Abstract
Hollow fiber membranes originally developed in the 1960s for the reverse osmosis process have since then become widely used for diverse separation processes. The advantages of hollow fiber membranes include the low energy consumption, ease of operation and, among the most important ones, highly efficient operation in a small footprint (a large membrane area can be packed into a module unit). The production of hollow fiber membranes involves many spinning parameters to be controlled. The list of these parameters, in particular, includes the viscosity of the spinning solution, the design and geometric parameters of the spinneret, the extrusion speed of the polymer solution, the composition and temperature of the bore fluid, the type of external coagulant, the air gap distance, the draw ratio, etc. The effect of these parameters on the properties of hollow fiber membranes is reviewed. Research data pertaining to the modification of polymers, both commercially available and at the stage of their synthesis, are also presented in the context of membrane applications. In addition, the preparation of membranes using non-toxic or less toxic solvents is discussed.
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REFERENCES
A. Yu. Alent’ev, A. V. Volkov, I. V. Vorotyntsev, A. L. Maksimov, and A. B. Yaroslavtsev, Membr. Membr. Technol. 3, 255 (2021).
P. Yu. Apel, O. V. Bobreshova, A. V. Volkov, V. V. Volkov, V. V. Nikonenko, I. A. Stenina, A. N. Filippov, Yu. P. Yampolskii, and A. B. Yaroslavtsev, Membr. Membr. Technol. 1, 45 (2019).
Y. Xiao, B. T. Low, S. S. Hosseini, T. S. Chung, and D. R. Paul, Progr. Polym. Sci. 34, 561 (2009).
P. Y. Apel, S. Velizarov, A. V. Volkov, A. B. Yaroslavtsev, T. V. Eliseeva, A. V. Parshina, V. V. Nikonenko, N. D. Pismenskaya, and K. I. Popov, Membr. Membr. Technol. 4, 69 (2022).
URL: https://patents.google.com/patent/US3228876/en (accessed November 27, 2023).
Th. Peters, Chem. Eng. Technol. 33, 12330 (2010).
S. Loeb and S. Sourirajan, Adv. Chem. 38, 117 (1963).
N. Peng, N. Widjojo, P. Sukitpaneenit, M. M. Teoh, G. G. Lipscomb, T.-S. Chung, and J.-Y. Lai, Progr. Polym. Sci. 37, 14014 (2012).
A. V. Bildyukevich, T. V. Plisko, and V. V. Usosky, Pet. Chem. 56, 379 (2016).
C. Y. Feng, K. C. Khulbe, T. Matsuura, and A. F. Ismail, Sep. Purif. Technol. 111, 43 (2013).
T. N. Chung, Advanced Membrane Technology and Applications, Eds. N. N. Li (Wiley, 2008).
A. L. Ahmad, T. A. Otitoju, and B. S. Ooi, J. Ind. Eng. Chem. 70, 35 (2019).
N. Peng, N. Widjojo, P. Sukitpaneenit, M. M. Teoh, G. G. Lipscomb, T.-S. Chung, and J.-Y. Lai, Progr. Polym. Sci. 37, 14014 (2012).
H. Ohya, S. Shiki, and H. Kawakami, J. Membr. Sci. 326, 293 (2009).
X. Dong, A. Al-Jumaily, and I. Escobar, Membranes 8, 23 (2018).
Y. Li, C. Jin, and Y. Peng, An Q., Chen Z., Zhang J., Ge L., Wang S, J. Taiwan Inst. Chem. Eng. 95, 487 (2019).
X. Kong, X. Lu, and K. Ren, J. Taiwan Inst. Chem. Eng. 129, 171 (2021).
I. V. Maggay, M.-L. Yu, D.-M. Wang, C.-H. Chiang, Y. Chang, and A. Venault, J. Membr. Sci. 655, 120597 (2022).
Y. Peng, Y. Dong, H. Fan, P. Chen, Z. Li, and Q. Jiang, Desalination 316, 53 (2013).
H. A. Tsai, J. H. Lin, D. M. Wang, K. R. Lee, and J. Y. Lai, Desalination 200, 247 (2006).
A. Yushkin, A. Balynin, M. Efimov, K. Pochivalov, I. Petrova, and A. Volkov, Membranes 12, 523 (2022).
Y. Su, C. Chen, Y. Li, and J. Li, J. Macromol. Sci. 44 Part A, 99 (2007).
A. Figoli, Encyclopedia of Membranes, Eds. E. Drioli and L. Giorno (Springer Berlin Heidelberg, Berlin, Heidelberg, 2014).
