Abstract
This chapter elaborates the different concepts of biogas technology understood in the Danish context. It emphasizes how energy from production of biogas is distributed, either as biogas to regional combined heat and power plants (CHP) or as district heating (DH) to small-scale local networks. The chapter provides an overview of the political situation and a historical outline of the development of the Danish biogas sector; it also presents the biogas process and operational aspects (e.g., the production of biogas, use of manure, and industrial waste as gas boosters). Advantages of biogas technology are emphasized: its capacity as a renewable energy and GHG-avoiding technology, and as a waste processing and environmental technology. It is argued that biogas can provide a future platform for the use of household waste and other types of organic materials (gas boosters) to enhance gas yield, as is the case of biomass from nature conservation, straw, deep litter, etc. Further, the chapter discusses whether or not biogas technology can create new job opportunities in rural areas that lack development. Economic results from operating centralized biogas plants in Denmark now also stress the importance of developing new gas boosters to support a further development of the biogas sector. The chapter ends with a discussion of new trends in biogas production, for example, how new organizational models can be designed as well as how the use of alternative boosters—like blue biomass—can be applied. Finally, biogas is discussed in the global and European contexts and emphasis is given to the need for digesting organic waste in combination with manure to provide valuable nutrients to farmland and also for enhancing the energy services provided by the biogas technology.
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References
Arla (2012) Quality assurence program Arlagården. Report at http://www.arla.com/Images/arla.com/PDF/arlagaarden/Kvalitetsprogrammet-Arlagaarden_UK.pdf. Accessed 25 Aug 2013
Alge Center Danmark (2013) Research in Algae Center Denmark. Information at http://www.algecenterdanmark.dk. Accessed 12 Aug 2013
Biogas Barometer—EU Observer (2012) Report at http://www.eurobserv-er.org/pdf/baro212biogas.pdf. Accessed the 14 Sept 2013
Birkmose T, Hjort-Gregersen K, Stefanek K (2013) Biomasser til biogasanlæg i Danmark—På kort og lang sigt. AgroTech, Institut for Jordbrugs- og Fødevareinnovation, Denmark
Climate Commission (2010) Grøn energi—Vejen mod et dansk energisystem uden fossile brændsler. Danish Climate Commission, Keen Press and DEA, Copenhagen
Danish Government (2009). Green growth strategy. Schultz Distribution, Albertslund
Deloitte, Blue Planet Innovation (2013) Afdækning af muligheder for at fremme investeringer i biogas—Status, muligheder og betingelser i forbindelse med finansiering af biogasanlæg. Copenhagen
Fenhann J, Hinostroza ML (2011) CDM information and guidebook. Technical University of Denmark and Risø National Laboratory for Sustainable Energy, Roskilde
Fredenslund A, Christensen TB, Kjær T, Danielsen S, Møller H, Kjær LL, Fafner K (2011) Utilization of cast seaweed and waste from pectin production for anaerobic digestion. In: Proceedings of 13th international waste management and landfill symposium, CITA Publisher, Sardinia, Italy 2011
Fredenslund A, Kjær T (2012) Vurdering af energiproduktion, miljøeffekter og økonomi for biogasanlæg. Roskilde Universitet, ENSPAC, Roskilde
Informationscenter for Miljø og Sundhed (2013) PAH. Information at http://www.forbrugerkemi.dk/kemi-info/stofgrupper/pah. Accessed the 12 Sept 2013
International Energy Agency (2005) Bioenergy Task 29: socio-economic drivers in implementing bioenergy projects. ExCo56, Dublin
Jørgensen PJ (2009) Biogas—green energy. PlanEnergi and Faculty of Agricultural Science, Århus University, Århus
Kjær T (2006) Socio-economic and regional benefits—employment assessment. REGENERGY, ENSPAC, University of Roskilde, Denmark
Krog LT (2012) Kan afgasset gødning fra økologisk biogas erstatte konventionel husdyrgødning og samtidig sikre vækst i det økologiske areal?. Det Natur -og Biovidenskabelige Fakultet, Københavns Universitet, Denmark
Hauggaard-Nielsen H, Østergård H (2012) Bioenergi kan støtte bæredygtig landbrugsproduktion. Forskning i Bioenergi (FIB), Særnummer: Robust og bæredygtig bioenergi, Biopress Risskov, Denmark
