Abstract
Agricultural production is a crucial area, perhaps the most important for humanity. This is the only area which cannot be avoided. Therefore, it is of utmost importance to know how sustainable the system is in the long run as regards energy consumption. We have chosen the maize production sector as the main focus of this study. This crop is especially important all over the world, therefore; it requires significant input also in terms of energy. Currently, the system of maize production (as with the others) operates as an open energy system.
 This study aims to examine how much of the agricultural land’s energy demand could be met with the help of the byproducts of 1 hectare of agricultural land - operating as a closed system, using only the remaining maize stalk and cob byproducts for energy - under the conditions of Hungarian maize production.
 Energy demand is largely determined by the land’s fertilizer requirement, followed by the input factor of the energy demand of the machinery during earthwork and transport.
 The study assumes that the energy from the byproducts of maize production will be used exclusively with biogas technology. This can even be implemented on a county level. The final question is whether the maize production system will be able to sustain itself solely by using its own byproducts.
Highlights
Fertilizer is an important material in modern integrated crop production and, within it, maize production
This fossil energy demand could be decreased to a value of 2–4 MJ kg-1 N by using biogas, this difference is created by the energy demand of the biogas raw material’s transport (Alghren et al 2010)
Current technology can provide the means for the propellant demand to be met, either directly via the biogas produced from the maize byproducts or via electricity generated from the biogas
Summary
Fertilizer is an important material in modern integrated crop production and, within it, maize production. It is necessary to use eN-fert=35 MJ kg-1 natural gas during the production of traditional N based fertilizer in order to produce an amount of fertilizer containing 1 kilogram of the active ingredient N. This fossil energy demand could be decreased to a value of 2–4 MJ kg-1 N by using biogas, this difference is created by the energy demand of the biogas raw material’s transport (Alghren et al 2010). Current technology can provide the means for the propellant demand to be met, either directly via the biogas produced from the maize byproducts or via electricity generated from the biogas
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