Publications

Refereed journal articles (including research papers and invited reviews):

  • Fujioka, T., Kodamatani, H., Yoshikawa, T., Inoue, D., and Ikehata, K. (2020) Assessment of 265-nm UV LED for direct photolysis and advanced oxidation of N-nitrosamines and 1,4-dioxane. Environmental Technology & Innovation, 20, 101147, https://doi.org/10.1016/j.eti.2020.101147.
  • Fujioka, T., Ngo, M.T.T., Makabe, R., Boivin, S., and Ikehata, K. (2020) Pretreatment of surface waters and wastewater by a hemodiafilter for online bacterial counting. ACS EST Water, https://doi.org/10.1021/acsestwater.0c00008.
  • Ikehata, K., Zhao, Y., Kulkarni, H. V., Li, Y. (2019) Treatment of RO concentrate from six potable reuse facilities in the southwestern U.S. with a new photobiological process. Water Supply 19, https://doi.org/10.2166/ws.2019.040.
  • Kulkarni, H., Zhao, Y., and Ikehata, K. (2019) Factors influencing photobiological treatment process to remove reactive silica from brackish groundwater reverse osmosis concentrate. Desalination 452, 114-122, DOI: 10.1016/j.desal.2018.11.009.
  • Ikehata, K., Zhao, Y., Kulkarni, H.V., Li, Y., Snyder, S.A., Ishida, K.P., Anderson, M.A. (2018) Water recovery from advanced water purification facility reverse osmosis concentrate by photobiological treatment followed by secondary reverse osmosis. Environmental Science & Technology 52:12, 8588-8595, DOI: 10.1021/acs.est.8b00951.
  • Ikehata, K., Li, Y., Komor, A.T., and Gibson, G.W. (2018) Free chlorine disinfection of full-scale MBR effluent to achieve 5-log virus inactivation. Water Environment Research 90:7, 623-633, DOI: 10.2175/106143017X15131012153103.
  • Ikehata, K., Zhao, Y., Ma, J., Komor, A.T., Maleky, N., and Anderson, M.A. (2018) A novel photobiological process for reverse osmosis concentrate treatment using brackish water diatoms. Water Science and Technology: Water Supply 18:2, 594-602, DOI: 10.2166/ws.2017.142.
  • Fujioka, T., Masaki, S., Kodamatani, H., and Ikehata, K. (2017) Degradation of N-nitrosodimethylamine by UV-based advanced oxidation processes for potable reuse: A short review. Current Pollution Report, 3:2, 79-87, DOI 10.1007/s40726-017-0052-x.
  • Ikehata, K., Zhao, Y., Maleky, N., Komor, A.T., and Anderson, M.A. (2017) Aqueous silica removal from agricultural drainage water and reverse osmosis concentrate by brackish water diatoms in semi-batch photobioreactors. Journal of Applied Phycology 29:1, 223-233, DOI 10.1007/s10811-016-0907-3.
  • Ikehata, K., Wang-Staley, L., Qu, X., and Li, Y. (2016) Treatment of groundwater contaminated with 1,4-dioxane, tetrahydrofuran, and chlorinated volatile organic compounds using advanced oxidation processes. Ozone: Science and Engineering 38:6, 413-424, DOI 10.1080/01919512.2016.1198686.
  • Anderson, M.A., Komor, A.K., and Ikehata, K. (2014) Flow routing with bottom withdrawal to improve water quality. Lake and Reservoir Management 30:2, 131-142.
  • Ikehata, K., Wang, L., Nessl, M.B., Komor, A.T., Cooper, W.J., and McVicker R.R. (2013) Effect of ammonia and chloramine pretreatment during the ozonation of a colored groundwater with elevated bromide. Ozone: Science and Engineering 35:6, 438-447.
  • Ikehata, K., Duzhak, T.G., Galeva, N.A., Ji, T., Koen, Y.M., and Hanzlik, R.P. (2008) Protein targets of reactive metabolites of thiobenzamide in rat liver in vivo. Chemical Research in Toxicology 21:7, 1432-1442.
  • Nakonechny, M., Ikehata, K., and Gamal El-Din, M. (2008) Kinetics of estrone ozone/hydrogen peroxide advanced oxidation treatment. Ozone: Science and Engineering 30:4 249-255.
  • Ikehata, K., Gamal El-Din, M., and Snyder, S.A. (2008) Ozonation and advanced oxidation treatment of emerging organic pollutants in water and wastewater. Ozone: Science and Engineering 30:1, 21-26.
