... biodiesel production: a comparison of di.erent homogeneous catalysts systems. Bioresour. Technol. 92, 297–305 (2004). [6] Minowa, T., Yokoyama, S.Y., Kishimoto, M., Okakurat, T. Oil productionfrom ... Species Program—Biodiesel from Algae (1999). [9] Zhu, M. and Zhou, P.P., and Yu, L.J., Extraction of lipids from Mortierella alpina and enrichment of arachidonic acid from the fungal lipids, ... MAKARA, TEKNOLOGI, VOL. 13, NO. 1, APRIL 2009: 47-51 4747LIPID PRODUCTIONFROM MICROALGAE AS A PROMISING CANDIDATE FOR BIODIESEL PRODUCTION Arief Widjaja Department of Chemical Engineering,...
... MAKARA, TEKNOLOGI, VOL. 13, NO. 1, APRIL 2009: 47-51 4747LIPID PRODUCTIONFROM MICROALGAE AS A PROMISING CANDIDATE FOR BIODIESEL PRODUCTION Arief Widjaja Department of Chemical Engineering, ... been suggested as very good candidates for fuel production because of their advantages of higher photosynthetic eficiency, higher biomass production and faster growth compared to other Table ... indicating that the algae recovered from low pH due to exposing at very high CO2 concentration. At this condition, the pH was monitored to increase from about 5 to 6.4 and constant around...
... ethanol, up from 4 billion gallons in 2004. Production of ethanol in Brazil utilizes sugar and molasses from sugarcane as a primary feedstock. In addition to Brazil, production of ethanol from sugarcane ... million acres in 2005. Yield per acre increased from 46.3 10Table 8. U.S. beet and cane production, 1980/81 – 2005/06 Total sugar production Share of production Crop Year Beet Cane Total Beet ... the energy used in the production of ethanol from corn. In order to estimate the costs of processing raw and refined 1The Economic Feasibility Of Ethanol ProductionFrom Sugar In The United...
... sugar production. All of Brazil’s sugar production is from sugarcane. The European Union, the world’s leading sugar beet producer, is ranked second with 21.233 million metric tons of sugar production. ... are used in the production of sorghum. Total production of sorghum increased from 579 million bushels in 1980 to a record high of over one billion bushels in 1985. Sorghum production declined ... ethanol production. For this report, production and processing costs of sugarcane and sugar beets were updated from published USDA estimates in order to estimate the cost of producing ethanol from...
... hydrolysis. Energy Biomass Wastes 13:1281-93. 16. Green M, Kimchie S, Malester I, Shelef G, Rugg B. 1990b. Ethanol production from municipal solid waste via acid hydrolysis. Energy fromBiomass and ... MSW from green bins In the West Valley MRF and Transfer Station alone, the daily amount of MSW collected from different bins is as high as about 400 tons from blue bins, about 2000 tons from ... from green bins. MSW from blue bins contains recyclables, such as paper, cardboard, plastic, glass and cans, while that from green bins contains grass and woody wastes. Comparing with MSW from...
... fuelsourcebeginstoreflectvariouseconomicfactorsdifferentlyas biomass cropsforenergy production arctakenunderconsideration.Ethanol production from plant biomass isbeing slutlicc.f I:xlcnsivclybyvariousrc-searchlaboratoriesthroughouttheworld.BellamyHandBrookset ... basicconsiderationsinsearchofmicroorganisms with potential for microbial production of methanol. Noattemptwill bemadetodiscuss the voluminous literature relative to the microbial production of methanol. Since petroleum feedstocks ... asanintermediateinchemicalmanufacture. Methanol canbeproduced by the destructive distillationofwood: however, most methanol isderived from carbonmonoxide with hydrogen reaction.,.Innature. meth-anol arises from thebreakdownofmethyl...
