Waste Water Treatment
- Home
- sustainability
- Sustainability Initiatives 2022 - 2023
- Waste Water Treatment
The wastewater generated is treated in the 8 Sewage Treatment Plants of different capacities and is being recycled for flushing and gardening. The total capacity of STP is 7500 KLD. About 90% of the total water demand is being met through the recycled water from the STP’s which used for toilet flushing and green belt development within the premises. The recycled water is well-connected with efficient toilets and also dual piping system has been incorporated in the campus.
Sewage Treatment Plants for Waste Water Treatment
| SL.NO | Few Publications on Water Quality Prediction, Waste Water Treatment and degradation of Organic Pollutants during 2022-2023 |
|---|---|
| 1 | Reliable and Efficient Model for Water Quality Prediction and Forecasting, Abdullah A., Chaturvedi H., Fuladi S., Ravuri N.J., Natesan D., Nallakaruppan M.K., International Journal of Advanced Computer Science and Applications, Vol:14, Issue: 12, Pg.No(188- 197), DOI: 10.14569/IJACSA.2023.0141219 |
| 2 | Sustainable energy generation from waste water: IoT integrated technologies, Rahamathunnisa U., Sudhakar K., Padhi S.N., Bhattacharya S., Shashibhushan G., Boopathi S., Adoption and Use of Technology Tools and Services by Economically Disadvantaged Communities: Implications for Growth and Sustainability, Pg.No(225- 256), DOI: 10.4018/978-1-6684-5347-6.ch010 |
| 3 | Design and process parametric investigations on acrylic-based single slope solar still to enhance daily energy efficiency and productivity of water: an application to desalination and dye removal, Gnanasekaran A., Rajaram K., Environmental science and pollution research international, Vol:30, Issue: 58, Pg.No(121807-121822), DOI: 10.1007/s11356-023-30995-7 |
| 4 | Prediction of Water Quality using SoftMax-ELM optimized using Adaptive Crow- Search Algorithm, Sannasi Chakravarthy S.R., Bharanidharan N., Venkatesan V.K., Abbas M., Rajaguru H., Mahesh T.R., Venkatesan K., IEEE Access, Pg.No(1-1), DOI: 10.1109/ACCESS.2023.3339564 |
| 5 | Investigating the transport and colloidal behavior of Fe3O4 nanoparticles in aqueous and porous media under varying solution chemistry parameters, Thomas R., Ghosh D., Pulimi M., Nirmala J., Anand S., Rai P.K., Mukherjee A., Environmental science and pollution research international, Vol:30, Issue: 56, Pg.No(118693-118705), DOI: 10.1007/s11356-023-30628-z |
| 6 | Polystyrene nanoplastics alter the ecotoxicological effects of diclofenac on freshwater microalgae Scenedesmus obliquus, Christudoss A.C., Chandrasekaran N., Mukherjee A., Environmental Science: Processes and Impacts, DOI: 10.1039/d3em00341h |
| 7 | Dingo optimization influenced arithmetic optimization Clustering and localization algorithm for underwater acoustic sensor networks, Kaveripakam S.; Chinthaginjala R.; Naik C.; Pau G.; Ab Wahab M.N.; Akbar M.F.; Dhanamjayulu C., Alexandria Engineering Journal, Vol:85, Pg.No(60-71), DOI: 10.1016/j.aej.2023.11.025 |
| 8 | Strontium peroxide as a potential photocatalyst: rapid degradation of organic and pharmaceutical pollutants, Harikaran D.; Vijayaraghavan R., New Journal of Chemistry, DOI: 10.1039/d3nj03546h |
| 9 | Environmental Isotopes of Water as Potential Tool to Distinguish the Sources of Groundwater Recharge in a Semi-arid Region: A Case Study Around Veeranam Tank, Tamil Nadu, India, Mahenthiran S.; Ganesan M.; Hameed A.S., Journal of The Institution of Engineers (India): Series A, Vol:104, Issue: 4, Pg.No(831-839), DOI: 10.1007/s40030-023-00767-0 |
| 10 | Sulfate Radical-Based Degradation of Organic Pollutants: A Review on Application of Metal-Organic Frameworks as Catalysts, Kumari M.; Pulimi M., ACS Omega, DOI: 10.1021/acsomega.3c02977 |
