References
- Abdul-Majeed, M. A., Al-Hadhrami, L. M., Al-Soufi, K. Y., Ahmad, F., and Rehman, S. 2013. Captive power generation in Saudi Arabia: Overview and recommendations on policies. Energy Policy 62:379–785.
- Aghbashlo, M., and Demirbas, A. 2016. Biodiesel: Hopes and dreads. BRTeam Biores. Res. J. 10:379.
- Ahmad, A., and Ramana, M. V. 2014. Too costly to matter: Economics of nuclear power for Saudi Arabia. Energy 69:682–694.
- Alidrisi, H., and Demirbas, A. 2016. Enhanced electricity generation by using biomass materials. Energy Sources Part A 38:1419–1427.
- Aljoufie, M., Zuidgeest, M., Brussel, M., and van Maarseveen, M. 2012. Integrated land use and transport planning in Jeddah: Policy assessment and simulation. Conference CODATU XV. The role of urban mobility in (re)shaping cities, Addis Ababa (Ethiopia), 22 to 25 October 2012.
- Alshehry, A. S., and Belloumi, M. (2015). Energy consumption, carbon dioxide emissions and economic growth: The case of Saudi Arabia. Renew. Sustain. Energy Rev. 41:237–247.
- Berktay, A., Demirbas, A., Saim Kocak, S., and Nas, B. 2004. Electrical energy prices and losses respect to Turkish social-economic situations. Energy Explorat. Exploit. 22:195–205.
- Demirbas, A. 2002a. Electricity from biomass and hydroelectric development projects in Turkey. Energy Explorat. Exploit. 20:325–335.
- Demirbas, A. 2002b. Production potential of electricity from biomass in Turkey. Energy Sources 24:921–929.
- Demirbas, A. 2003. Biomass co-firing for coal-fired boilers. Energy Explorat. Exploit. 21:269–278.
- Demirbas, A. 2006a. Electrical power production facilities from green energy sources. Energy Sources Part B 1:291–301.
- Demirbas, A. 2006b. Electricity generation via unconventional methods. Energy Explorat. Exploit. 24:131–138.
- Demirbas, A. 2007. Progress and recent trends in biofuels. Prog. Energy Combus. Sci. 33:1–18.
- Demirbas, A. 2008. Electricity from coal and utilization of coal combustion byproducts. Energy Sources Part A 30:1581–1586.
- Demirbas, A. 2009. Concept of energy conversion in engineering education. Energy Educ. Sci. Tech. – B. 1:183–197.
- Demirbas, A., and Urkmez, A. 2006. Biomass based combined heat and power (CHP) systems in Turkey. Energy Sources Part B. 1:245–253.
- Demirbas, A., Alamoudi, R. H, Ahmad, W., and Sheikh M. 2016a. Optimization of municipal solid waste (MSW) disposal in Saudi Arabia. Energy Sources Part A. 38:1929–1937.
- Demirbas, A., Alidrisi, H., Ahmad, W., and Sheikh, M. H. 2016b. Potential of geothermal energy in the Kingdom of Saudi Arabia. Energy Sources Part A. 38:2238–2243.
- Eskandary, H. 2017. Improving energy efficiency in agronomical systems. Energy Educ. Sci. Tech. – A. 35:45–54.
- ECRA. 2014. The Electricity & Cogeneration Regulatory Authority. Riyadh, Kingdom of Saudi Arabia: The Saudi Electricity Company.
- Gray, T. A., Kyper, T. N., and Snodgrass, J. L. 1997. Disposal of coal combustion byproducts in underground coal mines. Energeia 8:4–6.
- Liu, J., Tan, Q., and Wei, Q. 2015. Study on economic and environmental value evaluation model of China’s biomass power generation. Energy Educ. Sci. Tech. – A. 33:2813–2818.
- Matar, W. 2016. Beyond the end-consumer: How would improvements in residential energy efficiency affect the power sector in Saudi Arabia? Energy Effic. 9:771–790.
- Matar, W., Murphy, F., Pierru A., and Rioux, B. 2015. Lowering Saudi Arabia’s fuel consumption and energy system costs without increasing end consumer prices. Energy Econ. 49:558–569.
- Mussatto, S. I. 2016. A closer look at the developments and impact of biofuels in transport and environment: What are the next steps? BRTeam Biores. Res. J. 9:3319.
- Rehan, M., Nizami, A. S., Shahzad, K., M. Ouda, O. K. M., Ismail, I. M. I., Almeelbi, T., Iqbal, T., and Demirbas, A. 2016. Pyrolytic liquid fuel: A source of renewable electricity generation in Makkah. Energy Sources Part A 34:2598–2603.
- Robinson, A. L., Baxter, L. L., Sclippa, G., Junker, H., and Widell, K. E. 1997. Fireside considerations when co-firing biomass with coal in PC Boilers. Presented at the Engineering Foundation Conference on the Impact of Mineral Impurities in Solid Fuel Combustion, Kona, Hawaii, November 1997.
- Sadef, Y., Nizami, A. S., Batool, S. A., Chaudary, M. N., Ouda, O. K. M., Asam, Z. Z., Habib, K., Rehan, M., and Demirbas, A. 2016. Waste-to-energy and recycling value for developing integrated solid waste management plan in Lahore. Energy Sources Part B. 11:569–579.
- Saidur, R., Abdelaziz, E. A., Demirbas, A., Hossain, M. S., and Mekhilef, S. 2011. Review on biomass as a fuel for boilers. Renew. Sustain. Energy Rev. 15:2262–2289.
- Sami, M., Annamalai, K., and Wooldridge, M. 2001. Cofiring of coal and biomass fuel blends. Prog. Energy Combust. Sci. 27:171–214.
- Wang, X. 2014. Electric power law’s modification under the new circumstances. Energy Educ. Sci. Tech. – A. 32:6105–6122.
- Zhao, X., and Feng, T. 2014. Dilemma and strategy of biomass power generation industry development in China: A perspective of industry chain. Energy Educ. Sci. Tech. – A. 32:7197–7219.