B. K. Thakur and S. De, Sep. Purif. Technol. 93, 67 (2012).
L. P. Perepechkin, Russ. Chem. Rev. 57, 539 (1988).
N. E. Vinogradov and G. G. Kagramanov, J. Phys.: Conf. Ser. 751, 012038 (2016).
A. V. Bildyukevich, T. V. Plisko, A. S. Liubimova, V. V. Volkov, and V. V. Usosky, J. Membr. Sci. 524, 537 (2017).
A. V. Bildyukevich and V. V. Usosky, Pet. Chem. 54, 652 (2014).
H. Z. Chen, Z. Thong, P. Li, and T.-S. Chung, Int. J. Hydrogen Energy 39, 50433 (2014).
Q. Li, Z.-L. Xu, and L.-Y. Yu, J. Appl. Polym. Sci. 115, 22777 (2010).
Y. Chang, Y.-J. Shih, R.-C. Ruaan, A. Higuchi, W.‑Y. Chen, and J.-Y. Lai, J. Membr. Sci. 309, 165 (2008).
D. Matveev, V. Vasilevsky, V. Volkov, T. Plisko, A. Shustikov, A. Volkov, and A. Bildyukevich, J. Environ. Chem. Eng. 10, 107061 (2022).
D. N. Matveev, V. V. Volkov, V. P. Vasilevskii, S. D. Bazhenov, E. V. Chernikova, T. V. Plisko, A. A. Shustikov, and A. V. Bildyukevich, Membr. Membr. Technol. 1, 386 (2019).
R. A. Roslan, W. J. Lau, A. K. Zulhairun, P. S. Goh, and A. F. Ismail, J. Polym. Res. 27, 119 (2020).
R. Naim and A. F. Ismail, J. Hazard. Mater. 250–251, 354 (2013).
H. Karkhanechi and S. Rajabzadeh, E. Di Nicolò, H. Usuda, A. R. Shaikh, and H. Matsuyama, Polymer 97, 515 (2016).
Gh. Bakeri, A. F. Ismail, M. Rahimnejad, and T. Matsuura, Chem. Eng. Res. Des. 92, 13810 (2014).
P. Zhang, C. Fang, S. Rajabzadeh, W. Liu, Y. Jia, Q. Shen, L. Zhang, S. Wang, N. Kato, and H. Matsuyama, J. Membr. Sci. 620, 118854 (2021).