| 11 | Bacterial bioremediation of textile effluent dyes contaminated sites, Sakthishabarish K.; Karthika T.; Sandhya S.N.; Yazhini A.; Krishnan K., Research Journal of Biotechnology, Vol:18, Issue: 10, Pg.No(127-138), DOI: 10.25303/1810rjbt1270138 |
| 12 | Exploring possible strategies for treating SARS-CoV-2 in sewage wastewater: A review of current research and future directions, Gh Jeelani P.; Muzammil Munawar S.; Khaleel Basha S.; Krishna P G.; Joshua Sinclair B.; Dharshini Jenifer A.; Ojha N.; Mossa A.-T.; Chidambaram R., Hygiene and Environmental Health Advances, Vol:6, DOI: 10.1016/j.heha.2023.100056 |
| 13 | A review on adsorption of heavy metals from wastewater using carbon nanotube and graphene-based nanomaterials, Chandran D.G.; Muruganandam L.; Biswas R., Environmental Science and Pollution Research, DOI: 10.1007/s11356-023-30192-6 |
| 14 | Thermal analysis of magnetic Iron-Oxide nanoparticle with combination of Water and Ethylene Glycol passes through a partially heated permeable square enclosure, Sumithra A.; Kumar B.R.; Sivaraj R.; ?ztop H.F., Journal of Taibah University for Science, Vol:17, Issue: 1, DOI: 10.1080/16583655.2023.2257366 |
| 15 | Effects of Contaminated Ocean Water on the Ecosystem: A Review Using Machine Learning, Sharma S.; Verma A.; Kajal K.; Krishnan Somayaji S.R., Sustainable Digital Technologies: Trends, Impacts, and Assessments, Pg.No(91-107), DOI: 10.1201/9781003348313-5 |
| 16 | Analyzing groundwater level with hybrid ANN and ANFIS using metaheuristic optimization, Jithendra T.; Basha S.S., Earth Science Informatics, DOI: 10.1007/s12145-023-01097-2 |
| 17 | Enhancement of Precise Underwater Object Localization, Kaveripakam S.; Chinthaginjala R.; Anbazhagan R.; Alibakhshikenari M.; Virdee B.; Khan S.; Pau G.; Hwang See C.; Dayoub I.; Livreri P.; Abd-Alhameed R., Radio Science, Vol:58, Issue: 9, DOI: 10.1029/2023RS007782 |
| 18 | Advanced oxidation process (AOP) combined biological process for wastewater treatment: A review on advancements, feasibility and practicability of combined techniques, Babu Ponnusami A.; Sinha S.; Ashokan H.; V Paul M.; Hariharan S.P.; Arun J.; Gopinath K.P.; Hoang Le Q.; Pugazhendhi A., Environmental Research, Vol:237, DOI: 10.1016/j.envres.2023.116944 |
| 19 | Ecotoxicological significance of bio-corona formation on micro/nanoplastics in aquatic organisms, Rex M C.; Debroy A.; Nirmala M.J.; Mukherjee A., RSC Advances, Vol:13, Issue: 33, Pg.No(22905-22917), DOI: 10.1039/d3ra04054b |
| 20 | Sources of Antibiotic Contamination in Wastewater and Approaches to Their Removal An Overview, Samrot A.V.; Wilson S.; Sanjay Preeth R.S.; Prakash P.; Sathiyasree M.; Saigeetha S.; Shobana N.; Pachiyappan S.; Rajesh V.V., Sustainability (Switzerland), Vol:15, Issue: 16, DOI: 10.3390/su151612639 |
| 21 | Hydrogeochemical and multivariate statistical approaches to investigate the characteristics of groundwater quality in fluoride-enriched hard rock region in Tirupathur district of Tamil Nadu, India, Nagaraj S.; Masilamani U.S., Environmental Science and Pollution Research, DOI: 10.1007/s11356-023-29254-6 |
| 22 | Multi-collinearity Based Parameter Optimization and Comparison among Multi- criteria Decision Analysis to Map Groundwater Potential Zones, Venkatesh S.; Parimalarenganayaki S., Journal of the Geological Society of India, Vol:99, Issue: 8, Pg.No(1158-1164), DOI: 10.1007/s12594-023-2441-7 |
| 23 | Advanced drinking water treatment: Current status and future prospects of nano- techniques for disinfectant by-product prevention, Jayanthi V.; Subramanian S., Journal of Environmental Engineering and Science, DOI: 10.1680/jenes.23.00043 |
| 24 | A review on arsenic removal from wastewater using carbon nanotube and graphene- based nanomaterials as adsorbents, Biswas R.; Anshuman A.; Samal B.N., Nanotechnology for Environmental Engineering, DOI: 10.1007/s41204-023-00332-x |
