Published March 18, 2018 | Version v2
Journal article Open

Innovative Basis of Research of Energy-Efficient Potential and Effectiveness of Renewable Energy Sources

Creators

  • 1. Institute of Ecology and Natural Resources Ganja Branch of Azerbaijan National Academy of Sciences, Azerbaijan Technology University Ganja, Azerbaijan
  • 2. Department of Ethnography, Institute of Local-lore Ganja Branch of Azerbaijan National Academy of Sciences, Ganja, Azerbaijan

Description

In recent years, countries of the world have been trying to attract new energy sources (wind, sun, biogas, waves, drainage, non-conventional energy sources such as hydroelectric power of small rivers) in their fuel-energy balance. Azerbaijan has renewable natural resources, favorable for its energy-efficient potential, according to the amount of sunny and windy days. In this article was given total information about renewable energy potential of Azerbaijan Republic. In this article we use information which was given by The State Program on the Use of Alternative and Renewable Energy Sources materials.

Files

Hasanov.pdf

Files (430.5 kB)

Name Size Download all
md5:fd4155a83315f8f85a3b108a16385d4c
430.5 kB Preview Download

Additional details

Related works

Is identical to
http://repository.sspu.sumy.ua/handle/123456789/3954 (URL)

References

  • Abreu P.H., Silva D.C., Amaro H., Magalhães R. (2016) Identification of residential energy consumption behaviors. Journal of Energy Engineering, 142(4), 04016005.
  • Aliyev F., Badalov A., Huseinov E., Aliyev F. (2012) Ecology. Baku: Science, p. 828.
  • Atalla T.N., Hunt L.C. (2016) Modeling residential electricity demand in the GCC countries. Energy Economics, 59, 149-158.
  • Ates S.A. (2015) Energy efficiency and CO2 mitigation potential of the Turkish iron and steel industry using the LEAP (long-range energy alternatives planning) system. Energy, 90, 417-428.
  • Axsen J., Kurani K.S. (2012) Social influence, consumer behavior, and low-carbon energy transitions. Annual Review of Environment and Resources, 37, 311-340.
  • Ayres R.U. (2007) On the practical limits to substitution. Ecological Economics, 61, 115-128. doi:10.1016/j.ecolecon.2006.02.011.
  • Azerbaijan reveals potential of renewable energy sources URL: https://www.azernews.az/business/101789.html
  • Cherubini A., Papini A., Vertechy R., Fontana M. (2015) Airborne wind energy systems: A review of the technologies. Renewable and Sustainable Energy Reviews, 51(11), 1461-1476.
  • Davidsson S., Höök M., Wall G. (2012) A review of life cycle assessments on wind energy systems. Int. J. Life Cycle Assess, 17, 729-742. doi:10.1007/s11367-012-0397-8.
  • Dincer I. (2000) Renewable energy and sustainable development: A crucial review. Renewable and Sustainable Energy Reviews, 4(2), 157-175.
  • Fajardo J.M. (2016) Evaluación de la Adopción del Programa de uso Racional y Eficiente de Energía en Iluminación, por Parte de Entidades Públicas con Base en Información Reportada al MME Durante los Años 2014 y 2015. Colombia: Universidad Distrital Francisco José de Caldas.
  • Geothermal Energy Association. (2010) Green Jobs through Geothermal Energy. http://www.geo-energy.org/pdf/reports/GreenJobs_Through_Geothermal_ Energy_Final_Oct2010.pdf
  • Губин Е. П. (2005). Государственное регулирование рыночной экономики и предпринимательства: правовые проблемы. М.: Юристъ. – 314 с.
  • Guerrero-Rodríguez N.F., Rey-Boué A.B., Reyes-Archundia E. (2017) Overview and comparative study of two-control strategies used in 3-phase grid-connected inverters for renewable systems. Renewable Energy Focus, 19(20), 75-89.
  • Hasanov E.L. (2017) About research of features of legal culture on the basis of historical-literary heritage. Information (Japan), 20(4), pp. 2289-2296.
  • Larsson S., Fantazzini D., Davidsson S., Kullander S., Höök M. (2014) Reviewing electricity production cost assessments. Renewable and Sustainable Energy Reviews 30, 170–183. doi:10.1016/j.rser.2013.09.028.
  • Najmi A., Keramati A. (2016) Energy consumption in the residential sector: Astudy on critical factors. International Journal of Sustainable Energy, 35(7), 645-663.
  • Nojedehi P., Heidari M., Ataei A., Nedaei M., Kurdestani E. (2016) Environmental assessment of energy production from landfill gas plants by using long-range energy alternative planning (LEAP) and IPCC methane estimation methods: A case study of Tehran. Sustainable Energy Technologies and Assessments, 16, 33-42.
  • Sever R., Taşdemiroglu E. (1986) Monthly and yearly average maps of total and direct solar radiation in Turkey. Solar Energy. Vol. 37, No 3. pp. 205-213.
  • Teleuyev G.B., Akulich O.V., Kadyrov M.A., Ponomarev A.A., Hasanov E.L. (2017) Problems of Legal Regulation for Use and Development of Renewable Energy Sources in the Republic of Kazakhstan. International Journal of Energy Economics and Policy, Vol.7, № 5, pp. 296-301.
  • UPME Unidad de Planeación Minero Energética. (2016) Proyección de Demanda de Energía Eléctrica y Potencia Máxima en Colombia. Colombia: UPME Unidad de Planeación Minero Energética.
  • Viola J., Aceros C. (2016) Smart Grids and their Applicability for the Development of the Electricity Sector for Colombia in the Year 2050. IOP Conference Series: Materials Science and Engineering, 138(1), 012010. doi:10.1088/1757-899X/138/1/012010