TY - BOOK AU - Ruppert,Hans AU - Kappas,Martin AU - Ibendorf,Jens ED - SpringerLink (Online service) TI - Sustainable Bioenergy Production - An Integrated Approach SN - 9789400766426 AV - GE195-199 U1 - 338.927 23 PY - 2013/// CY - Dordrecht PB - Springer Netherlands, Imprint: Springer KW - Environment KW - Renewable energy resources KW - Regional planning KW - Urban planning KW - Agriculture KW - Renewable energy sources KW - Alternate energy sources KW - Green energy industries KW - Nature conservation KW - Sustainable development KW - Sustainable Development KW - Renewable and Green Energy KW - Landscape/Regional and Urban Planning KW - Nature Conservation N1 - Part I: Setting the scene -- Part II: Do we have enough? - Biomass potentials for energy generation -- Part III: Can bioenergy production be environmentally sound? -- Part IV: Economic optimisation of bioenergy production -- Part V: Bridging bioenergy production and society -- Part VI: Combustion of biomass for heat and power -- Part VII:  Bioenergy from polluted soils -- Index N2 - This book focuses primarily on the advantages and implications of sustainable bioenergy production in terms of ensuring a more sustainable world despite its growing energy demands. It addresses a new concept that focuses on the interactions between different uses of agricultural land (for example, agriculture for food, forage or energy and nature conservation) and their ecological, economic and societal impacts. This research concept provides new insights into the competition for resources and the synergies between different land uses. Until recently, the transition towards renewable energy has been generally misunderstood as only an economic demand, rather than as a means to gain various social and ecological advantages. Today biomass can be produced to generate energy and renewable raw materials, while simultaneously benefitting soil resources, water resources and biodiversity. The transition to a ‘greener’ economy is an important precondition in order to achieve the sustainable development of societies. To develop a modern, forward-looking energy supply from biomass, such as biomass for heat and power generation, and liquid biofuels for transport, there should be a balance between the amount of biomass required for food production and for material purposes. Crop types, production methods and conversion technologies need to be matched with local conditions within the different landscapes to establish a national transformation plan, and to reduce the i ncreasing land-use competition between food/fodder versus energy crop production, as well as the use of forests for energy. Rethinking the linkages between bioenergy, climate change, land use and water requires an integrated assessment of the energy, land and water nexus. This book highlights research aimed at providing an integrated approach to sustainable bioenergy development and seeks to improve people’s understanding of bioenergy’s potentials for the future. It will be of interest not only to those involved in sustainable energy, but also to environmental planners, agriculture and soil specialists, and environmental policy-makers UR - http://dx.doi.org/10.1007/978-94-007-6642-6 ER -