G. Li, W. Kujawski, K. Knozowska, and J. Kujawa, Membranes 11, 56 (2021).
Z. Thong, J. Gao, J. X. Z. Lim, K.-Y. Wang, and T.‑S. Chung, Sep. Purif. Technol. 192, 483 (2018).
Y. Dou, X. Dong, Y. Ma, P. Ge, C. Li, A. Zhu, Q. Liu, and Q. Zhang, J. Membr. Sci. 659, 120779 (2022).
A. Behboudi, S. Ghiasi, T. Mohammadi, and M. Ulbricht, Sep. Purif. Technol. 270, 118801 (2021).
A. Heidari, E. Abdollahi, T. Mohammadi, and A. A. Asadi, Sep. Purif. Technol. 270, 118811 (2021).
A. Giwa, S. Chakraborty, M. O. Mavukkandy, H. A. Arafat, and S. W. Hasan, Sep. Purif. Technol. 189, 20 (2017).
A. Mansourizadeh and A. F. Ismail, Chem. Eng. J. 165, 980 (2010).
H. Zhang, B. Li, D. Sun, and X. Miao, Y. Gu, Desalination 429, 33 (2018).
L. Zou, P. Gusnawan, Y.-B. Jiang, G. Zhang, and J. Yu, ACS Appl. Mater. Interfaces 12, 28655 (2020).
T. V. Plisko, A. V. Bildyukevich, V. V. Usosky, and V. V. Volkov, Pet. Chem. 56, 321 (2016).
L.-Y. Wang, W. F. Yong, L. E. Yu, and T.-S. Chung, J. Membr. Sci. 535, 342 (2017).
N. Ghasem, M. Al-Marzouqi, and N. Abdul Rahim, Sep. Purif. Technol. 99, 91 (2012).
D. Matveev, I. Borisov, V. Vasilevsky, G. Karpacheva, and V. Volkov, Membranes 12, 1257 (2022).
A. J. Kajekar, B. M. Dodamani, A. M. Isloor, Z. A. Karim, N. B. Cheer, A. F. Ismail, and S. J. Shilton, Desalination 365, 117 (2015).
M. R. Moghareh Abed, S. C. Kumbharkar, A. M. Groth, and K. Li, Sep. Purif. Technol. 106, 47 (2013).
C. Ursino, F. Russo, R. M. Ferrari, and M. P. De Santo, E. Di Nicolò, T. He, F. Galiano, and A. Figoli, J. Membr. Sci. 608, 118216 (2020).
T. V. Plisko, A. V. Bildyukevich, L. Zhao, W. Huang, V. V. Volkov, and Z. Huang, Fibers 9, 28 (2021).
N. N. Li, A. G. Fane, W. S. W. Ho, and T. Matsuura, Advanced Membrane Technology and Application (John Wiley & Sons, 2011).
K. Y. Wang, T. Matsuura, T.-S. Chung, and W. F. Guo, J. Membr. Sci. 240, 67 (2004).
N. Peng and T. S. Chung, J. Membr. Sci. 310, 455 (2008).
C. Cao, T.-S. Chung, S. B. Chen, and Z. Dong, Chem. Eng. Sci. 59, 1053 (2004).
T.-S. Chung, S. K. Teoh, W. W. Y. Lau, and M. P. Srinivasan, Ind. Eng. Chem. Res. 37, 3930 (1998).
H. Fashandi, K. Zarrini, M. Youssefi, and M. M. Abolhasani, Ind. Eng. Chem. Res. 54, 7728 (2015).
D. N. Matveev and V. P. Vasilevsky, Key Eng. Mater. 899, 451 (2021).
N. Widjojo and T.-S. Chung, Ind. Eng. Chem. Res. 45, 7618 (2006).
S. A. McKelvey, D. T. Clausi, and W. J. Koros, J. Membr. Sci. 124, 223 (1997).
W. Nijdam, J. de Jong, C. J. M. van Rijn, T. Visser, L. Versteeg, G. Kapantaidakis, G.-H. Koops, and M. Wessling, J. Membr. Sci. 256, 209 (2005).
P. Z. Çulfaz, E. Rolevink, C. van Rijn, R. G. H. Lammertink, and M. Wessling, J. Membr. Sci. 347, 32 (2010).
L. García-Fernández, C. García-Payo, and M. Khayet, Appl. Surf. Sci. 416, 932 (2017).
X. Yang, H. Yu, R. Wang, and A. G. Fane, J. Membr. Sci. 421–422, 258 (2012).
D. T. Clausi and W. J. Koros, J. Membr. Sci. 167, 79 (2000).
M. Pagliero, M. Khayet, C. García-Payo, and L. García-Fernández, Desalination 516, 115235 (2021).
L. García-Fernández, M. C. García-Payo, and M. Khayet, J. Membr. Sci. 542, 456 (2017).
A. V. Varezhkin, Membr. Membr. Technol. 5, 27 (2023).
I. Ullah Khan, M. H. D. Othman, A. F. Ismail, T. Matsuura, H. Hashim, N. A. H. M. Nordin, M. A. Rahman, J. Jaafar, and A. Jilani, J. Nat. Gas Sci. Eng. 52, 215 (2018).
