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Enerji Yoksulluğunun Ölçülmesine İlişkin Literatür İncelemesi

Yıl 2023, , 336 - 361, 10.08.2023
https://doi.org/10.17494/ogusbd.1241989

Öz

Bu makale, 2004-2022 yılları arasında enerji yoksulluğu ve ölçümü üzerine yapılan çalışmaları analiz etmektedir. Web of Science veri tabanında "energy poverty measurement" anahtar kelimesi ile yapılan aramada 195 makaleye ulaşılmış, bunlardan 69'u incelenmiştir. Çalışmada öncelikle enerji yoksulluğunun tanımı, yol açtığı sorunlar ve belirleyici kriterleri hakkında bilgi verilmiştir. Sonraki adımda enerji yoksulluğunun diğer belirleyicileri grafikler ve tablolar yardımıyla açıklanmıştır. Metodoloji bölümünde ise makaleler ülkelerin ekonomik gelişmişliklerine ve kullanılan ölçüm modellerine göre detaylı bir şekilde analiz edilmektedir. Son olarak, sonuçlar ve öneriler sunulmakta ve evrensel olarak kabul gören bir ölçüm modeli bulmak için gelecekteki çalışmalar önerilmektedir.

Kaynakça

  • Ahmed, A., & Gasparatos, A. (2020). Multi-dimensional energy poverty patterns around industrial crop projects in Ghana: Enhancing the energy poverty alleviation potential of rural development strategies. Energy Policy, 137, 111-123.
  • Ampofo, A., & Mabefam, M. G. (2021). Religiosity and Energy Poverty: Empirical evidence across countries. Energy Economics, 102-118
  • Apergis, N., Polemis, M., & Soursou, S. E. (2022). Energy poverty and education: Fresh evidence from a panel of developing countries. Energy Economics, 106-120
  • Aristondo, O., & Onaindia, E. (2018). Counting energy poverty in Spain between 2004 and 2015. Energy Policy, 113, 420-429.
  • Banerjee, R., Mishra, V., & Maruta, A. A. (2021). Energy poverty, health and education outcomes: evidence from the developing world. Energy economics, 101-119
  • Barnes, D. F., Khandker, S. R., & Samad, H. A. (2011). Energy poverty in rural Bangladesh. Energy policy, 39(2), 894-904.
  • Betto, F., Garengo, P., & Lorenzoni, A. (2020). A new measure of Italian hidden energy poverty. Energy policy, 138-155
  • Boardman, B. (1991). Fuel Poverty: From Cold Homes to Affordable Warmth
  • Bouzarovski, S., Petrova, S., & Sarlamanov, R. (2012). Energy poverty policies in the EU: A critical perspective. Energy policy, 49, 76-82.
  • Burlinson, A., Giulietti, M., Law, C., & Liu, H. H. (2021). Fuel poverty and financial distress. Energy economics, 102-121
  • Carfora, A., Scandurra, G., & Thomas, A. (2022). Forecasting the COVID-19 effects on energy poverty across EU member states. Energy policy, 161-183
  • Charlier, D., & Legendre, B. (2019). A multidimensional approach to measuring fuel poverty. The Energy Journal, 40(2).
  • Chaton, C., & Gouraud, A. (2020). Simulation of fuel poverty in France. Energy policy, 140-150
  • Che, X., Zhu, B., & Wang, P. (2021). Assessing global energy poverty: An integrated approach. Energy Policy, 149-166
  • Dalla Longa, F., Sweerts, B., & van der Zwaan, B. (2021). Exploring the complex origins of energy poverty in The Netherlands with machine learning. Energy Policy, 156, 112373.
  • Day, R., Walker, G., & Simcock, N. (2016). Conceptualising energy use and energy poverty using a capabilities framework. Energy Policy, 93, 255-264.
  • Deller, D., Turner, G., & Price, C. W. (2021). Energy poverty indicators: Inconsistencies, implications and where next?. Energy Economics, 103, 105551.
