◎research interests membrane development pervaporation membrane distillation nanofiltration gas separation
◎education (supervisor:dr. xianshe feng)
(supervisor:dr. takeshi matsuura, dr. christopher lan)
◎work experience
◎awards & recognition ◎publications zhelun li, kang hu, xianshe feng. hollow fiber membranes comprising of polyvinylamine/polydopamine active layers and a polyvinylidene fluoride substrate for pervaporative concentration of kac solutions. separation and purification technology, 2023, (313), 123466
zhelun li, kang hu, xianshe feng. co-depositing polyvinylamine and dopamine to enhance membrane performance for concentration of kac solutions via sweeping air pervaporation. journal of membrane science, 2022, (656), 120664
zhelun li, kang hu, xianshe feng. concentration of potassium acetate solutions via sweeping gas pervaporation using tfc membranes comprising of a pda sublayer and pei/paa bilayers. separation and purification technology, 2021, (277), 119429
zhelun li, dipak rana, takeshi matsuura, christopher q lan. the performance of polyvinylidene fluoride-polytetrafluoroethylene nanocomposite distillation membranes: an experimental and numerical study. separation and purification technology, 2019, (226), 192-208
zhelun li, dipak rana, zhaohui wang, takeshi matsuura, christopher q lan. synergic effects of hydrophilic and hydrophobic nanoparticles on performance of nanocomposite distillation membranes: an experimental and numerical study. separation and purification technology, 2018, (202), 45-58
zhelun li, absar baig, kazem shahidi, alexander hudson, leah roth, mason hatahet, xuezhen wang. pervaporative desalination of high salinity water using chitosan-based thin film composite membranes. asia‐pacific journal of chemical engineering,2022, (5), e2819
zhelun li, absar baig, kazem shahidi, alexander hudson, gurvinder sekhon, damien fernando, mason hatahet, xuezhen wang. chitosan/poly (vinyl alcohol)/graphene oxide mixed matrix membrane for the pervaporation dehydration of ethylene glycol. journal of polymer research, 2023,(6)198
google scholar: https://scholar.google.com/citations?user=nrnc1j4aaaaj&hl=zh-cn |