Main menu

Technology Transfer Commercialization Project

Developed and commercialized a feedback sterilization cleaning explosion-proof filter system using automatic washing and miniaturization technology of seawater strainer for ship

Developed and commercialized a feedback sterilization cleaning explosion-proof filter system using automatic washing and miniaturization technology of seawater strainer for ship
Period 2015-05-01 ~ 2017-04-30
Objective
  • Developed and commercialized a feedback sterilization cleaning explosion-proof filter system using automatic washing and miniaturization technology of seawater strainer for ship
  • Achieved 4 billion won in sales and 5 billion won in sales with economic achievement through commercialization technology

Development of ultra-low temperature (-162 ° C) liquefied gas valve

Development of ultra-low temperature (-162 ° C) liquefied gas valve
Period 2015-05-01 ~ 2017-04-30
Objective
  • Development of cryogenic valves applicable to vessels and related facilities related to liquefied gas storage and transportation
  • Commercialization of domestic products with technology and price competitiveness capable of import substitution

Developed water-cooled high power flood light system

Developed water-cooled high power flood light system
Period 2015-05-01 ~ 2017-04-30
Objective
  • Developed a 500W water-cooled flood light system to replace 1kW metal halide lamp
  • (1.5 ~ 2) kW Metal Halide Lamp Replacement 750W Water Cooling Floodlight System Development

Developed Hybrid Radiator Cooler for Offshore Plant

Developed Hybrid Radiator Cooler for Offshore Plant
Period 2016-05-01 ~ 2017-04-30
Objective
  • Developed Hybrid Radiator Cooler that can cool both offshore plant and generator fluids with two different fluids (cylinder coolant and peripheral coolant) simultaneously with one radiator cooler

Developed a bubble repair line equipped with a water / oil filter for real-time water distribution

Developed a bubble repair line equipped with a water / oil filter for real-time water distribution
Period 2016-05-01 ~ 2017-04-30
Objective
  • Development of a new concept-based recirculating water recovery system capable of recovering offshore oil using a non-powered nano micrometric mesh with real-time flow water separation function