The application of ceramic membranes for treating effluent water from closed-circuit fish farming

Journal title

Archives of Environmental Protection




No 2

Publication authors

Divisions of PAS

Nauki Techniczne


Polish Academy of Sciences




eISSN 2083-4810 ; ISSN 2083-4772


Harvianto (2013), Removal organic contaminants on aquaculture using ultrafiltration membranes Indonesian Scholars, Journal, 33. ; Fu (1995), A pilot study on groundwater natural organics removal by low - pressure membranes, Desalination, 102. ; Matsushita (2005), Effect of membrane pore size coagulation time and coagulant dose on virus removal by a coagulation - ceramic microfiltration hybrid system, Desalination, 178. ; Van (2001), der Application of nanofiltration for removal of pesticides nitrate and hardness from ground water : rejection properties and economic evaluation of Membrane, Journal Science, 193. ; Viadero (2002), Membrane filtration for removal of fine solids from aquaculture process, Aquacultural Engineering, 26, 151, ; Kabsch (2010), Water treatment in integrated process using ceramic membrane of Environmental Studies, Polish Journal, 4, 731. ; Van Rijn (2013), Waste treatment in recirculating aquaculture systems, Aquacultural Engineering, 53. ; Schneider (2007), Kinetics design and biomass production of a bacteria reactor treating RAS effluent streams, Aquacultural Engineering, 36. ; Martins (2010), d New developments in recirculating aquaculture systems in Europe : A perspective on environmental sustainability, Aquacultural Engineering, 43. ; Luo (2013), Effect of pH and salt on nanofiltration a critical review of Membrane, Journal Science, 438. ; Martins (2009), The accumulation of substances in Recirculating Aquaculture Systems Affects embryonic and larval development in common carp Cyprinus carpio, Aquaculture, 291. ; Verweij (2003), Ceramic membranes : Morphology and Transport of Material, Journal Science, 38. ; Gemende (2008), Tests for the application of membrane technology in a new method for intensive aquaculture, Desalination, 224. ; Singer (2008), A novel approach to denitrification processes in a zero - discharge recirculating system for small - scale urban aquaculture, Aquacultural Engineering, 39, 72, ; Davidson (2013), Comparing the effects of feeding a grain - or a fish meal - based diet on water quality waste production and rainbow trout Oncorhynchus mykiss performance within low exchange water recirculating aquaculture systems, Aquacultural Engineering, 52, 45, ; Szmukała (2009), Application of ceramic membranes in water treatment for fish hatchery supplying purposes, Desalination, 240. ; Sondhi (2003), Applications and benefits of ceramic membranes, Membrane Technology, 11, 5, ; Rosenthal (1992), Fish farm effluents and their control in EC countries FAR Workshop Nov für Meereskunde, Inst, 23. ; Nyina (2007), Potential of local agricultural by - products for the rearing of African catfish Clarias gariepinus in Rwanda : effects on growth feed utilization and body composition, Aquaculture Research, 38, 206, ; Orecki (2004), Surface water treatment by the nanofiltration metod, Desalination, 162. ; Yonnekawa (2004), Behavior of macroparticles in monolith ceramic membrane filtration with pre - treatment Water & Technology, Science, 50, 317. ; Mohammad (2012), Ultrafiltration in food processing industry : Review on application membrane fouling and fouling control, Food Bioprocess Tech, 5, 1143, ; Van (2002), der Distillation vs membrane filtration overview of process evaluations in seawater, Desalination, 143. ; Good (2009), The impact of water exchange rate on the health and performance of rainbow trout Oncorhynchus mykiss in recirculation aquaculture systems, Aquaculture, 294. ; Yang (2006), Membrane filtration coupled with chemical precipitation to treat recirculating aquaculture system effluents of Environmental Quality, Journal, 35.