dc.contributor.author |
Chinnasamy, S |
en |
dc.contributor.author |
Bhatnagar, A |
en |
dc.contributor.author |
Hunt, RW |
en |
dc.contributor.author |
Das, KC |
en |
dc.date.accessioned |
2014-06-06T06:49:48Z |
|
dc.date.available |
2014-06-06T06:49:48Z |
|
dc.date.issued |
2010 |
en |
dc.identifier.issn |
09608524 |
en |
dc.identifier.uri |
http://dx.doi.org/10.1016/j.biortech.2009.12.026 |
en |
dc.identifier.uri |
http://62.217.125.90/xmlui/handle/123456789/4792 |
|
dc.subject |
Algae |
en |
dc.subject |
Biodiesel |
en |
dc.subject |
Biofuel |
en |
dc.subject |
Carpet industry wastewater |
en |
dc.subject |
Consortium |
en |
dc.subject.other |
Algal biomass |
en |
dc.subject.other |
Algal oil |
en |
dc.subject.other |
Biodiesel production |
en |
dc.subject.other |
Biomass productions |
en |
dc.subject.other |
Carpet industry wastewater |
en |
dc.subject.other |
Consortium |
en |
dc.subject.other |
Fresh Water |
en |
dc.subject.other |
Lipid content |
en |
dc.subject.other |
Marine algae |
en |
dc.subject.other |
Micro-algae |
en |
dc.subject.other |
Microalgae cultivation |
en |
dc.subject.other |
Mill effluents |
en |
dc.subject.other |
Municipal sewage |
en |
dc.subject.other |
Municipal wastewaters |
en |
dc.subject.other |
Nutrient removal |
en |
dc.subject.other |
Potential resources |
en |
dc.subject.other |
Treated wastewater |
en |
dc.subject.other |
Algae |
en |
dc.subject.other |
Anaerobic digestion |
en |
dc.subject.other |
Biochemical oxygen demand |
en |
dc.subject.other |
Biodiesel |
en |
dc.subject.other |
Microorganisms |
en |
dc.subject.other |
Sewage |
en |
dc.subject.other |
Textile industry |
en |
dc.subject.other |
Wastewater |
en |
dc.subject.other |
Wastewater treatment |
en |
dc.subject.other |
Effluents |
en |
dc.subject.other |
biodiesel |
en |
dc.subject.other |
fresh water |
en |
dc.subject.other |
industrial effluent |
en |
dc.subject.other |
anoxic conditions |
en |
dc.subject.other |
biofuel |
en |
dc.subject.other |
biomass |
en |
dc.subject.other |
cultivation |
en |
dc.subject.other |
digestion |
en |
dc.subject.other |
effluent |
en |
dc.subject.other |
lipid |
en |
dc.subject.other |
microalga |
en |
dc.subject.other |
mill |
en |
dc.subject.other |
textile industry |
en |
dc.subject.other |
wastewater |
en |
dc.subject.other |
algal growth |
en |
dc.subject.other |
anaerobic metabolism |
en |
dc.subject.other |
article |
en |
dc.subject.other |
biofuel production |
en |
dc.subject.other |
biomass production |
en |
dc.subject.other |
chemical modification |
en |
dc.subject.other |
controlled study |
en |
dc.subject.other |
freshwater species |
en |
dc.subject.other |
lipid composition |
en |
dc.subject.other |
liquefaction |
en |
dc.subject.other |
marine species |
en |
dc.subject.other |
microalga |
en |
dc.subject.other |
nonhuman |
en |
dc.subject.other |
priority journal |
en |
dc.subject.other |
seasonal variation |
en |
dc.subject.other |
sewage |
en |
dc.subject.other |
species cultivation |
en |
dc.subject.other |
strain difference |
en |
dc.subject.other |
textile industry |
en |
dc.subject.other |
waste water management |
en |
dc.subject.other |
waste water recycling |
en |
dc.subject.other |
Algae |
en |
dc.subject.other |
Biodegradation, Environmental |
en |
dc.subject.other |
Biodiversity |
en |
dc.subject.other |
Biofuels |
en |
dc.subject.other |
Biomass |
en |
dc.subject.other |
Carbon Dioxide |
en |
dc.subject.other |
Fatty Acids |
en |
dc.subject.other |
Floors and Floorcoverings |
en |
dc.subject.other |
Industrial Waste |
en |
dc.subject.other |
Oils |
en |
dc.subject.other |
Seasons |
en |
dc.subject.other |
Temperature |
en |
dc.subject.other |
Waste Disposal, Fluid |
en |
dc.subject.other |
algae |
en |
dc.title |
Microalgae cultivation in a wastewater dominated by carpet mill effluents for biofuel applications |
en |
heal.type |
journalArticle |
en |
heal.identifier.primary |
10.1016/j.biortech.2009.12.026 |
en |
heal.publicationDate |
2010 |
en |
heal.abstract |
Industrial and municipal wastewaters are potential resources for production of microalgae biofuels. Dalton - the Carpet Capital of the World generates 100-115 million L of wastewater d-1. A study was conducted using a wastewater containing 85-90% carpet industry effluents with 10-15% municipal sewage, to evaluate the feasibility of algal biomass and biodiesel production. Native algal strains were isolated from carpet wastewater. Preliminary growth studies indicated both fresh water and marine algae showed good growth in wastewaters. A consortium of 15 native algal isolates showed >96% nutrient removal in treated wastewater. Biomass production potential and lipid content of this consortium cultivated in treated wastewater were ∼9.2-17.8 tons ha-1 year-1 and 6.82%, respectively. About 63.9% of algal oil obtained from the consortium could be converted into biodiesel. However further studies on anaerobic digestion and thermochemical liquefaction are required to make this consortium approach economically viable for producing algae biofuels. |
en |
heal.journalName |
Bioresource Technology |
en |
dc.identifier.issue |
9 |
en |
dc.identifier.volume |
101 |
en |
dc.identifier.doi |
10.1016/j.biortech.2009.12.026 |
en |
dc.identifier.spage |
3097 |
en |
dc.identifier.epage |
3105 |
en |