Water treatment plants

2019-2018 Kropyvnytskyi OEP, PJSC, Kropyvnytskyi city, Ukraine Reconstruction with the completion of the energy complex of industrial Cogeneration plant by installation of a turbo-generator with greater power. Reverse osmosis
2014 OOO ‘Stavrolen’, Budennovsk city, Russia Building of water treatment plant for replenishment of losses at CCGT-135 Budennovsk city. Productivity 165 m³/h. Process layout: ultrafiltration – reverse osmosis – electrodeionization
2013 West-Siberian complex of deep processing of hydrocarbon raw materials into polyolefin. Boiler plant. Russia  Water treatment with Na-cation filters unit with productivity 53 m³/h
2013 Krivoy Rog power station, Zelenodolsk, Ukraine Reconstruction of Chemical treatment of water with the aim of reducing the needs of desalination and softening units. Productivity 400 m³/h (on desalted water), 250 m³/h (on softened water)
2012 Pridneprovsk power station, Dnepropetrovsk, Ukraine Reconstruction of Chemical treatment of water with the aim of increasing productivity and reducing the needs of desalination and softening units. Productivity 400 m³/h (on desalted water), 250 m³/h (on softened water)

2012 Kamish-Burun cogeneration plant, AR Crimea, Ukraine Building of desalination unit for feeding cycle of CCGT. Operation of unit on the source – sea water. Productivity 55 m³/h
2011 AO «Krymskij Titan», Armyansk, AR Crimea, Ukraine Building of desalination unit for power unit in production of sulfuric acid (MF – ultrafiltration – reverse osmosis – FSD). Productivity 110 m³/h
2010 Syzran cogeneration plant, Samara region, Russia Reconstruction of desalination unit to provide needs of CCGT-200 (deep demineralization unit). Productivity 130 m³/h
2010 OAO “DneprAZOT”, Dneprodzerzhinsk, Dnepropetrovsk region, Ukraine Reconstruction of Chemical treatment of water of production unit 1-Б, cogeneration plant. Operation on closed drainage scheme. Reconstruction of clarifiers and mechanical filters, usage of reverse-flow ionization at ‘clamped layer’, reconstruction of condensate polishing system, scheme of waste waters utilization. Productivity (total) 650 m³/h
2010 Samara regional power station, Russia Modernization of water treatment plant (reconstruction of clarifiers, usage of reverse-flow ionization, reverse osmosis). Productivity 150  m³/h
2009 OOO ‘LUKOIL energy and gas Kalush’, Kalush city, Ivano-Frankovsk region, Ukraine Building of chemical treatment of water in the power unit. Desalting using ultrafiltration and reverse-flow ionization. Productivity 100 m3/h
2009 Shakhty gas turbine power station, Rostov region, Russia Building of chemical treatment of water for needs of gas turbine power station (usage of reverse-flow ionization). Productivity 80 m³/h
2008 Shatura regional power station-5, Russia Reconstruction of desalination unit with using of membrane technology (ultrafiltration and reverse osmosis). Q=250 m³/h

2008 Voronezh cogeneration plant, Russia Reconstruction of alkali storage in order to complete the unloading scheme and prepare a caustic soda solution to meet the requirements ПБ 09-596-03
2008 Kursk cogeneration plant-1, Russia Reconstruction of draining sulfuric acid unit in order to complete the scheme to meet the requirements ПБ 09-596-03
2008 NPZ ZAO ‘Naftatrans’, Krasnodar city, Russia Building of chemical treatment of water and condensate polishing system with chemical storage for needs of power unit of oil-processing plant. Productivity 350 m³/h (on highly desalted water) and 350 m³/h (condensate clean up system from production)
2007 Ufa cogeneration plant-3, Russia Reconstruction of water softening unit with conversion Na-cation filters into reverse-flow technology. Q=750 m³/h
2007 Orel cogeneration plant, Russia Reconstruction of desalination unit of chemical treatment of water with conversion it into membrane technology. (UFU and OOU). Productivity 100 m³/h
2007 OAO ‘Uralstal’, Novotroitsk city, Orenburg region, Russia Water treatment plant of system for hydromechanical descaling of mill ‘2800’. Productivity 150 m³/h
2007 Mini cogeneration plant, Zyryanka settlement, Sakha Republic (Yakutiya), Russia Building of water treatment plant at power station with usage of reverse osmosis technology
2006 ОАО ‘Crimean Soda Plant’, Krasnoperekopsk city, AR Crimea, Ukraine Building of water treatment plant with usage of reverse-flow filters with middle drain system. Productivity 100 m³/h
2006 ОАО ‘Dneprokoks’, Dnepropetrovsk city, Ukraine Building of chemical treatment of water with chemical storage for needs of power unit. Productivity 150 m³/h
2005 Kremenchug cogeneration plant, Poltava region, Ukraine Reconstruction of unit for corrective treatment of feed water and boiler water with usage of complex reagent at high-pressure boilers (13,8 MPa)
2005 Ryazan NPZ, Russia. Combined power supply unit for hydro-treatment complex VGO Pretreatment at 450 t/h and plant demineralizing on UP.CO.RE (UРflowCOurtercurrent RЕgeneration) technology. Q=200 t/h. Deaerator-feedwater plant with productivity 200 t/h. Alkali storage rated for 1500 m³ of chemicals. Sludge compacting station
2005 Dzerzhinsk cogene-ration plant ОАО ‘Nizhnovenenergo’, Russia Reconstruction of desalination unit with conversion of ion-filters from parallel-flow ionization into reverse-flow ionization on UP.CO.RE technology. Productivity 600 m³/h
2005 Novolipetsk steel mill, Russia Reconstruction of chemical treatment of water at heat and power department with conversion of Na-cation filters from parallel-flow softening into reverse-flow softening on UP.CO.RE technology. Productivity 560 m³/h
2005 GP ‘Ilichevsk Commercial Sea Port’, Odessa region, Ukraine Replacement of equipment of water treatment plant at steam boiler plant. Productivity 35 m³/h
2004 Argun cogeneration plant-4, Chechen Republic, Russia Chemical treatment of water and chemical storage. Productivity 180 t/h
2003 Ioshkar-Ola boiler plant N37, Russia Reconstruction of water softening unit with conversion sulphated coal into carbonaceous resin. Productivity 600 m³/h
2003 Ioshkar-Ola cogeneration plant-1, Russia Reconstruction of water softening unit with conversion sulphated coal into carbonaceous resin. Productivity 800 m³/h
2003 KKHP ‘Phenolic plant’, Dzerzhinsk city, Donetsk region, Ukraine Reconstruction of second unit of boiler water pretreatment at heat and power department. Productivity 63 m³/h