  • Delugas, E., & Brau, R. (2021). Evaluating the impact of energy poverty in a multidimensional setting. The Energy Journal, 42(1).
  • Dogan, E., Madaleno, M., & Taskin, D. (2021). Which households are more energy vulnerable? Energy poverty and financial inclusion in Turkey. Energy Economics, 99, 105306.
  • El‐Katiri, L. (2014). The energy poverty nexus in the Middle East and North Africa. OPEC Energy Review, 38(3), 296-322.
  • Erdoğdu, S. (2021). Turkey's Energy Outlook. " 3. On Energy Poverty in the World and Turkey”, 38
  • Faiella, I., & Lavecchia, L. (2014). Energy poverty in Italy (No. 240). Bank of Italy, Economic Research and International Relations Area.
  • Gupta, S., Gupta, E., & Sarangi, G. K. (2020). Household Energy Poverty Index for India: An analysis of inter-state differences. Energy Policy, 144-165
  • Hills, J. (2011). Fuel poverty: The problem and its measurement. Interim report of the Fuel Poverty Review (No. casereport69). Centre for Analysis of Social Exclusion, LSE.
  • Huang, L., Zhu, B., Wang, P., & Chevallier, J. (2022). Energy out-of-poverty and inclusive growth: Evidence from the China health and nutrition survey. Structural Change and Economic Dynamics, 60, 344-352.
  • IEA (2020). “World Energy Outlook 2020”. International Energy Agency.
  • IEA (2021). “World Energy Outlook 2021”. International Energy Agency.
  • ILO (2021). “World Employment and Social Outlook Trends. (2021)”. International Labour Organization, Geneva: International Labour Office.
  • Jayasinghe, M., Selvanathan, E. A., & Selvanathan, S. (2021). Energy poverty in Sri Lanka. Energy Economics, 101, 105450.
  • Karásek, J., & Pojar, J. (2018). Programme to reduce energy poverty in the Czech Republic. Energy Policy, 115, 131-137.
  • Katarzyna, S. (2017). The impact of energy poverty on the level of social security. In 2017 International Conference on Management Science and Management Innovation (MSMI 2017) (pp. 175-178). Atlantis Press.
  • Kelly, J. A., Clinch, J. P., Kelleher, L., & Shahab, S. (2020). Enabling a just transition: A composite indicator for assessing home-heating energy-poverty risk and the impact of environmental policy measures. Energy Policy, 146-173
  • Khanna, R. A., Li, Y., Mhaisalkar, S., Kumar, M., & Liang, L. J. (2019). Comprehensive energy poverty index: Measuring energy poverty and identifying micro-level solutions in South and Southeast Asia. Energy Policy, 132, 379-391.
  • Koomson, I., & Danquah, M. (2021). Financial inclusion and energy poverty: Empirical evidence from Ghana. Energy economics, 94-105
  • Liang, L., & Lu, Q. (2017). Research on China's energy poverty evaluation framework based on the Capabilities theory. In 2nd International Symposium on Business Corporation and Development in South-East and South Asia under B&R Initiative (ISBCD 2017) (pp. 279-282). Atlantis Press.
  • Liddell, C., & Morris, C. (2010). Fuel poverty and human health: a review of recent evidence. Energy policy, 38(6), 2987-2997.
  • Lin, B., Wang, Y. (2020). Does energy poverty really exist in China, From the perspective of residential electricity consumption. Energy Pol. 143-158
  • Marchand, R., Genovese, A., Koh, S. L., & Brennan, A. (2019). Examining the relationship between energy poverty and measures of deprivation. Energy policy, 130, 206-217.