... developed to produce methanolfrom various sources, the most recent being from conversion of naturalgas or coal. Traditionally, the primary uses of methanol have been for chemical production, as either ... IndustryApplications of methanol in the energy industry may be via four approaches: methanol- to-gasoline conversion, methanol to MTBE forreformulated gasoline, neat methanol or methanol blends as ... methanol and oxygenates provide ample opportunities and challenges for business and research and development.1.5.1 Production of Methanol Global methanol demand will increase about 8%/year from...
... increased from 77.49% to 90.59% when the molar ratiowas increased from 6:1 to 14:1. However, beyond the molarratio of14:1,the excessivelyaddedmethanol had nosignificanteffect on the production ... increase of methanol content. Therefore, wecould concludethatto elevatethe biodiesel productionyield anexcess methanol feed was effective to a certain extent and theoptimum molar ratio of methanol ... heterogeneousWO3/ZrO2catalyst for production of biodiesel. BioresourTechnol 2010;101:S59e61.[10] Lou WY, Zong MH, Duan ZQ. Efficient production of biodiesel from high free fatty acid-containing...
... acid from milk permeate in anaero-bic thermophilic fermentation was demonstratedwith a mixed culture of C. thermolacticum andM. thermoautotrophica;the former for lactic acid production from ... foracetic acid productionfrom lactic acid. In batchculture experiments without pH control, an ac-etate yield of 4.83 mol per mol lactose fermentedwas obtained. The overall acetate yield from lac-tose ... hyperther-mophilic obligate anaerobic bacteria from extraction juicesof beet sugar factories. Int. Sugar J. 75, 237–241; 271–275.Huang, Y., Yang, S.T., 1998. Acetate productionfrom wheylactose using co-immobilized...
... Aldrich Cat# B103500 - ≥99%Butanol: Sigma Aldrich Cat# 360465 - ACS reagent, ≥99.4% Butanol Productionfrom Clostridia FermentationDavid L. HansonChem 4101December 9, 2011 Studies Needed to ... and measure butanol concentration over time to determine if production is stable and continuous. Problem: Currently, butanol production is a discontinuous process. The acetic acid and butyric ... acids are then reintroduced to restart the process. This discontinuity adds to the high cost of production. Hypothesis: By determining the individual rates at which the carboxylic acids are utilized...
... K., 2006. An overview of hydrogen production from biomass. Fuel Processing Technology 87, 461–472.Nigam, P.S., Singh, A., 2010. Production of liquid biofuels from renewable resources.Progress ... biomass- de-rived syngas. In general, hydrogen can be produced from biomass by different routes, such as gasification, hydrogen from biomass- derived methanol and ethanol via steam reforming (Milne et al.,2002; ... catalyticcracking. For catalysts used for hydrogen frombiomass pyrolysisoil, Ni-based catalysts were favored in hydrogen production from biomass- derived pyrolysis oil (Milne et al., 2002; Ni...
... in production of bioethanol from lignocellulosic biomass. Chem. Eng. Technol., 32: 517-526. DOI: 10.1002/ceat.200800442 Latif, F. and B.I. Rajoka, 2001. Production of ethanol and xylitol from ... Invensys, equipment donation from Falcon Engineering (Pty) Ltd, South Africa, raw material supply from SABMiller of Alrode, South Africa and moral and technical support from John Cluett of IBD ... bioethanol production. Enzyme Microb. Technol., 43: 120-123. DOI: 10.1016/j.enzmictec.2008.02.007 Cao, N.J., M.S. Krishnan, J.X. Du, C.S. Gong and N.W.Y. Ho et al., 1996. Ethanol production from...
... Dale / Biomass and Bioenergy 26 (2004) 361–375 369Table 11Regional potential bioethanol productionfrom wasted rice grain and rice strawPotential bioethanol production (GL) From wasted From ... 1.48Table 13Regional potential bioethanol productionfrom wasted wheat grain and wheat strawPotential bioethanol production (GL) From wasted From grain From wheat Total bioethanol Gasolinegrain ... 361–375Table 5Regional potential bioethanol productionfrom wasted corn grain and corn stoverPotential bioethanol production (GL) From wasted From grain From corn Total bioethanol Gasolinegrain...