  • Ji, T., Ikehata, K., Koen, Y.M., Esch, S.W., Williams, T.D., and Hanzlik, R.P. (2007) Covalent modification of microsomal lipids by thiobenzamide metabolites in vivo. Chemical Research in Toxicology 20:4, 701-708.
  • Yang, H., Xiao, J., Gamal El-Din, M., Buchanan, I.D., Bromley, D. and Ikehata, K. (2007) Soil-based treatment of partially treated liquid swine manure. Environmental Technology 28:1, 59-70.
  • Ikehata, K., Naghashkar, N.J., and Gamal El-Din, M. (2006) Degradation of aqueous pharmaceuticals by ozonation and advanced oxidation processes: A review. Ozone: Science and Engineering 28:6, 353-414.
  • Gamal El-Din, M., Smith, D.W., Al Momani, F., and Ikehata, K. (2006) Ozone treatment for the degradation of resin and unsaturated fatty acids at low temperatures. Journal of Environmental Engineering and Science 5:S1, S95-S102.
  • Singh, P., Gamal El-Din, M., Ikehata, K., Bromley, D., and Craik, S.A. (2006) UV inactivation of bacteria in raw and pre-treated liquid swine manure. Environmental Technology 27:11, 1261-1270.
  • Singh, P., Gamal El-Din, M., Bromley, D., and Ikehata, K. (2006) Alum settling and filtration treatment of liquid swine manure. Transactions of the ASABE 49:5, 1487-1494.
  • Ikehata, K. and Gamal El-Din, M. (2006) Aqueous pesticide degradation by hydrogen peroxide/ultraviolet irradiation and Fenton-type advanced oxidation processes: A review. Journal of Environmental Engineering and Science 5:2, 81-135.
  • Ikehata, K., Buchanan, I.D., Pickard, M.A., and Smith, D.W. (2005) Purification, characterization and evaluation of extracellular peroxidase from two Coprinus species for aqueous phenol treatment. Bioresource Technology 96:16, 1758-1770.
  • Ikehata, K. and Gamal El-Din, M. (2005) Aqueous pesticide degradation by ozonation and ozone-based advance oxidation processes: A review (Part II). Ozone: Science and Engineering 27:3, 173-202.
  • Ikehata, K. and Gamal El-Din, M. (2005) Aqueous pesticide degradation by ozonation and ozone-based advance oxidation processes: A review (Part I). Ozone: Science and Engineering 27:2, 83-114.
  • Ikehata, K., Pickard, M.A., Buchanan, I.D., and Smith, D.W. (2004) Optimization of extracellular fungal peroxidase production by two Coprinus Canadian Journal of Microbiology 50:12, 1033-1040.
  • Ikehata, K. and Gamal El-Din, M. (2004) Degradation of recalcitrant surfactants in wastewater by ozonation and advanced oxidation processes: A review. Ozone: Science and Engineering 26:4, 327-343.
  • Ikehata, K., Buchanan, I.D., and Smith, D.W. (2004) Recent developments in the production of extracellular fungal peroxidases and laccases for waste treatment. Journal of Environmental Engineering and Science 3:1, 1-19.
  • Ikehata, K., Buchanan, I.D., and Smith, D.W. (2004) Extracellular peroxidase production by Coprinus species from urea treated soil. Canadian Journal of Microbiology 50:1, 57-60.
  • Ikehata, K., Buchanan, I.D., and Smith, D.W. (2003) Treatment of oil refinery wastewater using crude Coprinus cinereus peroxidase and hydrogen peroxide. Journal of Environmental Engineering and Science 2:6, 463-472.
  • Ikehata, K. and Buchanan, I.D. (2002) Screening of Coprinus species for the production of extracellular peroxidase and evaluation of the enzyme for the treatment of aqueous phenol. Environmental Technology 23:12, 1355-1368.
  • Ikehata, K. and Nicell, J.A. (2000) Color and toxicity removal following tyrosinase-catalyzed oxidation of phenols. Biotechnology Progress 16:4, 533-540.
  • Ikehata, K. and Nicell, J.A. (2000) Characterization of tyrosinase for the treatment of aqueous phenols. Bioresource Technology 74:3, 191-199.

