| # | List of Publication by Dr. Asok Adak |
|---|---|
| 1 | Saptarshi Gayen, Arnab Das, Md. Mahboob Alam, Ansar Ali, Pawnwesh Mishra, Asok Adak, Experimental Investigation of an Upgraded Treatment for Manufacturing Industry Wastewater, Indian Chemical Engineer, 2025 |
| 2 | Arnab Das, Suman Koner, Asok Adak, Degradation of antibiotics by anodic oxidation (AO) and electro Fenton (EF) process - a comparative review, Journal of Environmental Management, 2025 |
| 3 | Basak, Shib Sankar Adak, Asok Alam, Mahboob, UV-H2O2-based process for inactivation of Escherichia coli and Staphylococcus aureuson inanimate surfaces: kinetics analysis and relationship between UV dose and log reduction, 29, 04024041-9, Journal of Hazardous, Toxic, and Radioactive Waste, 2025 |
| 4 | Maurya, Yashwant Singh Das, Indrasis Adak, Asok, Treatment of railway laundry wastewater through a chain of physicochemical processes and aerobic sequential batch reactor: a case study, 29, 04024032 (1-9), Journal of Hazardous, Toxic, and Radioactive Waste Mgmt, 2025 |
| 5 | Arnab Das, Asok Adak, Electrochemical oxidation of perfluorooctanoic acid (PFOA) using graphite substrate lead dioxide (GSLD) as anode: investigating reaction mechanism, degradation byproducts and influences of process parameters, Journal of Environmental Chemical Engineering, 2025 |
| 6 | Mondal, Bijoli Basak, Shib Sankar Das, Arnab Sarkar, Sananda Adak, Asok, UV-Based Degradation of Fluoroquinolone Antibiotic in Wastewater: Effects of Process Parameters, Identification of Degradation Products and Evaluation of Residual Toxicity, 105, 1017-1028, Journal of Institute of Engineers Series A, 2024 |
| 7 | Alam, Md. Mahboob Das, Arnab Adak, Asok, Hydroxyl and sulfate radicals based electrochemical advanced oxidation process for treating Dye-bearing Wastewater - a review, Water Practice and Technology, 2024 |
| 8 | Ghosh, Arijit Adak, Asok Mondal, Bijoli Barbhuiya, Najmul Haque Das, Indrasis, Efficacious Degradation of 2,4-Dichlorophenoxyacetic Acid by UV-H2O2 Advanced Oxidation and Optimization of Process Parameters Using Response Surface Methodology, 28, Journal of Hazardous, Toxic, and Radioactive Waste Mgmt, 2024 |
| 9 | Basak, Shib Sankar Adak, Asok, Physicochemical methods for disinfection of contaminated surfaces – a way to control infectious diseases, 22, 53-64, Journal of Environmental Health Science and Engineering, 2024 |
| 10 | S. Sarkar, S. Mohanty, S. Moulick, A. Adak, S. K. Maji, Adsorption/Photodegradation of Reactive Blue (C.l. No. 21) from Aqueous Media by Hydrothermally Synthesized Titanate Nanotube (TNT), 2740, 060007(1-4), Proceedings of American Institute of Physics, 2023 |
| 11 | B. Mondal, A. Adak, and P. Datta, Integrated UV-H2O2 and biological treatment processes for removal of cationic surfactant, 16, 85-93, Journal of Environmental Engineering and Science, 2021 |
| 12 | N. H. Barbhuiya and Adak, A., Determination of antimicrobial concentration and associated risk in water sources in West Bengal state of India, 193 (77), 1-12, Environ Monit Assess, 2021 |
| 13 | Sushma Das, Ananya Barui, Asok Adak, Montmorillonite Impregnated Electrospun Cellulose Acetate Nanofiber Sorptive Membrane for Ciprofloxacin Removal from Wastewater, 37, 1-11, Journal of Water Processing Engineering, 2020 |
| 14 | Chakraborty, Rupa; Ghosh, Ambarish; Adak, Asok; Chatterjee, Adamya, Electrokinetic Extraction of Cr(VI) from Contaminated Kaolin Numerical and Experimental Studies, 97, 533-539, Journal of Indian Chemical Society, 2020 |
| 15 | M. Bairagi, A. Adak, and M. M. Islam, Bacterial inactivation in Wastewater using UV/H2O2 Advanced Oxidation, 97, 621-627, J. Indian Chem. Soc., 2020 |
| 16 | S. Das, A. Adak, and A. Barui, Determination of minimum inhibition concentration of bacteria (E.Coli and S.Aureus) from surface water and wastewater against ciprofloxacin, 97, 547-553, J. Indian Chem. Soc., 2020 |
| 17 | B. Mondal, A. Adak, and P. Datta, Degradation of CTAB by UV-H2O2 AOP – Optimization of Process Parameters, 97, 613-619, J. Indian Chem. Soc., 2020 |
| 18 | D. Das, N.H. Barbhuiy, B. Mondal, A. Adak, Treatment of laundry wastewater by UVC-based advanced oxidation process – A case study, 97, 1342-1346, J. Indian Chem. Soc., 2020 |
