Frontiers of Nanofiltration, Ultrafiltration and the future of global water shortage - a deep and visionary comprehension

• Autorzy: Palit S.
• Języki publikacji: EN

Abstrakty

EN

The world of environmental engineering science is moving briskly and steadfastly in a newer vision and a newer age ahead in the civilisation’s progress. Global water shortage has become a primordial issue in present day human civilization. Environmental regulations and ecological restrictions has to be reassessed and rejudged at this critical juncture of history and time. In a similar vein the importance of membrane science and the applicability of environmental engineering techniques stands in the midst of immense optimism and scientific vision. Analytically, membrane separation science will bring environmental engineering science to the newer vision of zero discharge norms. Zero discharge norms and environmental engineering paradigm has an umbilical cord which has a decisive effect on ecological balance. The primordial and the decisive factor in global water shortage is the issue of ground water contamination and its subsequent remediation. Nanofiltration, ultrafiltration and other membrane separation processes in today’s scientific world and scientific vision stands in the midst of inimitable hope and optimism.

Słowa kluczowe

EN

vision; nanofiltration; ultrafiltration; water; sustainability; environment

• Wydawca: Przedsiębiorstwo Wydawnictw Naukowych "DARWIN"
• Czasopismo: International Letters of Chemistry, Physics and Astronomy
• Rocznik: 2014
• Tom: Vol. 19, iss. 2
• Strony: 120--131
• Opis fizyczny: Bibliogr. 19 poz., rys.

Twórcy

autor

Palit S.

• Department of Chemical Engineering, University of Petroleum and Energy Studies, Post-Office-Bidholi via Premnagar, Dehradun - 248007, Uttarakhand, India

Bibliografia

• [1] Kepa U., Stanczyk-Mazanek. E., Stepniak L., Desalination 223 (2008) 187-193.
• [2] Zhou H., Smith D.W., Journal of Environmental Engineering Science 1 (2002) 247-264.
• [3] Al-Kdasi, Idris A., Saed K., Guan C.T., Global Nest, The International journal 6(3) (2004) 222-230.
• [4] Palit S., International Journal of Chem Tech Research 4(3) (2012) 862-866.
• [5] Gogate P.R., Pandit A.B., Advances in Environmental Research 2004,8 (2004) 500-551.
• [6] Chiron S., Fernandez-Alba A., Rodriguez A., Garcia-Calvo E., Water Research 34(2) (2000) 366-377.
• [7] Kos L., Perkowski J., Fibres and textiles in Eastern Europe 11(4) (2003) 43.
• [8] Suty H., De Traversay C., Cost M., Water Science and Technology 49(4) (2004) 227-233.
• [9] Stasinakis A.S., Global NEST Journal 10(3) (2008) 376-385.
• [10] Joseph C.G., Puma G.L., Bono A., Krishnaiah D., Ultrasonics Sonochemistry 16 (2009) 583-589.
• [11] Huber M.M., Canonica S., Park G.Y., Gunten U.V., Environmental Science and Technology 37 (2003) 1016-1024.
• [12] Esplugas S., Bila D.M., Krause L.G.T., Dezotti M., Journal of Hazardous Materials 149 (2007) 631-642.
• [13] Palit Sukanchan, International Journal of Chemical and Analytical Science 3(1) (2012) 1290-1292.
• [14] Palit Sukanchan, International Journal of Chemical and Analytical Science 3(1) (2012) 1293-1295.
• [15] Palit Sukanchan, Indian Journal of Science and Technology 2(10) (2009).
• [16] Palit Sukanchan, International Journal of Chemistry and Chemical Engineering 1(1) (2011) 53-60.
• [17] Kantarci N., Borak F., Ulgen K.O., Process Biochemistry 40 (2005) 2263-2283.
• [18] Cheryan M., Ultrafiltration and Microfiltration Handbook, Technomic Publishing Co. Inc., 1998.
• [19] Google Images: www.google.com