INTRODUCTION OF CLUSTERIZATION PRINCIPLES IN THE SOLUTION OF PROBLEMS OF ENERGY EFFICIENCY AND ECOLOGICAL SAFETY OF THE EXISTENT BUILDING FUND
The aim of the work is to introduce clusterization principles in the solution of problems of energy efficiency and ecological safety of the existent building fund. The material of the research is the process of modeling of energetically effective architecture-building clusters. In this sense it is topical and expedient to elaborate technologies and schemes, able to support making decisions as to the formation of energetically effective architecture-building clusters. The main attention is paid to the solution of infrastructure problems of energy saving of the architecture-building branch, connected with the absence of universal models, distinct algorithms of the formation of energy efficiency clusters and reliable instruments of their activity optimization. But realization of advantages of energy efficiency clusters is possible only at introducing effective mechanisms of the formation of a structure, able to provide a result, optimal by an energy efficiency criterion. The work offers a scheme of the formation process of such structure. The synthesis of models of energetically effective architecture-building clusters is based on principles of the systemic construction of geometric models and provides the imitative modeling of different development scenarios of synthesized clusters. At this stage of the research a function of making decisions as to the real cluster formation is left for experts. But an algorithm of the synthesis of models provides the formation of a knowledge base that will be in further a base of an “internal model” of the intellectual system of supporting decisions making, elaborated for modeling cluster structures. The scientific novelty of the work is in the elaboration of theoretical bases of the technology of coordinating the structure with object properties.
Lundgren, T., Marklund, P.-O., Zhang, S. (2016). Industrial energy demand and energy efficiency – Evidence from Sweden. Resource and Energy Economics, 43, 130–152. doi: http://doi.org/10.1016/j.reseneeco.2016.01.003
Shi, G.-M., Bi, J., Wang, J.-N. (2010). Chinese regional industrial energy efficiency evaluation based on a DEA model of fixing non-energy inputs. Energy Policy, 38 (10), 6172–6179. doi: http://doi.org/10.1016/j.enpol.2010.06.003
Özkara, Y., Atak, M. (2015). Regional total-factor energy efficiency and electricity saving potential of manufacturing industry in Turkey. Energy, 93, 495–510. doi: http://doi.org/10.1016/j.energy.2015.09.036
Sölvell, Ö., Lindqvist, G., Ketels, C. (2003). The Cluster Initiative Greenbook. Stockholm: Ivory Tower, 92.
The Role of Clusters in Smart Specialisation Strategies (2013). Luxembourg: Publications Office of the European Union, 59.
Smart guide to cluster policy (2016). Belgium, 60.
Mykytas, M. V., Ploskyi, V. O. (2017). Stalyi rozvytok mist: stan doslidzhen, mizhnarodnyi ta ukrainskyi dosvid. Enerhoefektyvnist v budivnytstvi ta arkhitekturi, 9, 168–173.
Mykytas, M. V., Ploskyi, V. O., Kozhedub, S. A. (2018). Doslidzhennia systemnykh oznak enerhoefektyvnykh klasternykh orhanizatsiinykh struktur arkhitekturno-budivelnoi haluzi. Upravlinnia rozvytkom skladnykh system, 35, 68–75.
Mykytas, M., Terenchuk, S., Zhuravska, N. (2018). Models, Methods and Tools of Optimizing Costs for Development of Clusterized Organizational Structures in Construction Industry. International Journal of Engineering & Technology, 7 (3.2), 250. doi: http://doi.org/10.14419/ijet.v7i3.2.14414
Kulikov, P., Mykytas, M., Terenchuk, S., Chupryna, Y. (2018). Development of a methodology for creating adaptive energy efficiency clusters of the architecture and construction industry. Technology Audit and Production Reserves, 6 (5 (44)), 11–16. doi: http://doi.org/10.15587/2312-8372.2018.150879
Klir, Dzh. (1990). Sistemologiya. Avtomatizatsiya resheniya sistemnykh zadach. Moscow: Radio i svyaz', 544.
Ploskiy, V. A. (1996). Operatsii na mnozhestve metodov geometricheskogo modelirovaniya kak element ikh sistemnogo issledovaniya. Prikladnaya geometriya i inzhenernaya grafika, 60, 79–83.
Prokip, A. V., Dudiuk, V. S., Kolisnyk, R. B. (2015). Orhanizatsiini ta ekoloho-ekonomichni zasady vykorystannia vidnovliuvanykh enerhoresursiv. Lviv: ZUKTs, 338.
Mamonova, V. V., Kuts, Yu. O., Makarenko, O. M. et. al. (2013). Formuvannia terytorialnykh klasteriv yak instrumentu rehionalnoho rozvytku. Kyiv: NADU, 36.
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