| 19 | B. Mondal, A. Adak, and P. Datta, Anionic surfactant degradation by UV-H2O2 advanced oxidation process and optimization of process parameters, 97, 1328-1335, J. Indian Chem. Soc., 2020 |
| 20 | Lata, S., Prabhakar, R., & Samadder, S. R., As(V) removal using biochar produced from an agricultural waste and prediction of removal efficiency using multiple regression analysis, Environmental Science and Pollution Research, 2019 |
| 21 | Mondal, Bijoli, Adak, A., & Datta, P., Degradation of anionic surfactant in municipal wastewater by UV-H2O2: process optimization using response surface, 375, 237–243, Journal of Photochemistry and Photobiology A: Chemistry, 2019 |
| 22 | Mondal, Bijoli, Adak, A., & Datta, P., UV-H2O2 advenced oxidation of anionic surfactant: reaction kinetics, effects of interfering substance and operating conditions, 18(6), 1245–1254, Environmental Engineering and Management Journal, 2019 |
| 23 | Adak, Asok, Das, I., Mondal, B., Koner, S., Datta, P., & Blaney, L., Degradation of 2,4-dichlorophenoxyacetic acid by UV 253.7 and UV-H2O2: reaction kinetics and effects of interfering substances, 5, 53–60, Emerging Contaminants, 2019 |
| 24 | Barbhuiya, N. H., Das, D., & Adak, A., Antimicrobials and antimicrobial resistance?: Causes and remedies – A short Review, 96(April), 1-6, Journal of Indian Chemical Society, 2019 |
| 25 | Das, Sushma, Adak, A., & Barui, A., Fabrication of montmorillonite impregnated cellulose acetate nanofiber membrane and its use for adsorption of ciprofloxacin., 96, Journal of Indian Chemical Society, 96(April),, 2019 |
| 26 | Hait, K., Adak, A., Mondal, B., & Datta, P., Determination of extent of antibiotic resistance bacteria in wastewater and removal of antibiotics using UV-H2O2 process., 95, 325–330, Journal of Indian Chemical Society, 2018 |
| 27 | Mondal, B., Hait, K., Adak, A., & Datta, P., Complete degradation of the anionic surfactant by UV based advanced oxidation process and biodegradability., 95, 331–336, Journal of Indian Chemical Society, 2018 |
| 28 | Islam, M. M., Adak, A., & Paul, P. K., Characterization of Sweetmeat Waste and Its Suitability for Sorption of As(III) in Aqueous Media., 89(4), 312–322, Water Environment Research, 2017 |
| 29 | Islam, M. M., Adak, A., & Paul, P. K., Sorptive Removal of Pb(II) ions from Aqueous Solution using Sweetmeat Waste: Batch and Column Study., 53(2), 219–229, Seperation Science and Technology, 2017 |
| 30 | Koner, S., & Adak, A., Adsolubilization of organic dye through surfactant modified silica gel waste from aquatic environment: batch and fixed bed studies, 4(1), 1–5, International Journal of Environmental Engineering, 2017 |
| 31 | Mondal, Bijoli, Adak, A., & Datta, P., Effect of Operating Conditions and Interfering Substances on Photochemical Degradation of a Cationic Surfactant., 1–10, Environmental Technology, (August), 2017 |
| 32 | Adak, Asok, Mangalgiri, K. P., Lee, J., & Blaney, L., UV irradiation and UV-H2O2 advanced oxidation of the roxarsone and nitarsone organoarsenicals., 70, 74–85, Water Research, 2015 |
| 33 | Mangalgiri, K. P., Adak, A., & Blaney, L., Organoarsenicals in poultry litter: Detection, fate, and toxicity., 75, 68–80, Environment International, 2015 |
| 34 | Koner, Suman, Pal, A., & Adak, A., Application of silica gel factory waste for methyl orange dye removal. Int. J., 13(1), 37–49, Environment and Waste Management, 2014 |
| 35 | Koner, Suman, & Adak, A., Fixed bed column study for adsolubilization of 2,4-D herbicide on surfactant modified silica gel waste., 93(3), 187–191, Journal of The Institution of Engineers (India): Series A, 2013 |
| 36 | Koner, Suman, Pal, A., & Adak, A., Adsorption of 2,4-D herbicide from water environment on modified silica gel factory waste., 85(11), 2147–2156, Water Environment Research, 2013 |
| 37 | Koner, Suman, Pal, A., & Adak, A., Use of surface modified silica gel factory waste for removal of 2,4-D pesticide from agricultural wastewater: a case study., 6(4), 995–1006, International Journal of Environmental Research, 2012 |
| 38 | Adak, A., Mazumder, D., & Bandyopadhyay, P., Simulation of a process design model for anaerobic digestion of municipal solid wastes., 80, World Academy of Science, Engineering and Technology, 2011 |
