References
- Andryushchenko, A. (2004). On dividing fuel consumption and setting tariffs at cogeneration stations. Thermal Engineering, 8, 677–678.
- Augutis, J., Jokšas, B., Krikštolaitis, R., & Žutautaitė, I. (2014). Criticality assessment of energy infrastructure. Technological and Economic Development of Economy, 20, 312–331.10.3846/20294913.2014.915245
- Bogachko, M., Il’in, E., Pechenkin S., & Timofeeva, Y. (2005). Choosing the optimal conditions for loading cogeneration units carrying a heat load during non-heating and transition seasons. Thermal Engineering, 5, 409–413.
- Fujimitsu, M. (2001). History of power plants and progress in heat resistant steels. ISIJ international, 6, 612–625.
- Kasperowicz, R. (2014). Economic growth and energy consumption in 12 European countries: A panel data approach. Journal of International Studies, 7, 112–122. doi:10.14254/2071-8330.2014/7-3/10
- Konova, O., Komarov, I., & Lisin, E. (2012). The relevance of power generating capacities based on the combined cycle power plants of high power. Czech Journal of Social Sciences, Business and Economics, 1, 101–110.
- Lisin, E., & Grigoryeva, A. (2012). Generators’ strategic behaviour research based on the agent approach to the power market modeling. Czech Journal of Social Sciences, Business and Economics, 1, 75–81.
- Lisin, E., & Strielkowski, W. (2014). Modelling new economic approaches for the wholesale energy markets in Russia and the EU. Transformation in Business & Economics, 13, 2B(32B), 566–580.
- Lisin, E., Strielkowski, W., Amelina, A., Konova, O., & Čábelková, I. (2014). Mathematical approach to wholesale power and capacity market regulation. Applied Mathematical Sciences, 8, 7765–7773.
- Lykova, O., Lisin, E., & Kocherova, A. (2012). Analysis of the major preconditions of coal-hybrid power plants construction as a perspective direction of high efficiency heat-power engineering development. Czech Journal of Social Sciences, Business and Economics, 1, 92–101.
- Maximov, B., & Molodyuk, V. (2008). Theoretical and practical fundamentals of the electricity market. Moscow: MEI Publishing House, 291 p.
- Samarin, O., Lushin, K., & Paulauskaite, S. (2007). Energy savings efficiency in public buildings under market conditions in Russia. Technological and Economic Development of Economy, 13, 67–72.
- Škare, M., & Družeta, R. P. (2014). Constructing official poverty lines for countries in transition-beyond the poverty line (2000–2010). Amfiteatru Economic, 16, 368–389.
- Škare, M., & Sinković, D. (2012). Equipment investments and growth nexus–evidence from socialist and transition Croatia. Technological and Economic Development of Economy, 18, 504–528.
- Sokolov, E., & Kovylyanskii, Y. (1990). Methodological bases of and trends in the development of district heating and cogeneration in the USSR. Soviet Technology Reviews, 4, 100–135.
- Stoft, S. (2002). Power system economics: Designing markets for electricity. New Jersey: IEEE Press, 460 p.10.1109/9780470545584
- Streimikiene, D., & Klevas, V. (2007). Promotion of renewable energy in Baltic States. Renewable and Sustainable Energy Reviews, 11, 672–687.10.1016/j.rser.2005.03.004
- Vasiliev, Y. (1993). Scientific works of Sankt-Peterburg State Technical University on heat-power engineering and power-plant engineering. Thermal Engineering, 3, 2–4.
- Zamula, I., & Kireitseva, A. (2013). Environmental liabilities arising from the transactions with atmospheric air as an accounting object. Economics and Sociology, 6, 190–200. doi:10.14254/2071-789X.2013/6-2/17
- Zavadskas, E. K., Turskis, Z., & Tamosaitiene, J. (2011). Selection of construction enterprises management strategy based on the SWOT and multi-criteria analysis. Archives of Civil and Mechanical Engineering, 11, 1063–1082.10.1016/S1644-9665(12)60096-X
- Zeigarnik, Y. (2006). Some problems with the development of combined generation of electricity and heat in Russia. Energy, 13, 2051–2058.