Laurentius S (2012) Algedyrkning—teori og praksis. forskning i bioenergi (FIB), nr. 40, Biopress Risskov, Denmark
Lemvig biogas plant (2013). Produkter. Information at http://www.lemvigbiogas.com/produkter.htm. Accessed the 15 Aug 2013
Lybæk R, Møller P (1999) Teknologisk innovative- og markedsunderstøttende strategier for fremme af gårdbiogasanlæg. Master thesis. University of Roskilde, ENSPAC, Roskilde
Lybæk R (2009) How to enhance the sustainable development contribution of future CDM projects in Asia—experience from Thailand. Post doctoral dissertation. University of Roskilde, ENSPAC, Roskilde
Lybæk R (2012) Biogas technology optimization opportunities—lessons learned from Denmark. IEEE, APPEEC Shanghai Proceedings. vol. IEEE Catalog nr: CFP12PEE-CDR IEEE
Lybæk R, Christensen TB, Kjær T (2013a) Governing innovation for sustainable development in the Danish Biogas sector—an historical overview and analysis of innovation. J Sustain Dev 21 (3):171–182
Lybæk R, Christensen TB, Kjær T (2013b) Enhancing the transition capability of Danish biomass technology by applying a futures study backcasting methodology on the biogas sector. Eur J Sustain Dev 2(4):37–50
Ministry of Climate and Energy (2010). National renewable energy action plan. Ministry of Climate and Energy, Copenhagen
Møller H, Jørgen PJ (2013) Dybstrøelse hører hjemme i biogasanlæg. Forskning i Bioenergi (FIB), Nr. 45, Biopress Risskov, Denmark
PlanEnergi (2013). Praktisk anvendelse af dybstrøelse som substrat til biogasanlæg—Kommende som eksisterende. Skørping, Denmark
Raven RPJM, Gregersen KH (2007) Biogas plants in Denmark: Successes and setbacks. Renew Sustain Energy Rev 11 (1):116–132
Ringkøbing-Skjern (2013) Energi2020. Information at http://www.energi2020.dk. Accessed the 16 Jan 2013
Seadi AT, Rutz D, Prassl N, Költtner M, Finsterwalder T, Volk S, Janssen R (2008) Biogas handbook. University of Souther Denmark, Esbjerg
Skadborg O (1992) Nye Bogaskoncepter; Skals Biogasanlæg. Viborgegnens miljø -og Energikontor, Viborg
Skøtt T. (2010) Gylle og energiafgrøder kan dække 10 % af energiforbruget. Forskning i Bioenergi (FIB), Nr. 31, Biopress Risskov, Denmark
Skøtt T (2013) Behandling af biomass: ikke én vinderteknologi. Forskning i bioenergi (FIB), Nr. 44, Biopress Risskov, Denmark
Tafdrup S (2009) Stort behov for udvikling af biogasprocessen. Forskning i bioenergi, FIB, Nr. 3, Biopress Risskov, Denmark
Tybirk K (2012) Kogebog for etablering af biogas med 12 faktaark. Agro Business Park/ Innovationsnetværket for Biomasse, Skejby
Vetter K (2013) Danmark har kedelig førsteplads. Bioenergy magasinet, Nr. 2, Vmarketing, Vejen
Vetter K (2013) Teknologien findes. Bioenergy magasinet, Nr. 2, Vmarketing, Vejen
Vetter K (2013) Biogas i udbrud. Bioenergy magasinet, Nr. 3, Vmarketing, Vejen
Interviews/Guided Tours/Presentations
Bånlev centralised biogas plant (2013). Information provided at the guided tour, Århus the 16 Jan 2013
Danish Energy Agency, DEA (2013). Hvad kan opnås med lokale biogasnet. Oral presentation by B. Harder at the Biogas Workshop, Skejby the 16 Jan 2013
Gregersen KH (2013) Biogas expert at AgroTech, Interview, Skejby, 17 Jan 2013
Hashøj biogas plant (2009). Information provided at the guided tour, Hashøj the 2 Sept 2009
Jensen A (2013) CEO at Bånlev centralized biogas plant, Interview, Århus the 16 Jan 2013
Kjær T (2012) Samlede miljøeffekter. Oral presentation at Roskilde University, Roskilde the 14 Jan 2013
Lundsgaard E (2009) CEO at Hashøj centralized biogas plant, Interview, Hashøj the 2 Sept 2009
Sander B (2012) Energy crops. Oral presentation at the Biogas Workshop, Skejby the 20 Jan 2012
Photos/Drawing
Bånlev plant (2013). Videnscenter for Landbrug. At https://www.landbrugsinfo.dk/Energi/Biogas/Sider/Billeder.aspx
Lybæk R (2009) Photos taken by the author at Hashøj biogas plant, Plant visit the 2 Sept 2009
Torsø plant, Landbrugets Rådgivnings-center (2001) Skejby
Rask J (2013) Drawing by student at TekSam. University of Roskilde, Denmark
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Lybæk, R. (2014). Development, Operation, and Future Prospects for Implementing Biogas Plants: The Case of Denmark. In: Sanz-Bobi, M. (eds) Use, Operation and Maintenance of Renewable Energy Systems. Green Energy and Technology. Springer, Cham. https://doi.org/10.1007/978-3-319-03224-5_4
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