  • Martín-Consuegra, F., Giménez, J. G., Alonso, C., Hernández, R. C., Aja, A. H., & Oteiza, I. (2020). Multidimensional index of fuel poverty in deprived neighbourhoods. Case study of Madrid. Energy and Buildings, 224-234
  • Martinez-Soto, A., Vera, C. C. A., Boso, A., Hofflinger, A., & Shupler, M. (2021). Energy poverty influences urban outdoor air pollution levels during COVID-19 lockdown in south-central Chile. Energy policy, 158-177
  • Mendoza Jr, C. B., Cayonte, D. D. D., Leabres, M. S., & Manaligod, L. R. A. (2019). Understanding multidimensional energy poverty in the Philippines. Energy Policy, 133-152
  • Mohsin, M., Taghizadeh-Hesary, F., & Shahbaz, M. (2022). Nexus between financial development and energy poverty in Latin America. Energy Policy, 165-177
  • Nathan, H. S. K., & Hari, L. (2020). Towards a new approach in measuring energy poverty: Household level analysis of urban India. Energy Policy, 140-161
  • Nduka, E. (2021). How to get rural households out of energy poverty in Nigeria: A contingent valuation. Energy Policy, 149-157
  • Nie, P., Li, Q., & Sousa-Poza, A. (2021). Energy poverty and subjective well-being in China: New evidence from the China Family Panel Studies. Energy Economics, 103-132
  • Nussbaumer, P., Bazilian, M., & Modi, V. (2012). Measuring energy poverty: Focusing on what matters. Renewable and Sustainable Energy Reviews, 16(1), 231-243.
  • Nussbaumer, P., Fuso Nerini, F., Onyeji, I., & Howells, M. (2013). Global insights based on the multidimensional energy poverty index (MEPI). Sustainability, 5(5), 2060-2076.
  • Öcal, A. T., & Arslan, T. B. (2022). Focusing on Energy Poverty in the World: Issues and Policies. Human and Human, 18 – 27.
  • Ogwumike, F. O., & Ozughalu, U. M. (2016). Analysis of energy poverty and its implications for sustainable development in Nigeria. Environment and development economics, 21(3), 273-290.
  • Okushima, S. (2016). Measuring energy poverty in Japan, 2004–2013. Energy policy, 98, 557-564.
  • Okushima, S. (2019). Understanding regional energy poverty in Japan: A direct measurement approach. Energy and Buildings, 193, 174-184.
  • Olang, T. A., Esteban, M., & Gasparatos, A. (2018). Lighting and cooking fuel choices of households in Kisumu City, Kenya: A multidimensional energy poverty perspective. Energy for Sustainable Development, 42, 1-13.
  • Olawumi Israel‐Akinbo, S., Snowball, J., & Fraser, G. (2018). An investigation of multidimensional energy poverty among South African low‐income households. South African journal of economics, 86(4), 468-487.
  • Pablo, Q. S., Paloma, T. D. L. P., & Francisco, J. T. (2019). Energy poverty in Ecuador. Sustainability, 11(22), 6320.
  • Pachauri, S., & Spreng, D. (2011). Measuring and monitoring energy poverty. Energy policy, 39(12), 7497-7504.
  • Pachauri, S., Mueller, A., Kemmler, A., & Spreng, D. (2004). On measuring energy poverty in Indian households. World development, 32(12), 2083-2104.
  • Pan, L., Biru, A., & Lettu, S. (2021). Energy poverty and public health: Global evidence. Energy economics, 101, 105423.
  • Papada, L., & Kaliampakos, D. (2016). Measuring energy poverty in Greece. Energy Policy, 94, 157-165.
  • Papada, L., & Kaliampakos, D. (2018). A Stochastic Model for energy poverty analysis. Energy Policy, 116, 153-164.
