Publications

1.       Paul, T., Baskaran, D., Pakshirajan, K., Pugazhenthi, G., Rajamanickam, R. (2020). Bio-oil production by hydrothermal liquefaction of Rhodococcus opacus biomass utilizing refinery wastewater: Biomass valorization and process optimization. Environmental Technology and Innovation, 101326. (https://doi.org/10.1016/j.eti.2020.101326) (IF: 5.263)

2.       Paul, T., Baskaran, D., Pakshirajan, K., Pugazhenthi, G (2020). Valorization of refinery wastewater for lipid-rich biomass production by Rhodococcus opacus in batch system: a kinetic approach. Biomass and Bioenergy, 143, 105867. (https://doi.org/10.1016/j.biombioe.2020.105867) (IF: 5.061)

3.       Paul, T., Sinharoy, A., Baskaran, D., Pakshirajan, K., Pugazhenthi, G., Lens, P. N. (2020). Bio-oil production from oleaginous microorganisms using hydrothermal liquefaction: A biorefinery approach. Critical Reviews in Environmental Science and Technology, 1-39.(https://doi.org/10.1080/10643389.2020.1820803) (IF: 12.561)

4.       Paul, T., Sinharoy, A., Pakshirajan, K., Pugazhenthi, G. (2020). Lipid-rich bacterial biomass production using refinery wastewater in a bubble column bioreactor for bio-oil conversion by hydrothermal liquefaction. Journal of Water Process Engineering, 37, 101462. (https://doi.org/10.1016/j.jwpe.2020.101462) (IF: 5.485)

5.       Paul, T., Baskaran, D., Pakshirajan, K., Pugazhenthi, G. (2019). Continuous bioreactor with cell-recycle using tubular ceramic membrane for simultaneous wastewater treatment and bio-oil production by oleaginous Rhodococcus opacus. Chemical Engineering Journal 367, 76–85. (https://doi.org/10.1016/j.cej.2019.02.050) (IF: 13.273)

6.       Paul, T., Iyyappan, J., Manikandan, N. A., Pakshirajan, K., Pugazhenthi, G., Girisa, S., Kunnumakkara, A.B. Toxicity assessment and reuse potential of petroleum refinery wastewater treated using a high performance two-stage submerged tubular membrane bioreactor with the oleaginous hydrocarbonoclastic bacterium Rhodococcus opacus (Accepted)

7.        Paul T., Iyyappan  J,  Pakshirajan K., Pugazhenthi G. Integrated bioreactor configurations for the removal of recalcitrant organics from petroleum refinery wastewater (Accepted)

8.   Kanaujiya, D. K., Paul, T., Sinharoy, A., Pakshirajan, K. (2019). Biological treatment processes for the removal of organic micro pollutants from wastewater: a review. Current Pollution Reports, 5(3), 112-128.  (10.1007/s40726-019-00110-x) (IF: 6.373)

9.       Nandi, M., Paul, T., Kanaujiya, D. K., Baskaran, D., Pakshirajan, K., Pugazhenthi, G. (2020). Biodegradation of benzyl butyl phthalate and di-butyl phthalate by Arthrobacter sp. via micellar solubilization in a surfactant-aided system. Water Supply (https://doi.org/10.2166/ws.2020.347) (IF: 1.275)

10.     Baskaran, D., Sinharoy, A., Paul, T., Pakshirajan, K., Rajamanickam, R. (2020). Performance evaluation and neural network modelling of trichloroethylene removal using a continuously operated two-phase partitioning bioreactor. Environmental Technology and Innovation, 17,100568.(https://doi.org/10.1016/j.eti.2019.100568) (IF: 5.263)

11.     Baskaran, D., Paul, T., Kannan, P., Krithivasan, M., Devanesan, M. G., Rajamanickam, R. (2020). Batch degradation of trichloroethylene using oleaginous Rhodococcus opacus in a two-phase partitioning bioreactor and kinetic study. Bioresource Technology Reports, 11, 100437.(https://doi.org/10.1016/j.biteb.2020.100437)

12.        Tejas Namboodiri, M. M., Manikandan, A., Paul, T., Pakshirajan, K., & Pugazhenthi, G. (2022). Chitosan production by Penicillium citrinum using paper mill wastewater and rice straw hydrolysate as low-cost substrates in a continuous stirred tank reactor. Environmental Technology, 1-33. https://doi.org/10.1080/09593330.2022.2026486 (IF: 3.475)

13.        Namboodiri, M. T., Paul, T., Medisetti, R. M. N., Pakshirajan, K., Narayanasamy, S., Pugazhenthi, G. (2022). Solid state fermentation of rice straw using Penicillium citrinum for chitosan production and application as nanobiosorbent. Bioresource Technology Reports, 101005. https://doi.org/10.1016/j.biteb.2022.101005

14.        Singh, A. K., Pandey, A. K., Kumar, M., Paul, T., & Gaur, N. A. (2022). Improved xylitol production by novel inhibitor tolerant yeast Candida tropicalis K2. Environmental Technology, (just-accepted), 1-45. https://doi.org/10.1080/09593330.2022.2095227  (IF: 3.475)

15.        Tanushree Paul, Kannan Pakshirajan, G. Pugazhenthi. Bio-oil production from oleaginous Rhodococcus opacus biomass treating refinery wastewater in a bioreactor under fed batch operation mode. International Conference on Energy and Sustainable Development (ICESD) (Conference paper)

16.        Purnima, M., Paul, T., Pakshirajan, K., & Pugazhenthi, G. (2022). Onshore oilfield produced water treatment by hybrid microfiltration-biological process using kaolin based ceramic membrane and oleaginous Rhodococcus opacus. Chemical Engineering Journal, 139850. (IF: 16.744)

17.        Manoj Kumar, Tanushree Paul, Ajay Kumar P V, Kannan Pakshirajan. Induced oxidative stress in Rhodococcus opacus due to biogenic and chemical nanoparticles of lead sulfide and cadmium sulfide (Submitted)

18.        Tanushree Paul, Mohit Kumar Singh, Sonam Kumari, John C. Hongchui. Naseem Gaur. Metabolic engineering for improved simultaneous co‑fermentation of glucose and xylose by Saccharomyces cerevisiae for establishing a potential lignocellulosic biorefinery (Under preparation)

Book Chapter

1.      Paul, T., Nandi, M., Pakshirajan, K., Pugazhenthi, G. Product evaluation: Safety and toxicity studies, Biomedical Product and Materials evaluation: Standards and ethics

2.     Paul, T., Sinharoy, A. Emerging issues and their solutions related to the use of sewage sludge in waste treatment, Application of Sewage Sludge in Industrial Wastewater Treatment (Submitted)