Add to ORKGAbstract This study investigated metal removal efficiency of natural (N peat) and HCl treated peat (HCl peat) using batch sorption tests with real mining wastewaters. FTIR and XPS studies revealed that peat modification did not alter the structure of the sorbent. HCl peat exhihited higher maximum metal uptake capacity (22.4 mg Ni/g) than N peat (17.9 mg Ni/g). Sorbents removed arsenic most efficiently (80%, dosage 1 g/L). Optimum contact times ranged between 30–60 min. Our study revealed that although HCl peat had better settling properties, N peat displayed overall better purification performance, representing thus the most cost-effective and sustainable option
The report informs of a possibility to use natural humic-based sorbent in order to remove toxic meta...
Adsorption function and capacities, for heavy metals and selected hydrocarbons, of several low-cost ...
There is an increasing interest in the development of in situ methods of contaminated soil and groun...
The development of the mining industry has led to an increase in the environmental impacts generated...
Abstract Peat is an excellent material for metal sorption since it naturally contains different kin...
Peat is a candidate filter material for in situ treatment of urban runoff, contaminated groundwater ...
This study aimed at combining iron and peat to produce a sorbent suitable for a simultaneous removal...
Metal adsorption and surface charge determinations were performed previously on well-characterised S...
Abstract Numerous studies have examined the performance of mineral and biomass-based sorbents for m...
This study firstly aimed to investigate the potential of simultaneous metal (loid) removal from meta...
Among the various wastewater treatment technologies, the sorption process is considered better becau...
International audiencePeat moss, a natural inexpensive material, is able to play an important rrle i...
In Sweden due to the industrial activities, such as wood impregnation, multiple point sources of ars...
Leachate is generated by the action of water on the solid wastes deposited in sanitary landfills or ...
AbstractAnalysis was carried out to determine the physicochemical characteristics – morphological an...
The report informs of a possibility to use natural humic-based sorbent in order to remove toxic meta...
Adsorption function and capacities, for heavy metals and selected hydrocarbons, of several low-cost ...
There is an increasing interest in the development of in situ methods of contaminated soil and groun...
The development of the mining industry has led to an increase in the environmental impacts generated...
Abstract Peat is an excellent material for metal sorption since it naturally contains different kin...
Peat is a candidate filter material for in situ treatment of urban runoff, contaminated groundwater ...
This study aimed at combining iron and peat to produce a sorbent suitable for a simultaneous removal...
Metal adsorption and surface charge determinations were performed previously on well-characterised S...
Abstract Numerous studies have examined the performance of mineral and biomass-based sorbents for m...
This study firstly aimed to investigate the potential of simultaneous metal (loid) removal from meta...
Among the various wastewater treatment technologies, the sorption process is considered better becau...
International audiencePeat moss, a natural inexpensive material, is able to play an important rrle i...
In Sweden due to the industrial activities, such as wood impregnation, multiple point sources of ars...
Leachate is generated by the action of water on the solid wastes deposited in sanitary landfills or ...
AbstractAnalysis was carried out to determine the physicochemical characteristics – morphological an...
The report informs of a possibility to use natural humic-based sorbent in order to remove toxic meta...
Adsorption function and capacities, for heavy metals and selected hydrocarbons, of several low-cost ...
There is an increasing interest in the development of in situ methods of contaminated soil and groun...