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Name |
School |
Major |
Title |
| Director |
Park, Sung-sun |
University of Seoul |
Environmental Engineering |
Doctor |
| Researchers |
Lim, Seung-ju |
Konkuk University |
Environmental Engineering |
master |
| Gwan, Se-jin |
Kumoh National Institute of Technology |
Environmental Engineering |
master |
| Kim, Yu-mi |
Sangmyung University |
Environmental Engineering |
master |
| Choi, Chul-sun |
Sangji University |
Environmental Engineering |
master |
| Kim, Sun-hui |
Sangmyung University |
Environmental Engineering |
master |
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| Next Generation Core Technology & innovation Development Project, Ministry of Environment |
, Develop ecological passageway technology such as fishways in rivers
- Research Period: Jun.1 ~ May. 3, 2001
- Lead Research Institute: Rural Research institute, Korea Rural Community & Agriculture Corporation
- Participating company: Shingang Hi-Tech Co, Ltd. |
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, Develop treatment system applicable for leaking characteristics of urban non-point source pollution
- Research Period: Jun.1, 2004~ May. 31, 2006
- Lead company: Shingang Hi-Tech Co, Ltd.
- Commissioning Research institute: Hanbat National University |
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, Develop technology for Livestock manure Treatment and utilize them as resources using high-rates Bio Reactor (SAB)
- Research Period: Apr.1, 2005~ Mar. 31, 2007
- Lead company: Shingang Hi-Tech Co, Ltd.
- Commissioning Research institute: University of Seoul, Yonsei University, Sunchon National University |
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| Innovative Technology Development Project for SMEs |
, Advanced treatment method of 2nd sewage from the sewage treatment plant through a waterweed island with? artificial roots
- Research Period: Aug. 1, 2004~ Jul. 31, 2005
- Lead company: Shingang Hi-Tech Co, Ltd.
- Commissioning Research institute: Sangmyung University |
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| New product development project for SMEs with guaranteed purchases |
, Develop a Hydrodynamic Separator to reduce non-point source pollutants
- Research Period: Nov. 1, 2005~ Oct. 31, 2006
- Lead company: Shingang Hi-Tech Co, Ltd.
- Commissioning Research institute: Hanbat National University |
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| Research on rivers, ponds and lakes purification and ecosystem restoration |
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- Next generation core project by Ministry of Environment, Environmental New
Technology no. 111
- Ice harbor-like Fishway in Overflow type and non-overflow type
- All types of fish can use regardless of their swimming ability
- Provide sufficient distances and depth needed for leaping
- Flow duration in the fishway is consistent and there is no circulating flow.
- Solve problems such as difficulty in precision construction, compressive
strength |
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- Minimize facility capacity to save construction costs
- Able to respond to inflow water level and water quality changes
- Prevent air space occlusion and bulking
- Minimize sludge generation
- Over SS 60~80% of treatment efficiency BOD |
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- Ecosystem control and protect fish
- Eliminate nutritive salts such as nitrogen and phosphorus
- Water quality purification by bioconcrete
- Make ecological park and/or natural study field |
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- Artificial Introduction of natural purification method
- Excellent effect on treating non-point source pollution
- Excellent in eliminating nutritive salts such as nitrogen and phosphorus
- Stable response to inflow water level and water quality changes
- Economical building and operation costs
- Make ecological park and/or natural study field |
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| Research on Treatment of Non-point Source Pollutant |
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- Next-generation Core Technology, Ministry of Environment
- Developed in line with the characteristics of the domestic non-point source
pollution
- Able to respond flexibly to changes in water flow and concentration
- highly-effective treatment rate
- low water-height loss
- A wide applicability of contact media
- Long period of use of contact media |
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| Research on high-concentration sewage treatment |
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- Next-generation Core Technology, Ministry of Environment
- Save the required site and construction costs
- highly effective treatment rate and de-aeration efficiency
- Low operation costs thanks to reduced power and automatic operation
- Reduce noise as it does not require air blowers
- Applicable field: livestock sewage, food sewage, high- concentration
organic sewage, improvement of existing treatment facilities |
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| Research on secondary water purification method in the sewer system |
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- Next-generation Core Technology, Ministry of Environment
- Save the required site and construction costs
- highly effective treatment rate and de-aeration efficiency
- Low operation costs thanks to reduced power and automatic operation
- Reduce noise as it does not require air blowers
- Applicable field: livestock sewage, food sewage, high- concentration
organic sewage, improvement of existing treatment facilities |
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| Research on Ocean restoration |
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- Ocean environment improvement device through damaged seagrasses
habitation
- Able to reduce environmental disaster by red tide
- Improve water quality around coastline by filtering nutrient salts and pollutants
- Provide fish and shells with artificial reefs to live and spawn
- Enhanced economic effect through securing fish resources |
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| Research on Odor detection facility |
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- A system the automatically monitors odors in a real-time basis
- Measure complex odors only detected by human olfactory sense
- Predict the direction of spread and strength of odor emission
- Measure odor emission strength specified by Odor Prevention Act |
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| Research on developing environmentally-friendly products |
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- absorption and decomposition of toxic substances
- Deodorant/ antibacterial/ moisture adjustment functions
- lightweight, insulation, sound-absorption, sound shielding
- Emit far-infrared anion |
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