@article{ART001288655},
author={안태웅 and I Song Choi and Jong-Min Oh},
title={A Study on Water Quality Purification Function by Using Planting Concrete and Porous Concrete},
journal={Journal of Environmental Impact Assessment},
issn={1225-7184},
year={2008},
volume={17},
number={5},
pages={271-278}
TY - JOUR
AU - 안태웅
AU - I Song Choi
AU - Jong-Min Oh
TI - A Study on Water Quality Purification Function by Using Planting Concrete and Porous Concrete
JO - Journal of Environmental Impact Assessment
PY - 2008
VL - 17
IS - 5
PB - Korean Society Of Environmental Impact Assessment
SP - 271
EP - 278
SN - 1225-7184
AB - The purpose of this research provides the basic solution about waterfront and promotes the
inherent capability, that recoveries both the river and gives the river for water quality to
improve plan. In this study, we compare and analysis the slope contact between filter media of
the porous concrete and planting concrete. As a result, when appling the porous concrete, it can
show the removal efficiency is SS 53%, BOD 39%, COD 20%, T-N 36% T-P 42% and appling
planting concrete is SS 58%, BOD42%, COD 26%, T-N 45%, T-P 53%. Therefore, planting
concrete is higher removal efficiency (SS 5%, BOD 3%, COD 6%, T-N 9%, T-P 10%) than porous
concrete. The experimental results show that using purification filter media on planting
concrete is better than on porous concrete, because it have the higher purification filter
efficiency. The quality of water improves vegetarian concrete, that can expect the increase of the
self-purification capacity and improve the spectacle for providing the waterside and planting of
planting concrete. In addition, it can complete and apply the research if having enough time for
experimentation and accurate study for mechanism by plant, we can use both planting concrete
filter media and the existing dike. As a result, we can gain the better quality of the water of the
city’s rivers and good economic value, that is spread by all cities applicable technologies. So it
can be expected using well for future.
KW - planting concrete;porous concrete;removal efficiencies
DO -
UR -
ER -
안태웅, I Song Choi and Jong-Min Oh. (2008). A Study on Water Quality Purification Function by Using Planting Concrete and Porous Concrete. Journal of Environmental Impact Assessment, 17(5), 271-278.
안태웅, I Song Choi and Jong-Min Oh. 2008, "A Study on Water Quality Purification Function by Using Planting Concrete and Porous Concrete", Journal of Environmental Impact Assessment, vol.17, no.5 pp.271-278.
안태웅, I Song Choi, Jong-Min Oh "A Study on Water Quality Purification Function by Using Planting Concrete and Porous Concrete" Journal of Environmental Impact Assessment 17.5 pp.271-278 (2008) : 271.
안태웅, I Song Choi, Jong-Min Oh. A Study on Water Quality Purification Function by Using Planting Concrete and Porous Concrete. 2008; 17(5), 271-278.
안태웅, I Song Choi and Jong-Min Oh. "A Study on Water Quality Purification Function by Using Planting Concrete and Porous Concrete" Journal of Environmental Impact Assessment 17, no.5 (2008) : 271-278.
안태웅; I Song Choi; Jong-Min Oh. A Study on Water Quality Purification Function by Using Planting Concrete and Porous Concrete. Journal of Environmental Impact Assessment, 17(5), 271-278.
안태웅; I Song Choi; Jong-Min Oh. A Study on Water Quality Purification Function by Using Planting Concrete and Porous Concrete. Journal of Environmental Impact Assessment. 2008; 17(5) 271-278.
안태웅, I Song Choi, Jong-Min Oh. A Study on Water Quality Purification Function by Using Planting Concrete and Porous Concrete. 2008; 17(5), 271-278.
안태웅, I Song Choi and Jong-Min Oh. "A Study on Water Quality Purification Function by Using Planting Concrete and Porous Concrete" Journal of Environmental Impact Assessment 17, no.5 (2008) : 271-278.
