- Location of contaminated sediments
- Processes, Assessment and Remediation of Contaminated Sediments – Thin-Layer Placement
- Contaminated Sediments
LimnoTech also has extensive experience in remedy design and support for remedy implementation, at sites throughout the United States and Canada. As site remediation approaches have broadened to reflect recent trends of ecological restoration and sustainable design, LimnoTech has stayed current, completing projects with a strong element of restoration design and integration with urban planning and waterfront development. Talk to us! Please contact Tim , Dan or Greg to find out more about us and how we could work with you.
I cannot imagine any complicated water resource or sediment management project proceeding without LimnoTech on the team. Check out this opportunity to work for an awesome organization! About 5 days ago. Last week. Opinion article via detroitnews bit.
Location of contaminated sediments
Listen to one of our experts talk about our role in helping solve water problems on LakeErie twitter. About 2 weeks ago. Contaminated Sediments Industries, waterfront developers, resource managers, and site owners face real challenges as they work to remediate or control environmental impacts at contaminated sediment sites. Read More.
Hale, Gerard Cornelissen, Jarkko Akkanen. Mixing and capping techniques for activated carbon based sediment remediation — Efficiency and adverse effects for Lumbriculus variegatus. Water Research , , Season S. Chen, Jessica S. Tsang, Yong Sik Ok. A reconnaissance-scale GIS-based multicriteria decision analysis to support sustainable biochar use: Poland as a case study. Journal of Environmental Engineering and Landscape Management , 25 2 , Activated carbon from kraft lignin: A sorbent for in situ remediation of contaminated sediments.
Processes, Assessment and Remediation of Contaminated Sediments – Thin-Layer Placement
Pharmaceutical removal in synthetic human urine using biochar. Integrated Environmental Assessment and Management , 12 2 , Yongju Choi, Jay M. Secondary environmental impacts of remedial alternatives for sediment contaminated with hydrophobic organic contaminants. Journal of Hazardous Materials , , Sorption of hydrophobic organic compounds to a diverse suite of carbonaceous materials with emphasis on biochar.
Metal Pollution in Coastal Sediments. Current Pollution Reports , 1 4 , Prospective environmental and economic assessment for biotreatment of micropollutants in drinking water resources in Denmark. Water Science and Technology: Water Supply , 15 6 , Matthew E. Wender, Igor Linkov. Life cycle assessment for dredged sediment placement strategies. Positioning activated carbon amendment technologies in a novel framework for sediment management. Integrated Environmental Assessment and Management , 11 2 , In situ sediment treatment using activated carbon: A demonstrated sediment cleanup technology.
Karapanagioti, David Werner. Magnetite impregnation effects on the sorbent properties of activated carbons and biochars. Water Research , 70 , The impact of biochars on sorption and biodegradation of polycyclic aromatic hydrocarbons in soils—a review. Environmental Science and Pollution Research , 22 5 , Simon Jeffery, T.
Sohi, Tess F. Wardle, Jan Willem van Groenigen. The way forward in biochar research: targeting trade-offs between the potential wins. GCB Bioenergy , 7 1 , Sarancha, K. Vitale, , S. Oreskovic, , V. Sustainable decision making under uncertainty: a case study in dredged material management. Journal of Cleaner Production , 83 , Alburquerque, Charles W. Knapp, Christine Switzer.
Effects of biochar and activated carbon amendment on maize growth and the uptake and measured availability of polycyclic aromatic hydrocarbons PAHs and potentially toxic elements PTEs. Environmental Pollution , , Mikko Nikinmaa. Effects of Chemicals on Aquatic Communities and Ecosystems. Davenport, William T.
Camacho, David Werner. Predicting the effects of biochar on volatile petroleum hydrocarbon biodegradation and emanation from soil: A bacterial community finger-print analysis inferred modelling approach. Soil Biology and Biochemistry , 68 , Todd S.
Bridges, Karl Gustavson. Risk Management for Contaminated Sediments.
Gitte Lemming, Steffen G. Baker, Jacqueline A.
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Falkenberg, Mads Terkelsen, Carsten B. Jensen, Poul L. Gitte Lemming, Julie C. Chambon, Philip J. Binning, Poul L. Is there an environmental benefit from remediation of a contaminated site? Combined assessments of the risk reduction and life cycle impact of remediation. Journal of Environmental Management , , Evaluation of the environmental impact of Brownfield remediation options: comparison of two life cycle assessment-based evaluation tools. Environmental Technology , 33 21 , Keener, Edwin F. Barth, Patrick J.
Clark, Nicole M. Bujalski, Roger B. Evaluation of a sustainable remediation option: Beneficial reuse of petroleum-contaminated sediment as an energy source. Measuring eco-efficiency of contaminated soil management at the regional level. Angela Fisher.
Life-cycle assessment of in situ thermal remediation. Remediation Journal , 22 4 , Journal of Agricultural and Environmental Ethics , 25 4 , Patryk Oleszczuk, Sarah E. Hale, Johannes Lehmann, Gerard Cornelissen.