Pepsin
发表于 2025-3-23 13:40:33
Miroslav Kulich,Petr ŠtŐpán,Libor Přeučil. 2015; Rawat et al. 2011). They require mainly sunlight, CO., nitrogen and phosphorus and microelements for photosynthesis and growth. Algae are the largest group of primary producers and contribute approximately 32% in the overall global photosynthesis (Priyadarshani et al. 2011). The term phycore
温顺
发表于 2025-3-23 17:26:20
I. P. Tatsiopoulos,N. D. Mekrasharvesting system still have challenges to be addressed to make it implementable in large as an energy efficient process. This chapter discusses about different cultivation and harvesting processes with their advantages and drawbacks. There are many approaches for cultivation like open pond and clos
卧虎藏龙
发表于 2025-3-23 20:29:33
Giovanni V. Guardalben,Hi. T. Srlrnative technology, which not only fulfils the energy requisites but also look after the cost-effectiveness and environmental safety. Biofuel production, from several organic substrates or biomass, is one such technology which has recently gained importance. Algae are simple micro-organisms which ha
Indecisive
发表于 2025-3-23 22:22:51
María Pérez,Ismael Sanz,Rafael Berlangatheir pilot scale applicability is yet to achieve economic sustainability and overcome several technical issues for realizing their true potentials. This chapter outlines some of the key issues during various stages of upstream as well as downstream processing for algal biofuel generation. It starts
Relinquish
发表于 2025-3-24 04:57:10
http://reply.papertrans.cn/16/1525/152402/152402_15.png
atrophy
发表于 2025-3-24 10:36:08
Conjunctive Query Optimization in OWL2-DL received with considerable interest, the technology posed severe economic challenges. Therefore, commercialization of algal fuels has not yet been achieved. However, rising petroleum prices make it worthwhile to focus on algal lipids to meet energy demands. Some of the major impediments to the comm
Gene408
发表于 2025-3-24 12:52:09
Carlos Ordonez,Ladjel Bellatrechee, non-edible oils, animal fats, and microalgal lipids (Ma and Hanna 1999; Sharma et al. 2008). Fast growth rates and high lipid accumulation have proven microalgae as a promising feedstock for biodiesel production (Chisti 2007; Rawat et al. 2013). Catalytic conversion of feedstock oil to fatty acid
过份艳丽
发表于 2025-3-24 17:02:05
Rao Casturi,Rajshekhar Sunderramanlly sound option for promoting renewable and sustainable source of energy. Algae efficiently convert solar energy into biomass and therefore they can be a potential feedstock for biomethanation process. Utilizing algal feedstock has numerous benefits associated with it like they involve high energy
magnate
发表于 2025-3-24 21:24:39
Rao Casturi,Rajshekhar Sunderramanand does not produce harmful emissions, when burned. Biological hydrogen production has been carried out largely using microalgae and bacteria (dark fermentation). Microalgae can generate hydrogen either by biophotolysis of water or through photofermentation. Two enzymes, viz., hydrogenase and nitro
doxazosin
发表于 2025-3-25 01:38:04
http://reply.papertrans.cn/16/1525/152402/152402_20.png