ABSTRACT:
Science, man, mankind and vision are today in the avenues of scientific regeneration as regards application of United Nations and Global Sustainable Development Goals. Water sustainability and water integrity are the pillars of scientific regeneration today. They are the pillars of environmental pollution control today. Engineering, applied sciences and natural sciences needs to be re-envisioned and reframed as regards protection of human environment and ecological biodiversity. Human civilisation today stands in the pathway and crevice of scientific adjudication and engineering vision. Water sustainability and environmental sustainability are two opposite sides of the visionary engineering coin. In this article, the author deeply elucidates of the scientific and engineering vision of membrane separation processes such as nanofiltration, ultrafiltration and reverse osmosis. Besides the author deeply targets the needs of water sustainability in the futuristic emancipation of global research and development initiatives. A newer dawn in the field of water science and technology will usher in as humankind moves forward.
Cite this article:
Sukanchan Palit. The vast scientific vision and scientific ingenuity in the field of nanofiltration, nanotechnology and water sustainability- A state of the art review. Asian Journal of Research in Chemistry 2023; 16(4):296-2. doi: 10.52711/0974-4150.2023.00049
Cite(Electronic):
Sukanchan Palit. The vast scientific vision and scientific ingenuity in the field of nanofiltration, nanotechnology and water sustainability- A state of the art review. Asian Journal of Research in Chemistry 2023; 16(4):296-2. doi: 10.52711/0974-4150.2023.00049 Available on: https://ajrconline.org/AbstractView.aspx?PID=2023-16-4-8
REFERENCES:
1. Palit. S., Hussain. C.M.(2020), Modern manufacturing and nanomaterial perspective, Chapter 1., Book- Handbook of nanomaterials for manufacturing applications, Elsevier, Netherlands, Editor- Chaudhery Mustansar Hussain, pp-3-20. DOI: https://doi.org/10.1016/B978-0-12-821381-0.00001-6
2. Ibrahim. N.A., Zaini. M.A.A., (2020), Nanomaterials in detergents and cosmetic products: the mechanics and applications, Chapter-2, Book- Handbook of nanomaterials for manufacturing applications, Elsevier, Netherlands, Editor- Chaudhery Mustansar Hussain, pp-23-49, DOI: https://doi.org/10.1016/B978-0-12-821381-0.00002-8
3. Palit. S., Hussain. C.M., (2021), Green sustainability and the application of polymer nanocomposites- a vast vision for the future, Chapter-28, Book- Handbook of polymer nanocomposites for industrial applications, Editor- Chaudhery Mustansar Hussain Elsevier, Netherlands, pp-733- 747, DOI: https://doi.org/10.1016/B978-0-12-821497-8.00028-9
4. Palit.S., Hussain. C.M. (2021), Mineral and metal industry in the global scenario and environmental sustainability, Chapter-7, Book- Sustainable Resource Management- modern approaches and contexts, Editors- C.M. Hussain, Juan. F. Velasco-Munoz, Elsevier, Netherlands, pp-163-177, https://doi.org/10.1016/B978-0-12-824342-8.00001-8
5. Hajian. M., Kashani. S.J. (2021), Evolution of the concept of sustainability. From Brundtland Report to sustainable development goals, Chapter1, Book- Sustainable Resource Management- modern approaches and contexts, Editors- C.M. Hussain, Juan. F. Velasco-Munoz, Elsevier, Netherlands, pp-25-49, https://doi.org/10.1016/B978-0-12-824342-8.00018-3
Copyright ©
6. Majernik. M., Nascacova. J., Malindzakova. M., Drabik. P., Bednarova. L. (2021), Areas of sustainability: environment, economy and society, Chapter-2, Book- Sustainable Resource Management- modern approaches and contexts, Editors- C.M. Hussain, Juan. F. Velasco-Munoz, Elsevier, Netherlands, pp-1-24, https://doi.org/10.1016/B978-0-12-824342-8.00006-7
7. Serrano-Arcos. M.M., Payan-Sanchez. B., Labella- Fernandez. A., (2021), Evolution and trends of sustainable approaches, Chapter-3, Book- Sustainable Resource Management- modern approaches and contexts, Editors- C.M. Hussain, Juan. F. Velasco-Munoz, Elsevier, Netherlands, pp-51-73, https://doi.org/10.1016/B978-0-12-824342-8.00013-4
8. Shannon. M.A., Bohn. P.W., Elimelech. M., Georgiadis. J.G., Marinas. B.J., Mayes. A.M.(2008), Science and technology for water purification in the coming decades, Nature Publishing Group, London United Kingdom, pp-301-310.
