Add to ORKGCarbonaceous materials (CM), such as activated carbons or biochars, have been shown to significantly reduce porewater concentrations and risks by binding hydrophobic organic compounds (HOCs) present in aquatic sediments. In the present study, the authors review the current state-of-the-art use of CM as an extensive method for sediment remediation, covering both technical and ecological angles. The review addresses how factors such as CM type, particle size and dosage, sediment characteristics, and properties of contaminants affect the effectiveness of CM amendment to immobilize HOCs in aquatic sediments. The authors also review the extent to which CM may reduce bioaccumulation and toxicity of HOCs and whether CM itself has negative effects ...
Contaminated sediments can be remediated by adding carbonaceous materials (CM), e.g. activated carbo...
Polluted sediment represents a great problem for aquantic environments with potential direct acute a...
Bottom sediments around the world store large amounts of legacy hydrophobic organic contaminants (HO...
Carbonaceous materials (CM), such as activated carbons or biochars, have been shown to significantly...
Carbonaceous materials are often proposed for use in restoring soils or sediments contaminated with ...
Hydrophobic organic contaminants (HOCs) often reside in sediments sorbed to particles, most tightly ...
Sediments are archives of human activities and other environmental changes in the aquatic environmen...
Amendment of contaminated sediment with activated carbon (AC) is a remediation technique that has de...
In situ activated carbon (AC) amendment is a new direction in contaminated sediment management, yet ...
Many coastal sediments have accumulated large quantities of contaminants from past anthropogenic act...
Sorbent amendment with activated carbon (AC) is a novel in situ management strategy for addressing h...
Previous research has shown that amendment of activated carbon and other sorbents can be a viable op...
Sediment amendment with activated carbon (AC) is a promising technique for in situ sediment remediat...
Organic pollutants in sediments are a worldwide problem because sediments act as sinks for hydrophob...
Contaminated sediments can pose serious threats to human health and the environment by acting as a s...
Contaminated sediments can be remediated by adding carbonaceous materials (CM), e.g. activated carbo...
Polluted sediment represents a great problem for aquantic environments with potential direct acute a...
Bottom sediments around the world store large amounts of legacy hydrophobic organic contaminants (HO...
Carbonaceous materials (CM), such as activated carbons or biochars, have been shown to significantly...
Carbonaceous materials are often proposed for use in restoring soils or sediments contaminated with ...
Hydrophobic organic contaminants (HOCs) often reside in sediments sorbed to particles, most tightly ...
Sediments are archives of human activities and other environmental changes in the aquatic environmen...
Amendment of contaminated sediment with activated carbon (AC) is a remediation technique that has de...
In situ activated carbon (AC) amendment is a new direction in contaminated sediment management, yet ...
Many coastal sediments have accumulated large quantities of contaminants from past anthropogenic act...
Sorbent amendment with activated carbon (AC) is a novel in situ management strategy for addressing h...
Previous research has shown that amendment of activated carbon and other sorbents can be a viable op...
Sediment amendment with activated carbon (AC) is a promising technique for in situ sediment remediat...
Organic pollutants in sediments are a worldwide problem because sediments act as sinks for hydrophob...
Contaminated sediments can pose serious threats to human health and the environment by acting as a s...
Contaminated sediments can be remediated by adding carbonaceous materials (CM), e.g. activated carbo...
Polluted sediment represents a great problem for aquantic environments with potential direct acute a...
Bottom sediments around the world store large amounts of legacy hydrophobic organic contaminants (HO...