| 25 | Transient solidification and melting numerical simulation of lauric acid PCM filled stepped solar still basin used in water desalination process, Hussain F.; Shaik S.; Khan S.A.; Van Huynh V.; Jilte R.D.; Sundara V.; Asif M.; Linul E., Case Studies in Thermal Engineering, Vol:49, DOI: 10.1016/j.csite.2023.103370 |
| 26 | Effective Bio-mediated Nanoparticles for Bioremediation of Toxic Metal Ions from Wastewater A Review, Yamini V., Devi Rajeswari V., Journal of Environmental Nanotechnology, Vol:12, Issue: 2, Pg.No(12-33), DOI: 10.13074/jent.2023.06.232467 |
| 27 | Plant-based biopolymers for wastewater pollutants mitigation, Harshan K.; Rajan A.P.; Kingsley D.; Sheikh R.A.; Aashmi J.; Rajan A.P., Biopolymers: Environmental Applications, Pg.No(147-163), DOI: 10.1515/9783110987188-007 |
| 28 | Synergistic effects on the degradation of a mixture of pharmaceutical pollutants in aqueous solution, raw sewage, and hospital wastewater using UV light-assisted Fenton process, Anjali R.; Shanthakumar S., Journal of Water Process Engineering, Vol:54, DOI: 10.1016/j.jwpe.2023.104025 |
| 29 | Comparative study of hydrogen production from seawater and groundwater using PV TEG, Gopinath M.; Marimuthu R., Clean Technologies and Environmental Policy, DOI: 10.1007/s10098-023-02569-1 |
| 30 | Fungal-Based Remediation in the Treatment of Anthropogenic Activities and Pharmaceutical-Pollutant-Contaminated Wastewater, Malik S.; Bora J.; Nag S.; Sinha S.; Mondal S.; Rustagi S.; Hazra R.; Kumar H.; Rajput V.D.; Minkina T.; Sadier N.S.; Almutary A.G., Water (Switzerland), Vol:15, Issue: 12, DOI: 10.3390/w15122262 |
| 31 | Electrochemical-based approaches for the treatment of pharmaceuticals and personal care products in wastewater, Mosur Nagarajan A.; Subramanian A.; Prasad Gobinathan K.; Mohanakrishna G.; Sivagami K., Journal of Environmental Management, Vol:344, DOI: 10.1016/j.jenvman.2023.118385 |
| 32 | Fabrication of copper molybdate nanoflower combined polymeric graphitic carbon nitride heterojunction for water depollution: Synergistic photocatalytic performance and mechanism insight, Kasirajan P.; Karunamoorthy S.; Velluchamy M.; Subramaniam K.; Park C.M.; Sundaram G.B., Environmental Research, Vol:233, DOI: 10.1016/j.envres.2023.116428 |
| 33 | Assessing the efficacy of river bank filtration around a check dam in a non-perennial river for rural water supply in southern India, Rajendiran A.; S P., Environmental Monitoring and Assessment, Vol:195, Issue: 7, DOI: 10.1007/s10661-023-11485-2 |
| 34 | Evaluation of heavy metals in ground and surface water in Ranipet, India utilizing HPI model, Veluprabakaran V.; Kavitha M., Environmental Monitoring and Assessment, Vol:195, Issue: 7, DOI: 10.1007/s10661-023-11452-x |
| 35 | Utilization of RO rejects and waste aluminum scraps for hydrogen generation, Deebika P., Saravanakumar M.P., International Journal of Hydrogen Energy, DOI: 10.1016/j.ijhydene.2023.06.015 |
| 36 | Integrating trapezoidal fuzzy best worst method and single-valued neutrosophic fuzzy MARCOS for efficiency analysis of surface water treatment plants, Majumder P., Das A., Hezam I.M., Alshamrani A., Aqlan F., Soft Computing, DOI: 10.1007/s00500-023- 08532-y |
| 37 | Maximizing Water Use Efficiency in Rice Farming: A Comprehensive Review of Innovative Irrigation Management Technologies, Mallareddy M., Thirumalaikumar R., Balasubramanian P., Naseeruddin R., Nithya N., Mariadoss A., Eazhilkrishna N., Choudhary A.K., Deiveegan M., Subramanian E., Padmaja B., Vijayakumar S., Water (Switzerland), Vol:15, Issue: 10, DOI: 10.3390/w15101802 |
| 38 | Structures and functionalizations of carbon nanotubes in water treatment, Nurazzi N.M., Abdullah N., Norrrahim M.N.F., Shazleen S.S., Naveen J., Asyraf M.R.M., Kamarudin S.H., Rani M.S.A., Ilyas R.A., Sapuan S.M., Synthetic and Natural Nanofillers in Polymer Composites: Properties and Applications, Pg.No(29-56), DOI: 10.1016/B978-0-443-19053-7.00006-8 |