 

Invited book chapters and articles:

  • Ikehata, K. (2018) Chapter 9: Recent research on ozonation by-products in water and wastewater treatment: Formation, control, mitigation, and other relevant topics. in Recent Advances in Water and Wastewater Treatment, Thanh, B.X, Chiemchaisri, C., Fujioka, T., and Varjani, S. (Eds.), Springer Publishing Company, pp. 117-144.
  • Ikehata, K. and Li, Y. (2018) Chapter 5: Ozone-based Processes. in Advanced Oxidation Processes for Wastewater Treatment – Emerging Green Chemical Technology, Ameta, S. and Ameta, R. (Eds.), Elsevier S&T Book, Academic Press, Cambridge, MA, ISBN: 978-0-128104996, pp. 115-134.
  • Ikehata, K. (2016) Chapter 2: Applications of ozone technologies in North America (in Japanese). in Ozone Handbook, 2nd Edition, Japan Ozone Association (Ed.), Sanyu Publishing, Yokohama, Japan, ISBN 978-4-9909233-0-3, pp. 17-36.
  • Ikehata, K. (2015) Enzymatic treatment of wastewater containing synthetic dyes using fungal laccases and peroxidases. in Dyes Removal from Waste Water Using Green Technologies. Sharma, S.K. (Ed.) Wiley-Scrivener Publishing, Beverly, Massachusetts, ISBN 978-1-118-72099-8, pp. 203-260.
  • Ikehata, K., Komor, A.T., and Jin, Y. (2015) Removal of iron and manganese from water – Chemistry and engineering considerations. in Heavy Metals in Water: Presence, Removal and Safety. Sharma, S.K. (Ed.) Royal Society of Chemistry, London, UK, ISBN 978-1-84973-885-9, pp. 122-140.
  • Ikehata, K., Jin, Y., Maleky, N., and Lin, A. (2015) Heavy metal pollution in water resources in China – Occurrence and public health implications. in Heavy Metals in Water: Presence, Removal and Safety. Sharma, S.K. (Ed.) Royal Society of Chemistry, London, UK, ISBN 978-1-84973-885-9, pp. 141-167.
  • Ikehata, K. (2013) Wastewater treatment using a fungal peroxidase from Coprinopsis species (in Japanese). in Kinrui no Jiten (Encyclopedia of Fungi), Mycological Society of Japan (Ed.) Asakura Publishing, Tokyo, Japan, ISBN 978-4-254-17147-1 C3545, pp. 544-545.
  • Ikehata, K. (2013) Hazardous agents in wastewater: Public health impacts and treatment options for safe disposal and reuse. In Wastewater Reuse and Management, Sharma, S.K. and Sanghi (Eds.) Springer, Dordrecht, the Netherlands, ISBN 978-94-007-4942-9 (eBook), 978-94-007-4941-2 (Hardcover), pp. 165-191.
  • Ikehata, K. and Liu, Y. (2011) Land disposal of wastes. in Encyclopedia of Environmental Health, Nriagu, J. (Ed.) Elsevier B.V., Amsterdam, Netherlands, ISBN 978-0444522733, pp. 353-361.
  • Ikehata, K., Buchanan, I.D., and Smith, D.W. (2003) Production of enzymes for environmental applications. A review. in Wastewater Treatment Using Enzymes, A. Sakurai (Ed.) Research Signpost, Kerala, India, ISBN 81-7736-172-4, pp. 1-40.

 

Project reports:

  • Ikehata, K. and Kulkarni, H.V. (2018) Development of a Novel Photobiological System to Improve Water Recovery in Brackish Groundwater Desalination. Desalination and Water Purification Research and Development Program Report Prepared for the Bureau of Reclamation under Agreement No. R17AC00036, March 23, 2018, U.S. Department of the Interior, Bureau of Reclamation, Technical Service Center, Denver, Colorado.
  • Yamamura, S., Ikehata, K., Isa, T., Kato, Y., Kakinuma, M., Kawachi, T., Sasaki, T., Nagashio, D., Yao, M., Yamaguchi, T., Tanaka, K. (2015) Ozone Drinking Water Treatment Water Quality Subcommittee Report (in Japanese). Japan Ozone Association, Tokyo, Japan.
  • Ikehata, K. and Buchanan, I.D. (2000) Colour and chloride removal from pulp mill effluent using ion-exchange resins. Sustainable Forest Management Network Project Report 2000-18, University of Alberta, Edmonton, Alberta.

Comments are closed.