M. K. Souhaimi, M. Khayet, and T. Matsuura, Membrane Distillation (Elsevier, 2011).
M. Radjabian, J. Koll, K. Buhr, U. A. Handge, and V. Abetz, Polymer 54, 1803 (2013).
D. N. Matveev, V. P. Vasilevskii, I. L. Borisov, V. V. Volkov, and A. V. Volkov, Russ. J. Appl. Chem. 93, 554 (2020).
A. V. Bildyukevich, T. A. Hliavitskaya, and T. N. Nevar, Membr. Membr. Technol. 4, 195 (2022).
F. Korminouri, M. Rahbari-Sisakht, D. Rana, T. Matsuura, and A. F. Ismail, Sep. Purif. Technol. 132, 601 (2014).
M. Khayet, M. C. García-Payo, F. A. Qusay, K. C. Khulbe, C. Y. Feng, and T. Matsuura, J. Membr. Sci. 311, 259 (2008).
M. Khayet and M. C. García-Payo, Desalination 245, 494 (2009).
H. M. Tham, K. Y. Wang, D. Hua, S. Japip, and T.‑S. Chung, J. Membr. Sci. 542, 289 (2017).
D. N. Matveev, K. A. Kutuzov, and V. P. Vasilevsky, Membr. Membr. Technol. 2, 351 (2020).
M. V. Ivanov, G. A. Dibrov, A. V. Loyko, A. V. Varezhkin, and G. G. Kagramanov, Theor. Found. Chem. Eng. 50, 316 (2016).
G. Dibrov, G. Kagramanov, V. Sudin, S. Molchanov, E. Grushevenko, A. Yushkin, and V. Volkov, Fibers 10, 29 (2022).
P. Sukitpaneenit and T.-S. Chung, J. Membr. Sci. 374, 67 (2011).
Y. Tang, N. Li, A. Liu, S. Ding, C. Yi, and H. Liu, Desalination 287, 326 (2012).
Y. Wang, M. Gruender, and T. S. Chung, J. Membr. Sci. 363, 149 (2010).
M. Askari, T. Yang, and T.-S. Chung, J. Membr. Sci. 423–424, 392 (2012).
C. H. Loh and R. Wang, J. Membr. Sci. 466, 130 (2014).
S. Simone, A. Figoli, A. Criscuoli, M. C. Carnevale, S. M. Alfadul, H. S. Al-Romaih, F. S. Al Shabouna, O. A. Al-Harbi, and E. Drioli, Desalination 344, 28 (2014).
N. L. Le and S. P. Nunes, J. Membr. Sci. 533, 171 (2017).
D. N. Matveev, I. L. Borisov, E. A. Grushevenko, V. P. Vasilevsky, T. S. Anokhina, and V. V. Volkov, Sep. Purif. Technol. 330, 125363 (2024).
J. Zuo and T.-S. Chung, Desalination 417, 94 (2017).
Z. Cui, N. T. Hassankiadeh, S. Y. Lee, J. M. Lee, K. T. Woo, A. Sanguineti, V. Arcella, Y. M. Lee, and E. Drioli, J. Membr. Sci. 444, 223 (2013).
