J Dolfing
Overview
Explore the profile of J Dolfing including associated specialties, affiliations and a list of published articles.
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Snapshot
Articles
34
Citations
399
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0
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Recent Articles
1.
Heidrich E, Dolfing J, Wade M, Sloan W, Quince C, Curtis T
Bioelectrochemistry
. 2017 Sep;
119:43-50.
PMID: 28910698
The factors that affect microbial community assembly and its effects on the performance of bioelectrochemical systems are poorly understood. Sixteen microbial fuel cell (MFC) reactors were set up to test...
2.
Wade M, Pattinson R, Parker N, Dolfing J
J Theor Biol
. 2015 Nov;
389:171-86.
PMID: 26551153
Anaerobic digestion enables the water industry to treat wastewater as a resource for generating energy and recovering valuable by-products. The complexity of the anaerobic digestion process has motivated the development...
3.
Zevenhuizen L, Dolfing J, Eshuis E, Scholten-Koerselman I
Microb Ecol
. 2013 Nov;
5(2):139-46.
PMID: 24232421
Cu(2+) ion determinations were carried out in complex and in inorganic salts-glycerol media, to which increasing amounts of Cu(II) had been added, with the ion-specific Cu(II)-Selectrode. Likewise, complexing capacity of...
4.
Ahammad S, Bereslawski J, Dolfing J, Mota C, Graham D
Bioresour Technol
. 2013 May;
139:73-9.
PMID: 23639409
Personal care product (PCP) industry liquid wastes contain shampoo residues, which are usually treated by aerobic activated sludge (AS). Unfortunately, AS is expensive for PCP wastes because of high aeration...
5.
Ahammad S, Zealand A, Dolfing J, Mota C, Armstrong D, Graham D
Bioresour Technol
. 2013 Jan;
129:634-8.
PMID: 23294645
Four trickling biofilter designs were assessed as low-energy alternatives to aerobic activated sludge (AS) for the treatment of personal care product industry wastes. The designs included partially submerged packed-media and...
6.
Heidrich E, Dolfing J, Scott K, Edwards S, Jones C, Curtis T
Appl Microbiol Biotechnol
. 2012 Oct;
97(15):6979-89.
PMID: 23053105
Addressing the need to recover energy from the treatment of domestic wastewater, a 120-L microbial electrolysis cell was operated on site in Northern England, using raw domestic wastewater to produce...
7.
Ahammad S, Yakubu A, Dolfing J, Mota C, Graham D
Water Sci Technol
. 2012 Jan;
65(2):303-8.
PMID: 22233909
Wastes from the personal care product (PCP) industry are often high in biodegradable carbon, which makes them amenable to aerobic biological treatment, although process costs are usually high due to...
8.
Beurskens J, Dekker C, van den Heuvel H, Swart M, De Wolf J, Dolfing J
Environ Sci Technol
. 2011 Dec;
28(4):701-6.
PMID: 22196556
No abstract available.
9.
Heidrich E, Curtis T, Dolfing J
Environ Sci Technol
. 2010 Dec;
45(2):827-32.
PMID: 21142001
The wastewater industry is facing a paradigm shift, learning to view domestic wastewater not as a waste stream which needs to be disposed of but as a resource from which...
10.
Gray N, Sherry A, Hubert C, Dolfing J, Head I
Adv Appl Microbiol
. 2010 Jul;
72:137-61.
PMID: 20602990
Hydrocarbons are common constituents of surface, shallow, and deep-subsurface environments. Under anaerobic conditions, hydrocarbons can be degraded to methane by methanogenic microbial consortia. This degradation process is widespread in the...