BIODEGALAI

Straipsniai ir leidiniai apie biodegalus          Straipsniai, esantys EBSCOhost duomenų bazėse

Biodegalai – tai iš biomasės gaunamas skystasis kuras. Tokio tipo kuras gali būti gaminamas iš augalų, tam tikros rūšies grūdų, perdirbto ar panaudoto augalinio aliejaus. Pagrindiniai biodegalai yra biodyzelinas (skirtas dyzeliniams varikliams) ir bioetanolis (skirtas benzininiams varikliams). Šių tipų degalai gali būti naudojami tiek lengvosioms tiek ir sunkiosioms transporto priemonėms.

Pagrindinės priežastys skatinančios biodegalų panaudojimą:

·         Indėlis į energijos tiekimo saugumą;

·         Indėlis į šiltnamio efektą sukeliančių dujų išmetimų mažinimą;

·         Platesnis atsinaujinančios energijos naudojimas;

·         Naujų rinkų plėtra žemės ūkyje

 

 Straipsniai ir leidiniai apie biodegalus

  • Future cars : bio fuel, hybrid, electric, hydrogen, fuel economy in all sizes and shapes : Bio-Treibstoff, Hybrid, Elektro, Wasserstoff, Sparsame Autos in allen Klassen und Formen / U.Bethscheider-Kieser. - Ludwigsburg : Avedition, 2008. - 168 p. : iliustr. - (Green designed). - Gretut. tekstas angl., vok.

  • Invention and transfer of environmental technologies : Organisation for Economic Co-operation and Development. - Paris : OECD, 2011. - 233 p. : iliustr. - (OECD studies on environmental innovation). - Bibliogr. skyrių gale.

  • Experimental investigation on biogas production using hen manure, fruits ane vegetables / Pranas Baltrenas, Mindaugas Kvasauskas, Arnold Yu. Waldberg. - Schem., graf. - Bibliogr.: 13 pavad. // Environmental engineering. - Vilnius : Technika, 2008. - Vol. 1, p. 51-56.

  • Production and use of biofuel in Lithuania / Vladimir Liubarskij, Vytautas Kučinskas. - Graf. - Santr. rus. - Bibliogr.: 7 pavad. // Development of agricultural technologies and technical means in ecological and energetic aspects : 14-15 September 2006. - 2006., p. 200-205. – (Proceedings of the international conference; No. 11)

 

Straipsniai, esantys EBSCOhost duomenų bazėse

  • Halim, A. K. A; Jaafar, M. N. M.; Ishak, M. S. A. Bio-Fuel Atomizer Design for Micro-Gas Turbine. International Review of Mechanical Engineering; May 1, 2011, Vol. 5, No. 4, p712-716, 5p.

  • Acharya, S. K.; Mishra, A. K.; Rath, M.; Nayak, C. Performance Analysis of Karanja and Kusum Oils as Alternative Bio-Diesel Fuel in Diesel Engine. International Journal of Agricultural & Biological Engineering; June 1, 2011, Vol. 4, No. 2, p23-28, 6p.

  • Dautzenberg, G.; Garhardt, M.; Kamm, B. Bio Based Fuels and Fuel Additives from Lignocellulose Feedstock Via the Production of Levulinic Acid and Furfural. Holzforschung: International Journal of the Biology, Chemistry, Physics, & Technology of Wood; June 1, 2011, Vol. 65, p439-451, 13p.

  • Vidosh, M.; Praksh, V.; Alok, Ch. Impacts of Bio-Fuel Use: A Review. International Journal of Engineering Science & Technology; May 1, 2011, Vol. 3, No. 2, p3776-3782, 7p.

  • Prabhahar, M.; Sendivelan, S.; Manohar, M. An Experimental Investigation of Thermal Behavior of Engine Fueled with Diesel and Bio-Diesel Blends B20N and B80N. Indian Streams Research Journal; April 1, 2012, Vol. 2, 5p.

  • Ntihuga, J. N.; Senn, T.; Gschwind, P.; Kohlux, R. Estimating Energy – and Eco-Balances for Continuous Bio-Ethanol Production Using a Blenke Cascade System. Energies; April 1, 2013, Vol. 6, p2065-2083, 19p.

  • Misron, N.; Rizuan, S.; Vaithilingam, A.; Mailah, N. F.; Tsuyoshi, H.; Hiroaki, Y.; Yoshihito, S. Performance Improvement of a Portale Electric Generator Using an Optimized Bio-Fuel Ramio in a Single Cylinder Two-Stroke Engine. Energines; November 1, 2011, Vol. 4, p1937-1949, 13p.

  • Hossain, A. M. B. S.; Al-saif, A. M. Biodiesel Fuel Production from Soybean Oil Waste as Agricultural Bio-Resource. Australian Journal of Crop Science; September 1, 2010, Vol. 4, No. 7, p538-542, 5p.

  • Kochetkov, Y. Yurkovskaya, T. Prospects of Bio Fuel Branch Development in Latvia. Economics & Management; August 1, 2010, p110-117, 8p.

  • Tsanaktsidis, C. G. Aptimizing the Physical-Chemical Properties of Diesel Fuel by Introducing Bio-Organic Compounds. Chemistry & Technology of Fuels & OIls; July 1, 2011, Vol. 47, No. 3, p209-211, 4p.

  • Sadat Ali, M.; Ramana Rao, P. S. V.; Gopinath, C. V. A Comparative Study of Engine Performance by Using Different Bio-Fuels. European Journal of Scientific Research; August 1, 2008, Vol. 21, No. 2, p365-375, 11p.

  • Žiliukas, A.; Diliūnas, S.; Jutas, A.; Augutis, S. V.; Ramanauskas, R. On the Strength Problem in Chain Elelments Overloaded During Maintenance of Bio-Fuel Conveyor. Mechanika; November 1, 2012, Vol. 18, No. 6, p624-631, 8p.

  • Weerachanchai, P. Tangsathikulchai, C.;  Tangsathikulchai, M. Phase Behaviors and Fuel Properties of Bio-Oil-Diesel-Alcohol Blends. World Academy of Sceince, Engineering & Technology; August 1, 2009, p387-393, 8p.

  • Doss, A.; Troxel, S.; Sumrall. B. Energy Economics: A Benefit-Cost Consideration of Corn-Based Ethanol and Bio-Fuel. Journal of Business & Economics Research; May 1, 2010, Vol. 8, No. 5, p105-113, 9p.