Clean Techn Environ Policy
 2008
DOI: 10.1007/s10098-008-0180-5
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A contribution to global sustainable development: inclusion of microalgae and their biomass in production and bio cycles

Armen B. Avagyan1
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Cited by 50 publications
(29 citation statements)
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“…Fácil cultivo, crecen en diferentes condiciones ambientales ya que solo necesitan luz solar y nutrientes, sugiriendo cultivos en zonas no aptas para la agricultura u otras actividades, evitando generar conflictos por uso de suelo [43]. Fijan grandes cantidades de CO2 (1,6-1.8 kg CO2/kg de biomasa seca), lo que permite acoplar su producción para la reducción de gases de efecto invernadero [5] y contribuir al cumplimiento de las metas planteadas para Colombia en la COP21, de reducción del 20% de sus emisiones de GEI con relación a las proyectadas a 2030 [44] Alternativa a la deforestación y altos consumos de agua (huella hídrica azul) causados por el monocultivo de la palma de aceite [45].…”
Section: Materia Prima Sostenibleunclassified

Modelo de negocio para la viabilidad de una empresa de producción y comercialización de biodiésel a partir de la microalga Chlorella en Colombia

Naranjo
1
,
Rodríguez
2
,
Gaviria
3
2018
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“…Fácil cultivo, crecen en diferentes condiciones ambientales ya que solo necesitan luz solar y nutrientes, sugiriendo cultivos en zonas no aptas para la agricultura u otras actividades, evitando generar conflictos por uso de suelo [43]. Fijan grandes cantidades de CO2 (1,6-1.8 kg CO2/kg de biomasa seca), lo que permite acoplar su producción para la reducción de gases de efecto invernadero [5] y contribuir al cumplimiento de las metas planteadas para Colombia en la COP21, de reducción del 20% de sus emisiones de GEI con relación a las proyectadas a 2030 [44] Alternativa a la deforestación y altos consumos de agua (huella hídrica azul) causados por el monocultivo de la palma de aceite [45].…”
Section: Materia Prima Sostenibleunclassified

Modelo de negocio para la viabilidad de una empresa de producción y comercialización de biodiésel a partir de la microalga Chlorella en Colombia

Naranjo
1
,
Rodríguez
2
,
Gaviria
3
2018
RevTec
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0
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“…When coupled with CO 2 producing industries, such as coal-fired power plants, microalgal cultivation has the potential to beneficially use the waste CO 2 produced from the overall system (Avagyan, 2008;Carvalho et al, 2006;Kunjapur and Eldridge, 2010;Mata et al, 2010). Since microalgae can tolerate high-CO 2 concentrations, their biomass production can utilize CO 2 from flue 0960-8524/$ -see front matter Ó 2011 Elsevier Ltd. All rights reserved.…”
Section: Introductionmentioning
confidence: 98%

Evaluating industrial symbiosis and algae cultivation from a life cycle perspective

Soratana
1
,
Landis
2
2011
Bioresource Technology
100
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38
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“…They have showed great potential for wastewater treatment and carbon dioxide mitigation (Doucha et al, 2005;Soletto et al, 2008;Wang et al, 2008), while producing novel biomass with higher yield potentials (up to 50 tons dry weight per ha per year in North-West Europe; Wijffels, 2008) and lower water demand than terrestrial biomass (Gouveia and Oliveira, 2009;Posten and Schaub, 2009). Microalgal biomass applications are numerous (Loutseti et al, 2009;Spolaore et al, 2006) and can contribute in the development of more integrated and cost-efficient environmental technologies (Avagyan, 2008;Gronlund et al, 2004;Rittmann, 2008) such as wastewater treatment.…”
Section: Introductionmentioning
confidence: 99%

Microalgal bacterial floc properties are improved by a balanced inorganic/organic carbon ratio

Hende
1
,
Vervaeren
2
,
Saveyn
3
et al. 2010
Biotech & Bioengineering
76
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