Energy analysis in oilseed processing industry

• Autorzy: Drozdz B.

Warianty tytułu

PL

Efektywnosc zuzycia energii w przetwarzaniu nasion oleistych

• Języki publikacji: EN

Abstrakty

EN

PL

Słowa kluczowe

EN

oilseed plant; processing plant; raw material processing; energy efficiency; energy consumption; thermal energy; production cost; production plant; energy carrier; processing industry; empirical model

• Wydawca: -
• Czasopismo: Teka Komisji Motoryzacji i Energetyki Rolnictwa
• Rocznik: 2010
• Tom: 10
• Opis fizyczny: p.47-58,fig.,ref.

Twórcy

autor

Drozdz B.

• Faculty of Production Engineering, Warsaw University of Life Sciences - SGGW, Nowoursynowska 166, 02-787 Warsaw, Poland

Bibliografia

• Adolfson W.F. 1982.: Photovoltaic off-farm agricultural applications. Vol. III. Tech. Rep. SAND 81-7155ЛП. Preparedfor Sandia National Laboratories, Albuquerque, NM, 645 pp.
• Bargale PC, Foni R. J, Wulfsohn D, Imdayaraj J, Sosulski F.W. 1999.: Measurement of Consolidation and Permeability Properties of Extruded Soy under Mechanical Pressing. Journal of Agricultural Engineering Research, 74,155-165.
• Batchelor S. E, Booth E. J., Walker K. C. 1995.: Eneigy anales of rape methyl ester (RME) production from winter oilseedrape. Industrial Crops and Products, 4, 193-202.
• Bystram K. 1986.: Ocena energochłonności produkcji w pizemjsle spożywczym. Branża olejarska. IBMER, Warszawa (in Polish).
• Calisir S , Marakoglu Т., Ogut H., OzturkO. 2005.: Phjisical properties of rapeseed (Brassica napus oleifera L.). Joumal of Food Engineering, 69, 61-66.
• Celrna A. R,Rojas S, Lopez F, IvbnteroL, Miranda Т. 2007.: ТЫЫа^г drying behavior of sludge of olive oil extraction. Joumal of Food Engineering, 80, 1261-1271.
• Dmitreva, Т. V, Sirovatka L. A, Bortriitskii V. I. 2004.: Effect of ultrasound on the properties of the rapeseed oil - monoethanolamine Sutern. Chemistry and Technology of Fuels and Oils, Vol. 40, 6, 392-396.
• Dróżdż В, Wojdalski J. 2001.: Effect of selected technical and technological factors on eneigy consumption in the oil seed processing plants. Annals of Warsaw Agricultural University Agriculture (Agricultural Engineering), Warsaw, 40, 59-66 (in Polish).
• Dróżdż В, Wojdalski J. 2003.: Uwarunkowania gospodarki energetycznej zakładów przetwórstwa nasion oleistych. Inżynieria Rolnicza, 8 (50), 117-124 (in Polish).
• Dufaure С, Ivbuloungui Z, RigalL. A. 1999a.: A Twin-Screw Extruder for Oil Extraction: I. Direct Expression of Oleic Sunflower Seeds. JAOCS, vol. 76, 9,1073-1079.
• Dufaure C,MoulounguiZ, RigalL. A. 1999b.: Twin-Screw Extruder for Oil Extraction: II. Alcohol
• Extraction of Oleic Sunflower Seeds. JAOCS, vol. 76,9, 1081-1086. Evangelista R. L, Cermak S C. 2007.: Full-press oil extraction of Cuphea (PSR23) seeds. J.Am. Oil Chem.Soc, 84,1169-1175.
• Gudeijan M, Elez-Martmez P, Knorr D. 2007.: Application of pulsed electric fields at oil yield and content of functional food ingredients at the production of rapeseed oil. Innovative Food Science and Emerging Technologies, 8, 55-62.
• Harne 1 B.B. 1979.: Energy analysis of 108 industrial processes. Department of Mechanical Engineering. Drexel University: Philadelphia, PA. Cited in Adolfson (1982).
• Jóźwiak D., Szlęk A. 2006.: Ctena oleju rzepakowego jako paliwa kotłowego. Energetyka i Ekologia, 6, 449-451 (in Polish).
• Kachel-Jakubowska M. 2009.: Influence of acid number and peroxide number content on the quality rape seeds for consumption andbiofuel industry TEKA Kom. Mot. Energ.Roln., 9,114-120.
• Kartika A., Pontalier P. Y., Rigal L. 2006.: Extraction of sunflower oil by twin screw extruder: Scre w configuration and operating condition effects.Bioresource Technology, 97, 2302-2310.
• Neryng A., Wojdalski J., Budny J., Krasowski E. 1990.: Energia i woda w przemyśle rolno-spożywczym. WNT, Warszawa, 17- 41,196 - 199 (in Polish).