  • Pereira, M. G., Freitas, M. A. V., & da Silva, N. F. (2011). The challenge of energy poverty: Brazilian case study. Energy Policy, 39(1), 167-175.
  • Phimister, E., Vera-Toscano, E., & Roberts, D. (2015). The dynamics of energy poverty: evidence from Spain. Economics of Energy & Environmental Policy, 4(1), 153-166.
  • Piwowar, A. (2020). Outline of the Problem of Energy Poverty in Poland–Trend and Extent.
  • Piwowar, A. (2021). The Level of Energy Poverty in Poland Compared to other European Union Countries.
  • Poblete-Cazenave, M., & Pachauri, S. (2021). A model of energy poverty and access: Estimating household electricity demand and appliance ownership. Energy Economics, 98-124 Rodriguez-Alvarez, A., Llorca, M., & Jamasb, T. (2021). Alleviating energy poverty in Europe: Front-runners and laggards. Energy Economics, 103-134.
  • Romero, J. C., Linares, P., & López, X. (2018). The policy implications of energy poverty indicators. Energy policy, 115, 98-108.
  • Sadath, A. C., & Acharya, R. H. (2017). Assessing the extent and intensity of energy poverty using Multidimensional Energy Poverty Index: Empirical evidence from households in India. Energy Policy, 102, 540-550.
  • Samarakoon, S. (2019). A justice and wellbeing-centered framework for analysing energy poverty in the Global South. Ecological Economics, 165 -189
  • Sambodo, M. T., & Novandra, R. (2019). The state of energy poverty in Indonesia and its impact on welfare. Energy Policy, 132, 113-121.
  • Sánchez, C. S. G., Fernández, A. S., Peiró, M. N., & Muñoz, G. G. (2020). Energy poverty in Madrid: Data exploitation at the city and district level. Energy Policy, 144, 111653.
  • Sanchez-Guevara, C., Peiró, M. N., Taylor, J., Mavrogianni, A., & González, J. N. (2019). Assessing population vulnerability towards summer energy poverty: Case studies of Madrid and London. Energy and Buildings, 190, 132-143.
  • Santillán, O. S., Cedano, K. G., & Martínez, M. (2020). Analysis of energy poverty in 7 Latin American countries using multidimensional energy poverty index. Energies, 13(7), 1-19
  • Scarpellini, S., Hernández, M. A. S., Moneva, J. M., Portillo-Tarragona, P., & Rodríguez, M. E.L. (2019). Measurement of spatial socioeconomic impact of energy poverty. Energy Policy, 124, 320-331.
  • Selçuk, I. Ş., Gölçek, A. G., & Köktaş, A. M. (2019). Energy poverty in Turkey. Socioeconomics, 27(42), 283-299.
  • Selçuk, I. Ş., & Köktaş, A. M. (2018). Journal of Political Economic Theory and Social Sciences." Energy Poverty in the EU and Turkey ", 283- 299
  • Seuret-Jimenez, D., Robles-Bonilla, T., & Cedano, K. G. (2020). Measurement of energy access using fuzzy logic. Energies, 13(12), 3266.
  • Sokołowski, J., Lewandowski, P., Kiełczewska, A., & Bouzarovski, S. (2020). A multidimensional index to measure energy poverty: the Polish case. Energy Sources, Part B: Economics, Planning, and Policy, 15(2), 92-112.
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  • Streimikiene, D. (2022). COVID-19 impacts on Energy Poverty: Lithuanian case study.
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  • Ye, Y., & Koch, S. F. (2021). Measuring energy poverty in South Africa based on household required energy consumption. Energy economics, 98-113
  • Zhao, J., Jiang, Q., Dong, X., & Dong, K. (2021). Assessing energy poverty and its effect on CO2 emissions: the case of China. Energy economics,1- 97

