Dr. Kaushik Venkiteshwaran
Assistant Professor Civil, Coastal, and Environmental Engineering
Education
- Ph.D. in Civil Engineering, Marquette University, Milwaukee, WI, èßäÉçÇøAPP
- Masters In Civil Engineering, Clarkson University, Potsdam, NY, èßäÉçÇøAPP
- Bachelors of Technology in Biotechnology, ICFAI University, Dehradun, India
Research Interests
- Developing chemical and biological processes for sustainable water and wastewater treatment
- Novel bio-adsorbent development for nutrient recovery and emerging contaminant removal
- Modelling microbial interactions in natural and engineered environments
- Relating microbial community structure to biological process performance
- Developing novel microbial cultures for bio-energy production
- Advanced oxidation targeting organic contaminant destruction and pathogen disinfection
Publications
Book Chapter
- Venkiteshwaran, K., Seib, M., Xie, T., Tale, V. P., Zitomer, D. Chapter 9: Anaerobic Digester Biogas Upgrading Using Microalgae. Book Title: Integrated Wastewater Management and Valorization using Algal Cultures. Elsevier Publications. Under Review.
Journal Articles
- Venkiteshwaran, K., Kennedy, E., Graeber, C., Mallick, S.P., McNamara, P.J., Mayer, B.K., 2021. Conversion of soluble recalcitrant phosphorus to recoverable orthophosphate form using UV/H2O2. Chemosphere 130391. .
- Mallick, S.P., Ryan, D.R., Venkiteshwaran, K., McNamara, P.J., Mayer, B.K., 2021. Electro-oxidation to convert dissolved organic nitrogen and soluble non-reactive phosphorus to more readily removable and recoverable forms. Chemosphere 279, 130876. .
- Venkiteshwaran, K., Wells, E., Mayer, B.K., 2020. Kinetics, affinity, thermodynamics, and selectivity of phosphate removal using immobilized phosphate-binding proteins. Environ. Sci. Technol. .
- Hussein, F.B., Venkiteshwaran, K., Mayer, B.K., 2020. Cell surface-expression of the phosphate-binding protein PstS: System development, characterization, and evaluation for phosphorus removal and recovery. J. Environ. Sci. 92, 129–140. .
- Mathai, P.P., Dunn, H.M., Venkiteshwaran, K., Zitomer, D.H., Maki, J.S., Ishii, S., Sadowsky, M.J., 2019. A microfluidic platform for the simultaneous quantification of methanogen populations in anaerobic digestion processes. Environ. Microbiol. 21, 1798–1808. .
- Mullen, P., Venkiteshwaran, K., Zitomer, D.H., Mayer, B.K., 2019. Ion exchange nutrient recovery from anaerobic membrane bioreactor permeate. Water Environ. Res. .
- Seyedi, S., Venkiteshwaran, K., Zitomer, D., 2019. Toxicity of various pyrolysis liquids from biosolids on methane production yield. Front. Energy Res. 7, 5. .
- Venkiteshwaran, K., Pokhrel, N., Hussein, F., Antony, E., Mayer, B.K., 2018. Phosphate removal and recovery using immobilized phosphate binding proteins. Water Res. X. .
- Venkiteshwaran, K., McNamara, P.J., Mayer, B.K., 2018. Meta-analysis of non-reactive phosphorus in water, wastewater, and sludge, and strategies to convert it for enhanced phosphorus removal and recovery. Sci. Total Environ. .
- Bhattad, U., Venkiteshwaran, K., Maki, J.S., Zitomer, D.H., 2017. Biochemical methane potential assays and anaerobic digester bioaugmentation using freeze dried biomass. Environ. Sci. Water Res. Technol. 3, 1152–1161. .
- Venkiteshwaran, K., Milferstedt, K., Hamelin, J., Fujimoto, M., Johnson, M., Zitomer, D.H., 2017. Correlating methane production to microbiota in anaerobic digesters fed synthetic wastewater. Water Res. 110. .
- Venkiteshwaran, K., Milferstedt, K., Hamelin, J., Zitomer, D.H., 2016. Anaerobic digester bioaugmentation influences quasi steady state performance and microbial community. Water Res. 104, 128–136. .
- Venkiteshwaran, K., Bocher, B., Maki, J., Zitomer, D., 2016. Relating anaerobic digestion microbial community and process function. Microbiol. Insights 8, 37–44. .
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Courses
- CE 370/374: Introduction to Environmental Engineering (and Lab)
- CE 470/471: Water and Wastewater Treatment Design (and Lab)
Patent
Mayer, B., & Venkiteshwaran, K. (2021). Process for Controlled Adsorption and Desorption of Phosphate From Liquids Using Phosphate-Selective Proteins (Provisional patent: US20210147259A1). https://patents.google.com/patent/US20210147259A1/en