• Niedziółka I., Zuchniarz A., 2006.: Analiza eneigetyczra wybranych rodzaj ów biomasy pchodzenia roślinne go. MOTROL, Motoryzacja i Energetyka Rolnictwa. Tom 8 A. Liblin, 232-237 (in Polish).
• Niewiadomski H. 1993: Technologia tłuszczów jadalnych. WNT, Warszawa (in Polish).
• Okoye С. N, Jiang J., HuiL. Y. 2008.: Design and development of secondary controlled industrial palm kernel nut vegetable oil expeller plant for energy saving and recuperation. Journal of Food Engineering, 87, 578-590.
• Omobuwajo Т. O., Ige M. Т., Ajayi A. O. 1999.: Theoretical Prediction of Extrusion Pressure and Oil Flow Rate During Screw Expeller Processing of Palm Kernel Seeds. Journal of Food Engineering, 38, 469^185.
• Osiak J., Wojdalski J. 2006.: Wybrane technologiczno-energetyczne aspekty tłoczenia nasion lnu (Linum usitatissimum). Postępy Techniki Przetwórstwa Spożywczego, 2, 30-31 (in Polish).
• Owclarafe O. K, Faborode M. O., AjibolaO. O. 2002.: Comparative evaluation of the digester-screw press and a hand-operated hydraulic press for palm fruit processing. Journal of Food Engineering, 52, 249-255.
• Oyinlola A., Ojo A., Adekoya L. O. 2004.: Development of a laboratory model screw press for peanut oil expression. Journal of Food Engineering, 64, 221-227.
• Panasiewicz M, Ivbzur J., Zawiślak К., Sobczak P. 2009.: An influence of preliminary rapeseed processing on oil extrusion. TEKA Kom. Mot. Energ. Roln., 9, 217 - 222.
• Raj i A. O., Favier J. F. 2004.: Model for the de formation in agricultural and food partie ulate materials under bulk compressive loading using discrete element method. II: Compression of oilseeds. Journal of Food Engineering, 64, 373-380.
• Rosiński M, Furtak L., Luksa A., Stępień A., 2006.: Vfykorzystanie olejów roślinnych i urządzeń do spalania w procesach suszamiczych. MOTROL, Motoryzacja i Energetyka Rolnictwa. Tom 8A. Lublin, 243-250 (in Polish).
• Rosenthal A., Pyle D. L., NiranjanK. 1966.: Aqueous and enzymatic processes for edible oil extraction. Enzyme arid Microbial Technology vol. 19, 402-420.
• Shkatov A., Goiberiko E., Veremeeriko N., Strel'cov V. 2008.: Универеальный способ производства растительных масел. MOTROL, 10В, 156-161 (in Ukrainian).
• Singh J., Baigale P. C. 2000.: Development of a small capacity double stage compression screw press for oil expression. Journal of Food Engineering, 43, 75-82.
• Sobczuk H., Tys J. 2004.: Analiza procesu ściskania nasion rzepaku w teście olejowym. Acta Ag-ro physic a, 4 (2), 547-555 (m Fblish).
• Teixeira, M. A. 2005.: Heat and power demands inbabassu palm oil extraction industry in Brazil. Energy Conversion and Ivknagement, 46, 2068-2074.
• Vadke V. S, Sosulski F.W., Shook C.A. 1988.: Mathematical Simulation of an Oilseed Press. JA-OCS, Vol. 65,10, 1610-1616.
• Wcisło G, 2005.: Determination of rapeseed oils combustion heat in calorimeter bomband an assesment of the heat value. TEKA Kom. Mot. Energ. Roln, 5, 233-239.
• Wcisło G. 2006.: Application of the cold stamping method for rapeseed oil extraction. TEKA Kom. Mot. Eneig. Rob, 6,175-181.
• Willems R, KuipersN. J. M, De Haan А. В. 2008.: Gas assisted mechanical expresáon of oilseeds: Influence of process parameters on oil yield. The Journal of Supercritical Fluids, 45,298-305.
• Wojdalski J, Dróżdż В. 2006.: Podstawy analizy eneigochłonności produkcji zakładów przemysłu rolno-spożywczego. MDTROL, Ivbtor^acjai Energetyka Rolnictwa. Tom 8A. Lublin, 294-304 (in Polish).
• WS Atkins Int. 1998.: Ochrona środowiska w przemyśle rolno-spożywczym. Standardy środowiskowi?. FAPA, Warszawa, 37-41,78,82, 85,87, 105 (in Polish).
• Zhang Z. S, Wiesenbom D, Tostenson K, Kangas N. 2008.: Ultrasound-assisted extraction of oil from flaxseed. Separation and Purification Technology 62,192-198.
• Zheng Y. L, Wang L.J, Li D, Jiao S.S. ChenX.D. 2005.: Eneigy analysis in the screwpreasing of whole and dehulled flaxseed. Journal of Food Engineering, 66,193-202.