Mathematical Modelling for Separation of Binary Aqueous Solution using Hollow Fiber Reverse Osmosis Module
The mathematical equation for Separation of the
binary aqueous solution is developed by using the Spiegler- Kedem
theory. The characteristics of a B-9 hollow fibre module of Du Pont
are determined by using these equations and their results are
compared with the experimental results of Ohya et al. The agreement
between these results is found to be excellent.
[1] M.W.Vonk and J.A.M.Smit, Thermodynamics of Ternary Systems in
Reverse Osmosis,Desalination,48(1983)105-119.
[2] Sharad K Gupta, Design and Analysis of a Radial - Flow Hollow - Fiber
Reverse - Osmosis System, Ind.Engg. Chem. Res.26(1987) 2319-2333.
[3] D.spiegler and D.Kedem, Thermodynamics of hyperfiltration(reverse
osmosis)criteria of efficient membranes,Desalination 1(1966)311.
[4] H.Ohya, H.Nakajima,K.Tagaki,S.Kagawa and Y.Negishi, An analysis of
reverse osmosis characteristics of B-9 hollow fibre module,
Desalination, 21(1977)257.
[5] Masahide Tanguchi, Shoji Kimura. Estimation of Transport parameters
of RO membranes for seawater Desalination, AICHE Journal,10, 46(
2000).
[6] Nakao S and S. Kimura, "Analysis of Solutes Rejection in
Ultrafiltration", J. of Chemical Engg. Japan,14, 1 (1981) 32-37.
[7] Sekino M. and N. Fujiwara, " Analysis of Hollow-Fibre Reverse
Osmosis Modules," Kagaku Kogaku Ronbunshu, 17, 1088-1095(1991).
[8] Masaaki Sekino, Mass Transfer Characteristics of Hollow Fibre RO
modules, Journal of Chemical Engineering of Japan, 28(1995)843-846.
[1] M.W.Vonk and J.A.M.Smit, Thermodynamics of Ternary Systems in
Reverse Osmosis,Desalination,48(1983)105-119.
[2] Sharad K Gupta, Design and Analysis of a Radial - Flow Hollow - Fiber
Reverse - Osmosis System, Ind.Engg. Chem. Res.26(1987) 2319-2333.
[3] D.spiegler and D.Kedem, Thermodynamics of hyperfiltration(reverse
osmosis)criteria of efficient membranes,Desalination 1(1966)311.
[4] H.Ohya, H.Nakajima,K.Tagaki,S.Kagawa and Y.Negishi, An analysis of
reverse osmosis characteristics of B-9 hollow fibre module,
Desalination, 21(1977)257.
[5] Masahide Tanguchi, Shoji Kimura. Estimation of Transport parameters
of RO membranes for seawater Desalination, AICHE Journal,10, 46(
2000).
[6] Nakao S and S. Kimura, "Analysis of Solutes Rejection in
Ultrafiltration", J. of Chemical Engg. Japan,14, 1 (1981) 32-37.
[7] Sekino M. and N. Fujiwara, " Analysis of Hollow-Fibre Reverse
Osmosis Modules," Kagaku Kogaku Ronbunshu, 17, 1088-1095(1991).
[8] Masaaki Sekino, Mass Transfer Characteristics of Hollow Fibre RO
modules, Journal of Chemical Engineering of Japan, 28(1995)843-846.
@article{"International Journal of Engineering, Mathematical and Physical Sciences:64950", author = "Anil Kumar and S. Deswal", title = "Mathematical Modelling for Separation of Binary Aqueous Solution using Hollow Fiber Reverse Osmosis Module", abstract = "The mathematical equation for Separation of the
binary aqueous solution is developed by using the Spiegler- Kedem
theory. The characteristics of a B-9 hollow fibre module of Du Pont
are determined by using these equations and their results are
compared with the experimental results of Ohya et al. The agreement
between these results is found to be excellent.", keywords = "Binary aqueous solution, modeling, reverse
osmosis module, Spiegler-Kedem theory.", volume = "3", number = "3", pages = "233-5", }