A. V. Bildyukevich, T. A. Hliavitskaya, S. A. Pratsenko, and G. B. Melnikova, Membr. Membr. Technol. 3, 24 (2021).
L. García-Fernández, M. C. García-Payo, and M. Khayet, J. Membr. Sci. 542, 469 (2017).
D. Hua, Y. Kang Ong, P. Wang, and T.-S. Chung, J. Membr. Sci. 471, 155 (2014).
A. K. Zulhairun, B. C. Ng, A. F. Ismail, MuraliR. Surya, and M. S. Abdullah, Sep. Purif. Technol. 137, 1 (2014).
Y. Kang, M. Obaid, J. Jang, M.-H. Ham, and I. S. Kim, Chemosphere 207, 581 (2018).
Y. Koga, H. Fujieda, H. Meguro, Y. Ueno, T. Aoki, K. Miwa, and M. Kainoh, Artif. Organs 42, E246 (2018).
S. Kheirieh, M. Asghari, and M. Afsari, Rev. Chem. Eng. 34, 657 (2018).
O. S. Serbanescu, S. I. Voicu, and V. K. Thakur, Mater. Today Chem. 17, 100302 (2020).
D. Matveev, A. Raeva, I. Borisov, V. Vasilevsky, Y. Matveeva, A. Zhansitov, S. Khashirova, and V. Volkov, Membranes 13, 412 (2023).
X. Tian and Y.-R. Qiu, Arch. Biochem. Biophys. 631, 49 (2017).
X. Lin, S. Kim, D. M. Zhu, E. Shamsaei, T. Xu, X. Fang, and H. Wang, J. Membr. Sci. 524, 557 (2017).
T.-M. Liu, J.-J. Xu, and Y.-R. Qiu, Mater. Sci. Eng. C 79, 570 (2017).
B. Hu, L. Miao, Y. Zhao, and C. Lü, J. Membr. Sci. 530, 84 (2017).
K. Venugopal and S. Dharmalingam, Desalination 296, 37 (2012).
C. Camacho-Zuñiga, F. A. Ruiz-Treviño, S. Hernández-López, M. G. Zolotukhin, F. H. J. Maurer, and A. González-Montiel, J. Membr. Sci. 340, 221 (2009).
M. J. Martínez-Morlanes, A. M. Martos, A. Várez., and B. Levenfeld, J. Membr. Sci. 492, 371 (2015).
C. Minguillón and C. Palet, Polymer 46, 12306 (2005).
N. Y. Abu-Thabit, S. A. Ali, and S. M. Javaid Zaidi, J. Membr. Sci. 360, 26 (2010).
O. Celebi, C. H. Lee, Y. Lin, J. E. McGrath, and J. S. Riffle, Polymer 52, 4718 (2011).
X. Du, J. Meng, R. Xu, Q. Shi, and Y. Zhang, J. Membr. Sci. 476, 205 (2015).
L. Jujie, X. He, and Z. Si, J. Polym. Res. 24, 1 (2016).
Y. Xie, N. Moreno, V. M. Calo, H. Cheng, P.‑Y. Hong, R. Sougrat, A. R. Behzad, R. Tayouo, and S. P. Nunes, Polym. Chem. 7, 3076 (2016).
Y.-F. Zhao, L.-P. Zhu, Z. Yi, B.-K. Zhu, and Y.‑Y. Xu, J. Membr. Sci. 440, 40 (2013).
F. Dolatkhah, T. Mohammadi, and M. A. Tofighy, J. Water Proc. Eng. 50, 103222 (2022).
B. Sasikumar, S. Bisht, G. Arthanareeswaran, A. F. Ismail, and M. H. D. Othman, Sep. Purif. Technol. 264, 118471 (2021).
I. U. Khan, M. H. D. Othman, A. Jilani, A. F. Ismail, H. Hashim, J. Jaafar, A. K. Zulhairun, M. A. Rahman, and G. U. Rehman, Polym. Test. 84, 106415 (2020).
N. Said, H. Hasbullah, M. N. Z. Abidin, A. F. Ismail, P. S. Goh, M. H. D. Othman, S. H. S. A. Kadir, F. Kamal, M. S. Abdullah, and B. C. Ng, J. Appl. Polym. Sci. 136, 47502 (2019).
R. Wijiyanti, A. N. Ubaidillah, T. Gunawan, Z. A. Karim, A. F. Ismail, S. Smart, R. Lin, and N. Widiastuti, Chem. Eng. Res. Des. 150, 274 (2019).
