doi: 10.7857/JSGE.2012.17.4.036


토양 정화 방법에 따른 토양의 물리화학적 특성 변화

Changes in the Physicochemical Properties of Soil According to Soil Remediation Methods

  • Yi,Yong-Min,
  • Oh,Cham-Teut,
  • Kim,Guk-Jin,
  • Lee,Chul-Hyo,
  • Sung,Ki-June

피인용문헌(Cited by)

  • . "Best management practices for minimizing undesired effects of thermal remediation and soil washing on soil properties. A review" Environmental science and pollution research international, vol. 30(47), p.103480-. 2023. doi:10.1007/s11356-023-29656-6
  • . "Effect of different soil washing solutions on bioavailability of residual arsenic in soils and soil properties" Chemosphere, vol. 138 p.253-. 2015. doi:10.1016/j.chemosphere.2015.06.004
  • . "Overview: Microbial amendment of remediated soils for effective recycling" MATEC web of conferences, vol. 138 p.04001-. 2017. doi:10.1051/matecconf/201713804001
  • . "Desalinization Effect of Pennisetum Alopecuroides and Characteristics of Leachate Depending on Calcium Chloride (CaCl2) Concentration" Journal of people, plants, and environment, vol. 23(4), p.445-. 2020. doi:10.11628/ksppe.2020.23.4.445
  • . "Analysis of Mineralogical Toxicity of Soils Contaminated with Arsenic and Lead" 농업생명과학연구, vol. 52(1), p.103-. 2018. doi:10.14397/jals.2018.52.1.103
  • . "Evaluation of Soil Health by Soil Washing of As and Heavy Metal Contaminated Soils" 한국자원공학회지, vol. 60(1), p.1-. 2023. doi:10.32390/ksmer.2023.60.1.001
  • . "Comparative Evaluation of Technologies at a Heavy Metal Contaminated Site: The Role of Feasibility Studies" Environments, vol. 9(11), p.139-. 2022. doi:10.3390/environments9110139
  • . "Salt Tolerance of Phragmites australis and Effect of Combing It with Topsoil Filters on Biofiltration of CaCl2 Contaminated Soil" Sustainability, vol. 16(19), p.8522-. 2024. doi:10.3390/su16198522
  • . "Revitalization of Total Petroleum Hydrocarbon Contaminated Soil Remediated by Landfarming" Toxics, vol. 10(3), p.147-. 2022. doi:10.3390/toxics10030147
  • . "우드칩과 피트모스를 원료로 하는 식생기반재의 물리·화학적 특성 및 생육 특성" 목재공학, vol. 44(3), p.323-. 2016. doi:10.5658/WOOD.2016.44.3.323
  • . "Effects of the Physicochemical Properties of Lignocellulosic Artificial Soil Containing Bacillus subtilis on the Growth of Lespedeza cyrtobotrya" 목재공학, vol. 47(4), p.393-. 2019. doi:10.5658/WOOD.2019.47.4.393
  • . "Soil Quality Assessment Based on Different Properties of Remediated Soil Affected by Various Organic Amendments" Korean journal of Soil Science and Fertilizer, vol. 52(2), p.114-. 2019. doi:10.7745/KJSSF.2019.52.2.114
  • . "오염토양 정화공법이 토양의 생물학적 특성에 미치는 영향" 지하수토양환경, vol. 18(3), p.73-. 2013. doi:10.7857/JSGE.2013.18.3.073
  • . "(구)장항제련소 주변 부지 매입구역 비소 오염토양에 대한 중성 인산염 토양세척법의 적용가능성 평가" 지하수토양환경, vol. 19(4), p.45-. 2014. doi:10.7857/JSGE.2014.19.4.045
  • . "정화 처리토가 렌틸(콩과식물)의 지상부 및 뿌리 성장에 주는 영향에 대한 정량평가" 지하수토양환경, vol. 26(5), p.1-. 2021. doi:10.7857/JSGE.2021.26.5.001
  • . "정화토의 순환골재 재활용 가능성 평가" 지하수토양환경, vol. 26(6), p.27-. 2021. doi:10.7857/JSGE.2021.26.6.027
  • . "토양정화 공법 및 단위공정에 따른 토양건강성 평가" 지하수토양환경, vol. 26(6), p.36-. 2021. doi:10.7857/JSGE.2021.26.6.036
  • . "군기지 오염토양의 정화 방법에 대한 연구" Korean chemical engineering research, vol. 52(5), p.647-. 2014. doi:10.9713/kcer.2014.52.5.647
  • . "오염 토양 정화공정에 의한 토양의 특성 변화 및 정화토의 회복기술" 자원환경지질, vol. 53(4), p.441-. 2020. doi:10.9719/EEG.2020.53.4.441