| 39 | Towards machine learning in water treatment: a diagnostic tool for assessing water quality, Zaveri J., Dhanushkodi S.R., Bansal L., Desalination and Water Treatment, Vol:286, Pg.No(64-72), DOI: 10.5004/dwt.2023.29328 |
| 40 | A meta heuristic optimization algorithm (Lion-BES-XGB) for water quality prediction, K K., J V., Urban Water Journal, DOI: 10.1080/1573062X.2023.2209558 |
| 41 | Short term water demand forecast modelling using artificial intelligence for smart water management, Kavya M., Mathew A., Shekar P.R., P S., Sustainable Cities and Society, Vol:95, DOI: 10.1016/j.scs.2023.104610 |
| 42 | Carbon-Based Nanoadsorbents for the Removal of Emerging Pollutants, Ratnam M.V., Akilamudhan P., Kumar K.S., Reddy S.N., Rao K.N., Shaik F., Prasad D.M.R., Adsorption Science and Technology, Vol:2023, DOI: 10.1155/2023/3579165 |
| 43 | Strategies for classifying water quality in the Cauvery River using a federated learning technique, J V., K K., P G.M., C G., Subramaniam P.R., Rangarajan S., International Journal of Cognitive Computing in Engineering, Vol:4, Pg.No(187-193), DOI: 10.1016/j.ijcce.2023.04.004 |
| 44 | Assessment of Hydrogeochemical Characteristics and Seawater Intrusion in Coastal Parts of Mangaluru City, Karnataka, India, Thabrez M., Parimalarenganayaki S., Water, Air, and Soil Pollution, Vol:234, Issue: 4, DOI: 10.1007/s11270-023-06246-3 |
| 45 | Microalgae: Natures Green System to Recycle Waste to Resource, Nachiappan K., Chandrasekaran R., Journal of Natural Remedies, Vol:23, Issue: 1, Pg.No(121-128), DOI: 10.18311/jnr/2023/30943 |
| 46 | IoT-Enabled Chlorine Level Assessment and Prediction in Water Monitoring System Using Machine Learning, Chinnappan C.V., John William A.D., Nidamanuri S.K.C., Jayalakshmi S., Bogani R., Thanapal P., Syed S., Venkateswarlu B., Syed Masood J.A.I., Electronics (Switzerland), Vol:12, Issue: 6, DOI: 10.3390/electronics12061458 |
| 47 | Sustainability of Groundwater Potential Zones in Coastal Areas of Cuddalore District, Tamil Nadu, South India Using Integrated Approach of Remote Sensing, GIS and AHP Techniques, Sathiyamoorthy M., Masilamani U.S., Chadee A.A., Golla S.D., Aldagheiri M., Sihag P., Rathnayake U., Patidar J., Shukla S., Singh A.K., Kumar B., Martin H., Sustainability (Switzerland), Vol:15, Issue: 6, DOI: 10.3390/su15065339 |
| 48 | Development of Manganese-Coated Graphite Electrode in a Dual-Chambered Fuel Cell for Selenite Removal and Bio-Electricity Generation from Wastewater Effluent by Bacillus cereus, Velayudhan J., Subramanian S., Energies, Vol:16, Issue: 6, DOI: 10.3390/en16062880 |
| 49 | Review of Localization and Clustering in USV and AUV for Underwater Wireless Sensor Networks, Sathish K., Venkata R.C., Anbazhagan R., Pau G., Telecom, Vol:4, Issue: 1, Pg.No(43-64), DOI: 10.3390/telecom4010004 |
| 50 | Comparative ecotoxicity of graphene, functionalized multi-walled CNTs, and their mixture in freshwater microalgae, Scenedesmus obliquus: analyzing the role of oxidative stress, Das S., Giri S., Wadhwa G., Pulimi M., Anand S., Chandrasekaran N., Johari S.A., Rai P.K., Mukherjee A., Environmental Science and Pollution Research, DOI: 10.1007/s11356-023-27367-6 |
| 51 | Application of Porous Carbon Material for Water Treatment and Gas Storage, Ray S.S., Bashir M.J.K., Bakshi H.S., Kwon Y.-N., Ganesapillai M., Materials Horizons: From Nature to Nanomaterials, Pg.No(623-654), DOI: 10.1007/978-981-19-7188-4_23 |
| 52 | Deep Ensemble-Based Approach Using Randomized Low-Rank Approximation for Sustainable Groundwater Level Prediction, Manna T., Anitha A., Applied Sciences (Switzerland), Vol:13, Issue: 5, DOI: 10.3390/app13053210 |