C. Zhou, Z. Hou, X. Lu, Z. Liu, X. Bian, L. Shi, and L. Li, Ind. Eng. Chem. Res. 49, 9988 (2010).
A. K. Hołda, M. De Roeck, K. Hendrix, and I. F. J. Vankelecom, J. Membr. Sci. 446, 113 (2013).
I. L. Borisov, D. N. Matveev, T. S. Anokhina, K. T. Shakhmurzova, A. A. Zhansitov, A. L. Slonov, Z. I. Kurdanova, S. Y. Khashirova, and V. V. Volkov, Membr. Membr. Technol. 5, 218 (2023).
E. Drioli and B. Van der Bruggen, J. Membr. Sci. 384, 89 (2011).
K. Praneeth, K. Bhargava Suresh, J. Tardio, and S. Sridhar, Chem. Eng. J. 248, 297 (2014).
www.basf.com/cn/documents/en/chinaplas/UltrasonESPproductbrochureEN.pdf (accessed November 27, 2023).
L.-L. Hwang, H.-H. Tseng, and J.-C. Chen, J. Membr. Sci. 384, 72 (2011).
S. Xiao, S. Yu, L. Yan, Y. Liu, and X. Tan, Chin. J. Chem. Eng. 25, 408 (2017).
A. V. Bildyukevich, T. V. Plisko, Y. A. Isaichykova, and A. A. Ovcharova, Pet. Chem. 58, 747 (2018).
T. V. Plisko, A. V. Bildyukevich, Y. A. Karslyan, A. A. Ovcharova, and V. V. Volkov, J. Membr. Sci. 565, 266 (2018).
Y. Feng, G. Han, T.-S. Chung, M. Weber, N. Widjojo, and C. Maletzko, J. Membr. Sci. 531, 27 (2017).
Y. Liu, X. Yue, S. Zhang, J. Ren, L. Yang, Q. Wang, and G. Wang, Sep. Purif. Technol. 98, 298 (2012).
L. Luo, G. Han, T.-S. Chung, M. Weber, C. Staudt, and C. Maletzko, J. Membr. Sci. 476, 162 (2015).
J. J. Zhang, H. Bu, S. W. Chen, H. P. Bi, Z. X. Hu, and L. J. Wang, Adv. Mater. Res. 664, 780 (2013).
T. Anokhina, A. Raeva, S. Sokolov, A. Storchun, M. Filatova, A. Zhansitov, Z. Kurdanova, K. Shakhmurzova, S. Khashirova, and I. Borisov, Membranes 12, 1113 (2022).
A. Zhansitov, Z. Kurdanova, K. Shakhmurzova, A. Slonov, I. Borisov, and S. Khashirova, Polymers 15, 2279 (2023).
I.-C. Kim, H.-G. Yun, and K.-H. Lee, J. Membr. Sci. 199, 75 (2002).
B. Jung, J. K. Yoon, B. Kim, and H.-W. Rhee, J. Membr. Sci. 243, 45 (2004).
N. Scharnagl and H. Buschatz, Desalination 139, 191 (2001).
E. R. Cornelissen, Th. Van Den Boomgaard, and H. Strathmann, Colloids Surf. A: Physicochem. Eng. Asp. 138, 283 (1998).
A. Yushkin, A. Basko, A. Balynin, M. Efimov, T. Lebedeva, A. Ilyasova, K. Pochivalov, and A. Volkov, Polymers 14, 4603 (2022).
A. A. Yushkin, A. V. Balynin, M. N. Efimov, D. G. Muratov, G. P. Karpacheva, and A. V. Volkov, Membr. Membr. Technol. 4, 251 (2022).
A. Ju, S. Guang, and H. Xu, Carbon 54, 323 (2013).
R. Devasia, C. P. R. Nair, R. Sadhana, N. S. Babu, and K. N. Ninan, J. Appl. Polym. Sci. 100, 3055 (2006).
Q. Ouyang, L. Cheng, H. J. Wang, and K. X. Li, J. Therm. Anal. Calorim. 94, 85 (2008).
Z.-W. Dai, F.-Q. Nie, and Z.-K. Xu, J. Membr. Sci. 264, 20 (2005).