A Review of Literature on Measuring Energy Poverty

Yıl 2023, , 336 - 361, 10.08.2023
https://doi.org/10.17494/ogusbd.1241989

Öz

This article analyzes the studies on energy poverty and its measurement between 2004 and 2022. A search of the Web of Science database with the keyword "energy poverty measurement" yielded 195 articles, among which 69 articles were found. In the study, first of all, information about the definition of energy poverty, the problems it causes and its determining criteria. In the next step, other determinants of energy poverty are explained with the help of graphs and tables. In the methodology section, the articles are analyzed in detail according to the economic development of the countries and the measurement models used. Finally, conclusions and recommendations are presented and future work is suggested to find a universally accepted measurement model.

Kaynakça

  • Ahmed, A., & Gasparatos, A. (2020). Multi-dimensional energy poverty patterns around industrial crop projects in Ghana: Enhancing the energy poverty alleviation potential of rural development strategies. Energy Policy, 137, 111-123.
  • Ampofo, A., & Mabefam, M. G. (2021). Religiosity and Energy Poverty: Empirical evidence across countries. Energy Economics, 102-118
  • Apergis, N., Polemis, M., & Soursou, S. E. (2022). Energy poverty and education: Fresh evidence from a panel of developing countries. Energy Economics, 106-120
  • Aristondo, O., & Onaindia, E. (2018). Counting energy poverty in Spain between 2004 and 2015. Energy Policy, 113, 420-429.
  • Banerjee, R., Mishra, V., & Maruta, A. A. (2021). Energy poverty, health and education outcomes: evidence from the developing world. Energy economics, 101-119
  • Barnes, D. F., Khandker, S. R., & Samad, H. A. (2011). Energy poverty in rural Bangladesh. Energy policy, 39(2), 894-904.
  • Betto, F., Garengo, P., & Lorenzoni, A. (2020). A new measure of Italian hidden energy poverty. Energy policy, 138-155
  • Boardman, B. (1991). Fuel Poverty: From Cold Homes to Affordable Warmth
  • Bouzarovski, S., Petrova, S., & Sarlamanov, R. (2012). Energy poverty policies in the EU: A critical perspective. Energy policy, 49, 76-82.
  • Burlinson, A., Giulietti, M., Law, C., & Liu, H. H. (2021). Fuel poverty and financial distress. Energy economics, 102-121
  • Carfora, A., Scandurra, G., & Thomas, A. (2022). Forecasting the COVID-19 effects on energy poverty across EU member states. Energy policy, 161-183
  • Charlier, D., & Legendre, B. (2019). A multidimensional approach to measuring fuel poverty. The Energy Journal, 40(2).
  • Chaton, C., & Gouraud, A. (2020). Simulation of fuel poverty in France. Energy policy, 140-150
  • Che, X., Zhu, B., & Wang, P. (2021). Assessing global energy poverty: An integrated approach. Energy Policy, 149-166
  • Dalla Longa, F., Sweerts, B., & van der Zwaan, B. (2021). Exploring the complex origins of energy poverty in The Netherlands with machine learning. Energy Policy, 156, 112373.
  • Day, R., Walker, G., & Simcock, N. (2016). Conceptualising energy use and energy poverty using a capabilities framework. Energy Policy, 93, 255-264.
  • Deller, D., Turner, G., & Price, C. W. (2021). Energy poverty indicators: Inconsistencies, implications and where next?. Energy Economics, 103, 105551.
  • Delugas, E., & Brau, R. (2021). Evaluating the impact of energy poverty in a multidimensional setting. The Energy Journal, 42(1).
  • Dogan, E., Madaleno, M., & Taskin, D. (2021). Which households are more energy vulnerable? Energy poverty and financial inclusion in Turkey. Energy Economics, 99, 105306.
  • El‐Katiri, L. (2014). The energy poverty nexus in the Middle East and North Africa. OPEC Energy Review, 38(3), 296-322.
  • Erdoğdu, S. (2021). Turkey's Energy Outlook. " 3. On Energy Poverty in the World and Turkey”, 38