| 53 | A sustainable three-layer circular economic model with controllable waste, emission, and wastewater from the textile and fashion industry, Peter John E., Mishra U., Journal of Cleaner Production, Vol:388, DOI: 10.1016/j.jclepro.2022.135642 |
| 54 | Removal of Heavy Metals from Industrial Wastewater using Low-Cost Waste Materials, Lakshmi M., Ranjitha J., Research Journal of Chemistry and Environment, Vol:27, Issue: 1, Pg.No(129-140), DOI: 10.25303/2701rjce1290140 |
| 55 | A hypothetical model of multi-layered cost-effective wastewater treatment plant integrating microbial fuel cell and nanofiltration technology: A comprehensive review on wastewater treatment and sustainable remediation, Naha A., Antony S., Nath S., Sharma D., Mishra A., Biju D.T., Madhavan A., Binod P., Varjani S., Sindhu R., Environmental Pollution, Vol:323, DOI: 10.1016/j.envpol.2023.121274 |
| 56 | Nanocellulose-based aerogels for water purification: A review, Paul J., Ahankari S.S., Carbohydrate Polymers, Vol:309, DOI: 10.1016/j.carbpol.2023.120677 |
| 57 | Novel Hybrid Optimization Techniques to Enhance Reliability from Reverse Osmosis Desalination Process, Baseer M.A., Vinoth Kumar V., Izonin I., Dronyuk I., Velmurugan A.K., Swapna B., Energies, Vol:16, Issue: 2, DOI: 10.3390/en16020713 |
| 58 | Review on disposal, recycling and management of waste polyurethane foams: A way ahead, Banik J., Chakraborty D., Rizwan M., Shaik A.H., Chandan M.R., Waste Management and Research, DOI: 10.1177/0734242X221146082 |
| 59 | Fuzzy logic-based health risk assessment of fluoride in groundwater used as drinking source in Sira region, Tumkur, India, Thabrez M., Parimalarenganayaki S., Brindha K., Elango L., Environmental Geochemistry and Health, DOI: 10.1007/s10653-022-01474- 8 |
| 60 | Self-sustained semi-pilot scale Hybrid Eco-Electrogenic Engineered System for the wastewater treatment and bioenergy generation, Selvaraj D., Velvizhi G., Journal of Water Process Engineering, Vol:51, DOI: 10.1016/j.jwpe.2022.103474 |
| 61 | Predictive modelling and optimization of an airlift bioreactor for selenite removal from wastewater using artificial neural networks and particle swarm optimization, Negi B.B., Aliveli M., Behera S.K., Das R., Sinharoy A., Rene E.R., Pakshirajan K., Environmental Research, Vol:219, DOI: 10.1016/j.envres.2022.115073 |
| 62 | Solid-state naked-eye sensing of Cu(II) from industrial effluents and environmental water samples using probe integrated polymeric sensor materials, Srinivasan P., Deivasigamani P., Microchemical Journal, Vol:185, DOI: 10.1016/j.microc.2022.108224 |
| 63 | A holistic review on how artificial intelligence has redefined water treatment and seawater desalination processes, Ray S.S., Verma R.K., Singh A., Ganesapillai M., Kwon Y.-N., Desalination, Vol:546, DOI: 10.1016/j.desal.2022.116221 |
| 64 | Azolla microphylla extract ZnO nanoparticles and antibacterial activity: eco-friendly wastewater treatment, Anand S., Lamba J., Sharma P.K., Chatterjee S., Mukherjee A., Rai P.K., Nanotechnology for Environmental Engineering, DOI: 10.1007/s41204-022- 00291-9 |
| 65 | Geo Spatial Based Real Time Monitoring on Eutrophic Evaluation of Porunai River Basin for Pollution Risk Assessment, Gopikumar S., Banu J.R., Harold Robinson Y., Raja S., Vimal S., Pelusi D., Kaliappan M., European Journal of Remote Sensing, DOI: 10.1080/22797254.2021.2025152 |
| 66 | MoS2 based ternary composites: review on heterogeneous materials as catalyst for photocatalytic degradation, Mohana Roopan S., Khan M.A., Catalysis Reviews - Science and Engineering, DOI: 10.1080/01614940.2021.1962493 |
| 67 | Assessment of metals pollution and subsequent ecological risk in water, sediments and vegetation from a shallow lake: a case study from Ranipet industrial town, Tamil Nadu, India, Sai Chaithanya M., Das B., Vidya R., International Journal of Environmental Analytical Chemistry, DOI: 10.1080/03067319.2021.1882449 |