W. Han, H. P. Gregor, and E. M. Pearce, J. Appl. Polym. Sci. 74, 1271 (1999).
L. Li, Z. Yin, F. Li, T. Xiang, Y. Chen, and C. Zhao, J. Membr. Sci. 349, 56 (2010).
V. V. Thekkae Padil, J. Filip, K. I. Suresh, and S. Wacławek, and M. Černík, RSC Adv. 6, 110288 (2016).
C. Çifci, İ. Kopan, and İ. Erol, J. Macromol. Sci. 56A, 529 (2019).
C. Cristallini, G. Ciardelli, N. Barbani, and P. Giusti, Macromol. Biosci. 4, 31 (2004).
S. G. Del Blanco, L. Donato, and E. Drioli, Sep. Purif. Technol. 87, 40 (2012).
K. Gabrovska, A. Georgieva, T. Godjevargova, O. Stoilova, and N. Manolova, J. Biotechnology 129, 674 (2007).
T. Godjevargova, V. Konsulov, and A. Dimov, J. Membr. Sci. 152, 235 (1999).
N. Han, W. Zhang, W. Wang, C. Yang, L. Tan, Z. Cui, W. Li, and X. Zhang, J. Membr. Sci. 591, 117276 (2019).
C. H. Park, S. Y. Nam, and Y. M. Lee, J. Appl. Polym. Sci. 74, 83 (1999).
L. Tan, N. Han, Y. Qian, H. Zhang, H. Gao, L. Zhang, and X. Zhang, J. Membr. Sci. 564, 712 (2018).
Y. Zhang, H. Li, J. Lin, R. Li, and X. Liang, Desalination 192, 198 (2006).
F. Tasselli, L. Donato, and E. Drioli, J. Membr. Sci. 320, 167 (2008).
A. A. Yushkin, A. V. Balynin, A. P. Nebesskaya, E. V. Chernikova, D. G. Muratov, M. N. Efimov, and G. P. Karpacheva, Membranes 13, 775 (2023).
M. Razali, F. J. Kim, M. Attfield, M. P. Budd, E. Drioli, Y. Moo Lee, and G. Szekely, Green Chem. 17, 5196 (2015).
Y. Huang, C. Xiao, Q. Huang, H. Liu, and J. Zhao, Chem. Eng. J. 403, 126295 (2021).
S. L. Baum and A. J. Suruda, Int. J. Occup. Environ. Health 3, 1 (1997).
A. M. Saillenfait, F. Gallissot, and G. Morel, Food Chem. Toxicol. 41, 583 (2003).
A. M. Saillenfait, F. Gallissot, I. Langonné, and J. P. Sabaté, Food Chem. Toxicol. 40, 1705 (2002).
K. Tanaka, Int. Arch. Arbeitsmed. 28, 95 (1971).
R. Gold, J. T. Phillips, E. Havrdova, A. Bar-Or, L. Kappos, N. Kim, T. Thullen, P. Valencia, L. Oliva, M. Novas, J. Li, M. T. Sweetser, N. Kurukulasuriya, V. Viglietta, and R. J. Fox, Neurology Ther. 4, 93 (2015).
I. Smallwood, Handbook of Organic Solvent Properties (Butterworth-Heinemann, 2012).
X. Dong, H. D. Shannon, and I. C. Escobar, ACS Symp. Ser., Am. Chem. Soc. 1310, 385 (2018).
X. Dong, A. Al-Jumaily, and I. Escobar, Membranes 8, 23 (2018).
T. Marino, E. Blasi, and S. Tornaghi, E. Di Nicolò, and A. Figoli, J. Membr. Sci. 549, 192 (2018).
A. Randová, L. Bartovská, P. Morávek, P. Matějka, M. Novotná, S. Matějková, E. Drioli, A. Figoli, M. Lanč, and K. Friess, J. Mol. Liq. 224, 1163 (2016).