9. Varma. R.S., (2012), Greener approach to nanomaterials and their sustainable applications, Current opinion in Chemical Engineering, 1:123-128.
10. Bhateria. R., Singh. R., (2019), A review on nanotechnological application of magnetic iron oxides for heavy metal removal, Journal of Water Process Engineering, 31, pp-1-10.
11. Hashim. M.A., Mukhopadhyay. S., Sahu. J.N., Sengupta. B., (2011), Remediation technologies for heavy metal contaminated groundwater, Journal of Environmental Management, 92,pp-2355-2388.
12. Palit. S., Hussain. C.M., (2018), Engineered nanomaterial for industrial use, Chapter -1, Book- Handbook of nanomaterials for industrial applications, Editor-Chaudhery Mustansar Hussain, Elsevier, Netherlands, pp-3-12.
13. Palit. S.,(2018), Recent advances in the application of engineered nanomaterials in the environment industry, Chapter-47, Book- Handbook of nanomaterials for industrial applications, Editor- Chaudhery Mustansar Hussain, Elsevier, Netherlands, pp-883-893.
14. Hassan. M.,(2018), Arsenic in groundwater: Poisoning and risk assessment, CRC Press, Taylor and Francis Group, Boca Raton, USA.
15. Barrow.C.J., (2005), Environmental management and development, Routledge, Taylor and Francis Group, London, United Kingdom.
16. Palit.S.(2017), Application of nanotechnology, nanofiltration and drinking and wastewater treatment- a vision for the future, Chapter-17, Book- Water Purification, Editor- Alexandru Mihai Grumezescu, Academic Press, USA.pp 587-620.
17. Palit.S., (2016) Nanofiltration and ultrafiltration- the next generation environmental engineering tool and a vision for the future, International Journal of Chem Tech Research, Vol.9, No.5, 848-856.
18. Palit.S., (2016) Filtration: Frontiers of the engineering and science of nanofiltration-a far-reaching review, CRC Concise Encyclopedia of Nanotechnology (Taylor and Francis), Editors: Ubaldo Ortiz-Mendez, Kharissova. O.V., Kharisov. B.I.,205-214.
19. Palit.S.,(2017), Advanced environmental engineering separation processes, environmental analysis and application of nanotechnology- a far-reaching review, Chapter-14, Book- Advanced Environmental Analysis- Application of Nanomaterials, Volume-1, Editors- C.M. Hussain, B. Kharisov, The Royal Society of Chemistry, Cambridge, United Kingdom,pp-377-416.
20. Hussain. C.M., Kharisov. B., (2017), Advanced environmental analysis- application of nanomaterials, Volume-1, (Book), The Royal Society of Chemistry, Cambridge, United Kingdom.
21. Hussain. C.M. (2017), Magnetic nanomaterials for environmental analysis, Chapter-19, Book- Advanced Environmental Analysis- Application of Nanomaterials, Volume-1, Editors- C.M. Hussain, B. Kharisov, The Royal Society of Chemistry, Cambridge , United Kingdom, pp- 3-13.
22. Hussain. C.M.(2018), Handbook of Nanomaterials for Industrial Applications, Elsevier, Amsterdam, Netherlands.
23. Hussain. C.M., (2019), Handbook of Environmental Materials Management, Elsevier, Amsterdam, Netherlands.
24. Hussain. C.M., (2020), Handbook of Functionalized Nanomaterials for Industrial Applications, Elsevier, Amsterdam, Netherlands.
25. Hussain. C.M., (2020), Handbook of Manufacturing applications of Nanomaterials, Elsevier, Amsterdam, Netherlands.
26. Hussain. C.M. (2020), Handbook of Industrial applications of polymer nanocomposites, Elsevier, Amsterdam, Netherlands.
27. Hussain. C.M., (2020), Handbook of nanomaterials for sensing applications, Elsevier, Amsterdam, Netherlands.
28. Palit. S. (2021), Application of nanotechnology in the energy industry, green sustainability and the visionary future, Academia Letters, July, 2021, pp-1-4.