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Machinery life cycle efficiency models for their sustainable development

Treść / Zawartość
Identyfikatory
Warianty tytułu
Konferencja
7th International Conference System Safety: Human - Technical Facility - Environment, CzOTO 2018 (7 ; 12-14.12.2018 ; Zakopane, Poland)
Języki publikacji
EN
Abstrakty
EN
The work describes the components of efficiency in the form of energy, economic and ecological benefits and outlays in the life cycle, i.e. construction and operation of machinery, equipment and power systems, on the example of wind farms and the most important models useful in designing their construction and operation for increasing system safety in three areas: environment, technical system, and human health. Technical conditions (ideas, constructions and processes) necessary to increase the benefits and / or reduce energy, economic and ecological expenditure of the operation and the prospects for effective development of the global, European and national wind energy market are characterized. A preliminary analysis of the relations of operators, workpieces, live and artificial objects of the 2-MW wind farm environment was carried out, for the possibility of increasing the benefits and reduction of outlays as a result of compensating for the destructiveness of the system, the environment and man.
Wydawca
Rocznik
Strony
363--370
Opis fizyczny
Bibliogr. 16 poz., rys., tab.
Twórcy
  • University of Science and Technology in Bydgoszcz, Poland
  • University of Science and Technology in Bydgoszcz, Poland
  • University of Science and Technology in Bydgoszcz, Poland
  • University of Science and Technology in Bydgoszcz, Poland
  • University of Science and Technology in Bydgoszcz, Poland
Bibliografia
  • [1] Ackermann, T., 2005. Transmission Systems for Offshore Wind Farms. Wind Power in Power Systems, 479–503. Wiley-Blackwell. DOI: 10.1002/0470012684.ch22.
  • [2] Caiado, R.G.G., de Freitas Dias, R., Mattos, L.V., Quelhas, O.L.G., Leal Filho, W., 2017. Towards sustainable development through the perspective of eco-efficiency - A systematic literature review. Journal of Cleaner Production, 165, 890–904, DOI: 10.1016/j.jclepro.2017.07.166.
  • [3] Cherrington, R., Goodship, V., Meredith, J., Wood, B.M., Coles, S.R., Vuillaume, A., Feito-Boirac, A., Spee, F., Kirwan. K., 2012. Producer Responsibility: Defining the Incentive for Recycling Composite Wind Turbine Blades in Europe. Energy Policy, 47, 13–21, DOI: 10.1016/j.enpol.2012.03.076.
  • [4] Choi, J., Kelley, D., Murphy, S., Thangamani, D., 2016. Economic and Environmental Perspectives of End-of-Life Ship Management. Resources, Conservation and Recycling, 107, 82–91, DOI: 10.1016/j.resconrec.2015.12.007.
  • [5] Flizikowski, J., Bielinski, K., 2012. Technology and Energy Sources Monitoring: Control, Efficiency, and Optimization. IGI Global, USA.
  • [6] Flizikowski, J., Piasecka, I., Kruszelnicka, W., Tomporowski, A., Mrozinski, A., 2018. Destruction Assessment of Wind Power Plastics Blade. Polimery, 63(5), 381–386, DOI: 10.14314/polimery.2018.5.7.
  • [7] Klinglmair, M., Sala, S., Brandão, M., 2014. Assessing Resource Depletion in LCA: A Review of Methods and Methodological Issues. The International Journal of Life Cycle Assessment. 19(3), 580–92, DOI: 10.1007/s11367-013-0650-9.
  • [8] Niu, B., Hwangbo, H., Zeng, L., Ding, Y., 2018. Evaluation of alternative power production efficiency metrics for offshore wind turbines and farms. Renewable Energy, 128, 81–90, DOI: 10.1016/j.renene.2018.05.050.
  • [9] Song, D., Fan, X., Yang, J., Liu, A., Chen, S., Joo, Y.H., 2018. Power extraction efficiency optimization of horizontal-axis wind turbines through optimizing control parameters of yaw control systems using an intelligent method. Applied Energy, 224, 267–279, DOI: 10.1016/j.apenergy.2018.04.114.
  • [10] Tomporowski, A., Flizikowski, J., Kasner, R., Kruszelnicka, W., 2017a. Environmental Control of Wind Power Technology. Rocznik Ochrona Środowiska, 19, 694–714.
  • [11] Tomporowski, A., Flizikowski, J., Kruszelnicka, W., 2017b. A new concept of roller-plate mills. Przemysł Chemiczny, 96(8), 1750–55, DOI: 10.15199/62.2017.8.29.
  • [12] Tomporowski, A., Flizikowski, J., Kruszelnicka, W., Piasecka, I., Kasner, R., Mroziński, A., Kovalyshyn, S., 2018a. Destructiveness of Profits and Outlays Associated with Operation of Offshore Wind Electric Power Plant. Part 1: Identification of a Model and Its Components. Polish Maritime Research, 25(2), 132–139, DOI: 10.2478/pomr-2018-0064.
  • [13] Tomporowski, A., Flizikowski, J., Opielak, M., Kasner, R., Kruszelnicka W., 2017c. Assessment of Energy Use and Elimination of CO2 Emissions in the Life Cycle of an Offshore Wind Power Plant Farm. Polish Maritime Research, 24(4), DOI: 10.1515/pomr-2017-0140.
  • [14] Tomporowski, A., Piasecka, I., Flizikowski, J., Kasner, R., Kruszelnicka, W., Mroziński, A., Bieliński,. K., 2018b. Comparision analysis of blade life cycles of land-based and offshore wind power plants. Polish Maritime Research, 25,(S1), 225–233.
  • [15] Yin, M., Yang, Z., Xu, Y., Liu, J., Zhou, L., Zou, Y., 2018. Aerodynamic optimization for variable-speed wind turbines based on wind energy capture efficiency. Applied Energy, 221, 508–521, DOI: 10.1016/j.apenergy.2018.03.078.
  • [16] Zastempowski, M., Borowski, S., Kaszkowiak, J., 2013. New Solutions in Harvesting Plants for Power Purposes. Trends in Agricultural Engineering 2013: 5th Internationale Conference TAE 2013 : Conference Proceedings : 3-6 September, 2013, Prague, Czech University of Life Sciences, Faculty of Engineering, 673–676.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7da74ebb-9dcc-4885-bb48-f54bb2df88a7
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