performance for photocatalytic degradation of 1,-dichloroethane”, Appl. Surf. Sci., 255, 2205-2213, December, 2008. (2012 SCI impact factor 2.112, 2/17 of Materials Science, Coatings & Films)

  2. Tseng, T. K., Chang, H. C., Chu, H.*, Chen, H. T., “Hydrogen sulfide removal from coal gas by the metal-ferrite sorbents made from the heavy metal wastewater sludge” , J. Hazard. Mater., 160, 482-488, December, 2008. (2012 SCI impact factor 3.925, 2/122 of Civil Engineering)

2007

  1. Ko, T. H., Chu, H.*, Liou, Y. J. “A study of Zn-Mn based sorbent for the high-temperature removal of H2S from coal-derived gas”, J. Hazard. Mater., 147, 334-341, August, 2007. (2012 SCI impact factor 3.925, 2/122 of Civil Engineering)

  2. Hsueh, H. T., Chu, H.*, Chang, C. C., “Identification and characteristics of a cyanobacterium isolated from a hot spring with dissolved inorganic carbon”, Environ. Sci. Technol., 41(6), 1909-1914, March, 2007. (2012 SCI impact factor 5.257, 7/210 of Environmental Sciences)

  3. Hung, W. C., Fu, S. H., Tseng, J. J., Chu, H.*, Ko, T. H., “Study on photocatalytic degradation of gaseous dichloromethane using pure and iron-doped TiO2 prepared by the sol-gel method”, Chemosphere, 66, 2142-2151, February, 2007. (2012 SCI impact factor 3.137, 36/210 of Environmental Sciences)

  4. Hsueh, H. T., Chu, H.*, Yu, S. T., “A batch study on the bio-fixation of carbon dioxide in the absorbed solution from a chemical wet scrubber by hot spring and marine algae”, Chemosphere, 66, 878-886, January, 2007. (2012 SCI impact factor 3.137, 36/210 of Environmental Sciences)

2006

  1. Hung, W. C., Chu, H.*, “Catalytic incineration of acrylonitrile with platinum supported on Al2O3”, J. Environ. Eng-ASCE, 132(11), 1482-1488, November, 2006. (2012 SCI impact factor 1.399, 25/122 of Civil Engineering)

  2. Ko, T. H., Chu, H.*, Lin, H. P., Peng, C. Y., “Red soil as a regenerable sorbent for high temperature removal of hydrogen sulfide from coal gas”, J. Hazard. Mater., 136(3), 776-783, August, 2006. (2012 SCI impact factor 3.925, 2/122 of Civil Engineering)

  3. Ko, T. H., Chu, H.*, Tseng, J. J., “Feasibility study on high-temperature sorption of hydrogen sulfide by natural soils”, Chemosphere, 64, 881-891, August, 2006. (2012 SCI impact factor 3.137, 36/210 of Environmental Sciences)

                                                                                                                      

                                                                                                                     2005

  1. Ko, T. H., Chu, H.*, “Characterization of southern Taiwan red soils as a regenerable sorbent for sorption of hydrogen sulfide from coal gas with spectroscopic techniques”, Spectro. Acta A, 62(1-3), 407-414, November, 2005. (2012 SCI impact factor 1.977, 18/43 of Spectroscopy)

  2. Tseng, T. K., Chu, H.*, Ko, T. H., Chaung, L. K., “The kinetics of catalytic decomposition of methyl isobutyl ketone over a Pt/γ-Al2O3 catalyst”, Chemosphere, 61(4), 469-477, October, 2005. (2012 SCI impact factor 3.137, 36/210 of Environmental Sciences)

  3. Chien, T. W., Chu, H.*, Li, Y. C., “Absorption kinetics of nitrogen oxides using sodium chlorite solutions in twin spray columns”, Water Air Soil Poll., 166, 237-250, September, 2005. (2012 SCI impact factor 1.748, 106/210 of Environmental Sciences)

  4. Ko, T. H., Chu H.*, “Spectroscopic study on sorption of hydrogen sulfide by means of red soil”, Spectro. Acta A., 61(9), 2253-2259, July, 2005. (2012 SCI impact factor 1.977, 18/43 of Spectroscopy)

  5. Tseng, T. K., Chu, H.*, Ko, T. H., Chaung, L. K., “The operating performance and products distribution methyl-isobutyl-ketone over a Pt/γ-Al2O3 catalyst”, J. Hazard. Mater., 122, 155-160, June, 2005. (2012 SCI impact factor 3.925, 2/122 of Civil Engineering)

  6. Chu, H.*, Tseng, T, K., “Catalysts and air pollution”, Sci. Develop., 387, 6-11, March, 2005.

  7. Chien, T. W., Chu, H.*, Hsu, W. C., Tu, Y. Y., Tsai, H. S., Chen, K. Y., “A performance study of PEMS applied to the Hsinta power station of Taipower”, Atmos. Environ., 39(2), 211-222, January, 2005. (2012 SCI impact factor 3.110, 37/210 of Environmental Sciences)

  8. Ko, T. H., Chu, H.*, Chaung, L. K., “The sorption of hydrogen sulfide from hot syngas by metal oxides over supports”, Chemosphere, 58(4), 467-474, January, 2005. (2012 SCI impact factor 3.137, 36/210 of Environmental Sciences)

                                                        2004

  1. Ko, T. H., Chu, H.*, Chaung, L. K., Tseng, T. K., “High temperature removal of hydrogen sulfide using an N-150 sorbent”, J. Hazard. Mater., B114, 145-152, October, 2004. (2012 SCI impact factor 3.925, 2/122 of Civil Engineering)

  2. Tseng, T. K., Chu, H.*, Chen, J. H., “The catalytic incineration of C2H3CN over a Mn2O3/Fe2O3 catalyst”, J. Chinese I. Environ. Eng., 14(2), 61-71, April, 2004. (equivalent to 2012 SCI impact factor 0.500)

 

 

Book:

  1. Chu, H.*, Lin, Y. H., Tseng, T. K, “Photocatalytic degradation of volatile organic compounds”, a chapter in an edited book “Clean Room Technology in ART Clinics: A Practical Guide” by S. C. Esteves, A. C. Varghese, and K. C. Worrilow, ISBN 9781482254075-CAT#K23944, CRC Press, Florida, USA, 2016.

  2. Tseng, T. K., Lin, Y. H., Chu, H.*, “Catalytic incineration of volatile organic compounds”, a chapter in an edited book “Volatile Organic Compounds” by J. C. Hanks and S. O. Louglin, ISBN 978-1-61324-156-1, Nova Science Publishers, Inc., New York, USA, 2011.

  3. 朱信*,“空氣污染物連續監測技術(甲級)”,環保署空氣污染防制專責人員訓練教材,一月,2006。

  4. 朱信*,“空氣污染物連續監測技術(乙級)”,環保署空氣污染防制專責人員訓練教材,一月,2006。

  5. 朱信*,簡聰文,曾庭科,薛欣達,“固定污染源空氣污染物連續自動監測設施管理辦法”, 環保署法規,十二月,2003。

  6. 朱信*,簡聰文,曾庭科,薛欣達,“公司場所應設置連續自動監測設施及與主管機關連線之固定污染源”, 環保署法規,十二月,2003。

  7. Chu, H.*, “Kinetics of selective agglomeration applied to fine coal cleaning”, Ph.D. Dissertation, Department of Civil and Environmental Engineering, Northwestern University, February, 1988.

  8. 朱信*,“自來水中對健康有害之微量重金屬及有機物之去除研究”, 碩士論文,環境工程學研究所,國立臺灣大學,六月,1982。

            

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