H. H. Wang, J. T. Jung, J. F. Kim, S. Kim, E. Drioli, and Y. M. Lee, J. Membr. Sci. 574, 44 (2019).
M. A. Rasool and I. F. J. Vankelecom, Membranes 11, 418 (2021).
M. A. Rasool and I. F. J. Vankelecom, Green Chem. 21, 1054 (2019).
T. Marino, F. Galiano, A. Molino, and A. Figoli, J. Membr. Sci. 580, 224 (2019).
R. A. Milescu, C. R. McElroy, T. J. Farmer, P. M. Williams, M. J. Walters, and J. H. Clark, Adv. Polym. Technol. 2019, 1 (2019).
F. Russo, F. Galiano, and F. Pedace, F. Aricò, and A. Figoli, ACS Sustain. Chem. Eng. 8, 659 (2020).
D. Kim, H. Vovusha, U. Schwingenschlögl, and S. P. Nunes, J. Membr. Sci. 539, 161 (2017).
F. Lessan and R. Foudazi, Polymer 210, 122977 (2020).
F. V. Adams, D. S. Dlamini, E. N. Nxumalo, R. W. M. Krause, E. M. V. Hoek, and B. B. Mamba, J. Membr. Sci. 429, 58 (2013).
G. Arthanareeswaran and V. M. Starov, Desalination 267, 57 (2011).
N. Evenepoel, S. Wen, M. Tilahun Tsehaye, and B. Van Der Bruggen, J. Appl. Polym. Sci. 135, 46494 (2018).
S. S. Madaeni and L. Bakhtiari, Polymer 53, 4481 (2012).
T. Marino, F. Galiano, S. Simone, and A. Figoli, Environ. Sci. Pollut. Res. 26, 14774 (2019).
I. Sadeghi, A. Aroujalian, A. Raisi, B. Dabir, and M. Fathizadeh, J. Membr. Sci. 430, 24 (2013).
Y. L. Thuyavan, N. Anantharaman, G. Arthanareeswaran, and A. F. Ismail, J. Chem. Technol. Biotechnol. 91, 2568 (2016).
M. T. Tsehaye, J. Wang, J. Zhu, S. Velizarov, and B. Van der Bruggen, J. Membr. Sci. 550, 462 (2018).
M. R. M. Abed, S. C. Kumbharkar, A. M. Groth, and K. Li, J. Membr. Sci. 407–408, 145 (2012).
J. Chang, J. Zuo, L. Zhang, G. S. O’Brien, and T.‑S. Chung, J. Membr. Sci. 539, 295 (2017).
L. Wu and J. Sun, Mater. Des. 86, 204 (2015).
S. Rajabzadeh, T. Maruyama, T. Sotani, and H. Matsuyama, Sep. Purif. Technol. 63, 415 (2008).
J. T. Jung, H. H. Wang, J. F. Kim, J. Lee, J. S. Kim, E. Drioli, and Y. M. Lee, J. Membr. Sci. 559, 117 (2018).
J. F. Kim, J. T. Jung, H. H. Wang, S. Y. Lee, T. Moore, A. Sanguineti, E. Drioli, and Y. M. Lee, J. Membr. Sci. 509, 94 (2016).
F. Russo, C. Ursino, B. Sayinli, I. Koyuncu, F. Galiano, and A. Figoli, Clean Technol. 3, 761 (2021).
N. Ismail, J. Pan, M. Rahmati, Q. Wang, D. Bouyer, M. Khayet, Z. Cui, and N. Tavajohi, J. Membr. Sci. 646, 120238 (2022).
Funding
The study was supported by the Russian Science Foundation (grant no. 22-19-00711, https://rscf.ru/project/22-19-00711/).
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Matveev, D.N., Anokhina, T.S., Volkov, V.V. et al. Fabrication of Hollow Fiber Membranes: Effect of Process Parameters (Review). Membr. Membr. Technol. 5 (Suppl 1), S1–S21 (2023). https://doi.org/10.1134/S2517751623070016
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DOI: https://doi.org/10.1134/S2517751623070016