Agriculture Reference
In-Depth Information
58. Sogaard HT, Sorensen CG (2004) A model for optimal selection of machinery sizes within
the farm machinery system. Biosyst Eng 89(1):13-28
59. Glen JJ (1987) Mathematical model in farm planning: a survey. Oper Res 35(5):641-666
60. Francis ME (1996) Cost to produce and deliver switchgrass biomass to an ethanol-conversion
facility in the southern plains of the United States. Biomass Bioenergy 11(6):459-467
61. Duffy M (ed) (2007) Estimated costs for production, storage and transportation of switchgrass.
Iowa State University—University Extension, Ames, IA
62. Schnitkey G (ed) (2003) Estimated costs of crop production in Illinois, 2003. Department of
Agricultural Consumer and Economics, University of Illinois, Urbana, IL: Farm Business
Management, University of Illinois
63. Cundiff JS, Grisso RD, McCullough D (2011) Comparison of baler operations for smaller
production fi elds in the southeast. ASABE Annual International Meeting 2011, Paper Number:
1110922, American Society of Agricultural and Biological Engineers, St. Joseph, MI
64. Venturi P, Gigler J, Huisman W (1999) Economic and technical comparison between
herbaceous (Miscanthus×Giganteus) and woody energy crops (Salix Viminalis). Renew
Energy 16:1023-1026
65. Venturi P, Huisman W, Molenaar J (1998) Mechanization and costs of primary production
chains for Miscanthus × Giganteus in The Netherlands. J Agric Eng Res 69:209-215
66. Camargo GGT, Ryan MR, Richard TL (2013) Energy use and greenhouse gas emissions from
crop production using the farm energy analysis tool. Bioscience 63(4):263-273
67. Rotz CA, Corson MS, Coiner CU (eds) (2007) The integrated farm system model. Pasture
Systems and Watershed Management Research Unit, Agricultural Research Service, United
States Department of Agriculture, Washington DC
68. Matthew TW (2011) The economics and logistics of the dual harvest of grain and biomass in
a single-pass. MS thesis, University of Nebraska, Lincoln, NE
69. Bochtis DD, Dogoulis P, Busato P, Sørensen CG, Berruto R, Gemtos T (2013) A fl ow-shop
problem formulation of biomass handling operations scheduling. Comput Electron Agric
91:49-56
70. Hwang S, Epplin FM, Lee B, Huhnke R (2009) A probabilistic estimate of the frequency of
mowing and baling days available in Oklahoma USA for the harvest of switchgrass for use in
biorefi neries. Biomass Bioenergy 33(8):1037-1045
71. Smeets EM, Lewandowski IM, Faaji AP (2009) The economical and environmental perfor-
mance of Miscanthus and switchgrass production and supply chains in a European setting.
Renew Sust Energ Rev 13(6-7):1230-1245
72. Hess JR, Wright CT, Kenney KL (2007) Cellulosic biomass feedstocks and logistics for etha-
nol production. Biofuels Bioprod Biorefi n 1(3):181-190
73. Kumar A, Sokhansanj S (2007) Switchgrass (Panicum vigratum, L.) delivery to a biorefi nery
using integrated biomass supply analysis and logistics (IBSAL) model. Bioresour Technol
98(5):1033-1044
74. Sokhansanj S, Mani S, Turhollow A, Kumar A, Bransby D, Lynd L et al (2009) Large-scale
production, harvest and logistics of switchgrass (Panicum virgatum L)—current technology
and envisioning a mature technology. Biofuels Bioprod Biorefi n 3:124-141
75. Ravula P, Grisso R, Cundiff J (2008) Comparison between two policy strategies for schedul-
ing trucks in a biomass logistic system. Bioresour Technol 99:5710-5721
76. Ravula PP, Grisso RD, Cundiff JS (2008) Cotton logistics as a model for a biomass transpor-
tation system. Biomass Bioenergy 32(4):314-325
77. Mukunda A, Ileleji KE, Wan H (2006) Simulation of corn stover logistics from on-farm stor-
age to an ethanol plant. ASABE International Meeting 2006, Paper Number: 066177,
American Society of Agricultural and Biological Engineers, St. Joseph, MI
78. Soldatos PG, Lychnaras V, Asimakis D, Christou M (2004) Bee—biomass economic
evaluation: a model for the economic analysis of biomass cultivation. In: Second world
conference and technology exhibition on biomass for energy, industry and climate protection,
10-14 May
Search WWH ::
Custom Search