In the paper, the Author has presented the activity of the Koszalin University of Technology and the experience concerning its willow plantation. Creating a network of power and heating stations should not only affect the climate and energy safety but first of all contribute to a sustainable entrepreneurial development of rural areas. The Koszalin University of Technology has been conducting experiments and implementing new technologies on its 92.0 ha willow plantation. During the last two years, there has been a research project carried out aiming at the following among others: • use of sewage residues and municipal organic waste as manure in plantation; • selection of plants with the most efficient growth and energy performance, taking into account technical, environmental and economical aspects. Next year, the co-combustion at a local district heating plant for thermal energy will be launched and, in five years’ time, cogeneration solutions: a power plant and a district heating system based on biomass energy gasification will be introduced. Scientific innovation and significance: • potential of using fallow soils for willow plants; • research into the selection of different willow clones: the highest biomass gain; • use of sewage and municipal organic waste residues as manure in the plantation; • cooperation with the Heating Plant and the Municipal Plant: to establish a plant for heat production.
Alfonso, D., Peroina, C., Perez-Navarro, A., Penalvo, E., Cardenas, R., Vargas, C. (2008). Biomass Resources Evalution and Optimization of its Management and Final Energy Generation: Methodology and Application. 16th European Biomass Conference & Exhibition (p. 327‑331). Valencia, Spain.
Baum, R., Wielicki, W. (2007). Prognoza przeobrażeń rolnictwa do roku 2030 w Kontekście zrównoważonego rozwoju. Wieś i Rolnictwo, 1.
Bioenergie, Planzen, Rohstoffe, Produkte. (2007). Fachagentur Nachwachsende Rostoffe, E.V. (FNR). Bundesministerium fur Ernahrung, Landwirtscheft und Verbraucherschutz.
Brewer, A.C., Morgan, G., Poole, E.J., Baldwin, M., Tubby, I. (2007). Predictive Models of Biomass for Poplar and Willow, Short Rotation Coppice in the United Kingdom, Bioenergy 2007, 3rd International Bioenergy Conference and Exhibition, Iyvaskyla, Finland.
Jasiulewicz, M. (2004). Feasibilities of Marginal Soils Usage by Energy Plants Cultivation in West Pomeranian Voivodeship. W: Trends in International Economy Relations in Agriculture and Food Economy. Warszawa.
Jasiulewicz, M. (2005). Renewed Energy from Energy Plants. 14th European Biomass Conference and Exhibition Biomass for Energy Industry and Climate Protection, Paris.
Jasiulewicz, M. (2008). Economical Aspects of the Short Rotation Coppices of Willow and Results of Co-combustion Process in the Middle Boiler. W: European Biomass Conference & Exhibition (p. 310‑313). Valencia, Spain.
Jasiulewicz, M. (2010). Possibility of Liquid Bio-Fuels, Electric and Heat Energy Production from Biomass in Polish Agricultura, Polish Journal of Environmental Studies, 19(3), 479‑483.
Jasiulewicz, M. (2010). Potential of Biomass in Poland. Koszalin: Koszalin University of Technology.
Operational Program Digital Poland, 2014-2020, Measure 2.3: Digital accessibility and usefulness of public sector information; funds from the European Regional Development Fund and national co-financing from the state budget.
Aug 30, 2021
Aug 30, 2021
|Jasiulewicz M. : Biomass from willow plantation as a source of renewable energy and reduction of smog emissions||Aug 30, 2021|