| 39 | Adak, Asok, Mazumder, D., & Bandyopadhyay, P., Simulation of a Process Design Model for Anaerobic Digestion of Municipal Solid Wastes., 3(3), 177–182, International Journal of Civil and Environmental Engineering, 2011 |
| 40 | Koner, Suman, Pal, A., & Adak, A., Utilization of silica gel waste for adsorption of cationic surfactant and adsolubilization of organics from textile wastewater: a case study., 276(1–3), 142–147, Desalination, 2011 |
| 41 | Koner, Suman, Saha, B. K., Kumar, R., & Adak, A., Adsorption kinetics and mechanism of methyl orange dye on modified silica gel waste., 3(6), 128–133, International Journal of Current Research, 2011 |
| 42 | Koner, Suman, Pal, A., & Adak, A., Cationic surfactant adsorption on silica gel and its application for wastewater treatment., 22(1–3), 1–8, Desalination and Water Treatment, 2010 |
| 43 | Adak, Asok, & Pal, A., Removal kinetics and mechanism for phenol uptake by surfactant-modified alumina., 6, 269–275, Desalination and Water Treatment, 2009 |
| 44 | Maji, Sanjoy K, Pal, A., Pal, T., & Adak, A., Modeling and fixed bed column adsorption of As(III) on laterite soil., Seperation and Purification Technology, 2007 |
| 45 | Maji, Sanjoy K, Pal, A., Pal, T., & Adak, A., Modeling and fixed bed column adsorption of As(V) on laterite soil., 42(11), 1585–1593, Journal of Environmental Science and Health. Part A, Toxic/Hazardous Substances & Environmental Engineering,, 2007 |
| 46 | Maji, Sanjoy K, Pal, A., Pal, T., & Adak, A., Sorption kinetics of arsenic on laterite soil in aqueous medium., 42(7), 989–996, Journal of Environmental Science and Health: Part A, Toxic/Hazardous Substances & Environmental Engineering, 2007 |
| 47 | Maji, Sanjoy Kumar, Pal, A., Pal, T., & Adak, A., Adsorption thermodynamics of arsenic on laterite soil., 23(3–4), 161–176, Journal of Surface Science and Technology, 2007 |
| 48 | Adak, Asok, & Pal, A., Removal kinetics and mechanism for crystal violet uptake by surfactant-modified alumina., 41(10), 2283–2297, Journal of Environmental Science and Health. Part A, Toxic/Hazardous Substances & Environmental Engineering, 2006 |
| 49 | Adak, Asok, & Pal, A., Removal of phenol from aquatic environment by SDS-modified alumina: Batch and fixed bed studies., 50(2), 256–262, Separation and Purification Technology, 2006 |
| 50 | Adak, Asok, Pal, A., & Bandyopadhyay, M., Removal of phenol from water environment by surfactant-modified alumina through adsolubilization., 277(1–3), 63–68, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2006 |
| 51 | Adak, Asok, Bandyopadhyay, M., & Pal, A., Fixed bed column study for the removal of crystal violet (C. I. Basic Violet 3) dye from aquatic environment by surfactant-modified alumina., 69(3), 245–251, Dyes and Pigments, 2006 |
| 52 | Adak, Asok, Pal, A., & Bandyopadhyay, M., Spectrophotometric determination of anionic surfactants in wastewater using acridine orange., 145–148, Indian Journal of Chemical Technology, 12(March), 2005 |
| 53 | Adak, Asok, Bandyopadhyay, M., & Pal, A., Adsolubilization of Organic Compounds in Surfactant-Modified Alumina., 21(1), 97–112, Journal of Surface Science and Technology, 2005 |
| 54 | Adak, Asok, Bandyopadhyay, M., & Pal, A., Adsorption of anionic surfactant on alumina and reuse of the surfactant-modified alumina for the removal of crystal violet from aquatic environment., 40(1), 167–182, Journal of Environmental Science and Health. Part A, Toxic/Hazardous Substances & Environmental Engineering, 2005 |
| 55 | Adak, Asok, Pal, A., & Bandyopadhyay, M., Removal of anionic surfactant from wastewater by alumina: a case study., 254(1–3), 165–171, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2005 |
| 56 | Adak, Asok, Bandyopadhyay, M., & Pal, A., Removal of crystal violet dye from wastewater by surfactant-modified alumina., 44(2), 139–144, Separation and Purification Technology, 2005 |
| 57 | Adak, Asok, Bandyopadhyay, M., & Dikshit, A. K., Probelm of arsenic in groundwater - a feasible solution., 5(2), 230–242, Interdisciplinary Envirmental Review2, 2003 |
Created: 23 November 2019