  • Faiella, I., & Lavecchia, L. (2014). Energy poverty in Italy (No. 240). Bank of Italy, Economic Research and International Relations Area.
  • Gupta, S., Gupta, E., & Sarangi, G. K. (2020). Household Energy Poverty Index for India: An analysis of inter-state differences. Energy Policy, 144-165
  • Hills, J. (2011). Fuel poverty: The problem and its measurement. Interim report of the Fuel Poverty Review (No. casereport69). Centre for Analysis of Social Exclusion, LSE.
  • Huang, L., Zhu, B., Wang, P., & Chevallier, J. (2022). Energy out-of-poverty and inclusive growth: Evidence from the China health and nutrition survey. Structural Change and Economic Dynamics, 60, 344-352.
  • IEA (2020). “World Energy Outlook 2020”. International Energy Agency.
  • IEA (2021). “World Energy Outlook 2021”. International Energy Agency.
  • ILO (2021). “World Employment and Social Outlook Trends. (2021)”. International Labour Organization, Geneva: International Labour Office.
  • Jayasinghe, M., Selvanathan, E. A., & Selvanathan, S. (2021). Energy poverty in Sri Lanka. Energy Economics, 101, 105450.
  • Karásek, J., & Pojar, J. (2018). Programme to reduce energy poverty in the Czech Republic. Energy Policy, 115, 131-137.
  • Katarzyna, S. (2017). The impact of energy poverty on the level of social security. In 2017 International Conference on Management Science and Management Innovation (MSMI 2017) (pp. 175-178). Atlantis Press.
  • Kelly, J. A., Clinch, J. P., Kelleher, L., & Shahab, S. (2020). Enabling a just transition: A composite indicator for assessing home-heating energy-poverty risk and the impact of environmental policy measures. Energy Policy, 146-173
  • Khanna, R. A., Li, Y., Mhaisalkar, S., Kumar, M., & Liang, L. J. (2019). Comprehensive energy poverty index: Measuring energy poverty and identifying micro-level solutions in South and Southeast Asia. Energy Policy, 132, 379-391.
  • Koomson, I., & Danquah, M. (2021). Financial inclusion and energy poverty: Empirical evidence from Ghana. Energy economics, 94-105
  • Liang, L., & Lu, Q. (2017). Research on China's energy poverty evaluation framework based on the Capabilities theory. In 2nd International Symposium on Business Corporation and Development in South-East and South Asia under B&R Initiative (ISBCD 2017) (pp. 279-282). Atlantis Press.
  • Liddell, C., & Morris, C. (2010). Fuel poverty and human health: a review of recent evidence. Energy policy, 38(6), 2987-2997.
  • Lin, B., Wang, Y. (2020). Does energy poverty really exist in China, From the perspective of residential electricity consumption. Energy Pol. 143-158
  • Marchand, R., Genovese, A., Koh, S. L., & Brennan, A. (2019). Examining the relationship between energy poverty and measures of deprivation. Energy policy, 130, 206-217.
  • Martín-Consuegra, F., Giménez, J. G., Alonso, C., Hernández, R. C., Aja, A. H., & Oteiza, I. (2020). Multidimensional index of fuel poverty in deprived neighbourhoods. Case study of Madrid. Energy and Buildings, 224-234
  • Martinez-Soto, A., Vera, C. C. A., Boso, A., Hofflinger, A., & Shupler, M. (2021). Energy poverty influences urban outdoor air pollution levels during COVID-19 lockdown in south-central Chile. Energy policy, 158-177
  • Mendoza Jr, C. B., Cayonte, D. D. D., Leabres, M. S., & Manaligod, L. R. A. (2019). Understanding multidimensional energy poverty in the Philippines. Energy Policy, 133-152
  • Mohsin, M., Taghizadeh-Hesary, F., & Shahbaz, M. (2022). Nexus between financial development and energy poverty in Latin America. Energy Policy, 165-177
  • Nathan, H. S. K., & Hari, L. (2020). Towards a new approach in measuring energy poverty: Household level analysis of urban India. Energy Policy, 140-161
  • Nduka, E. (2021). How to get rural households out of energy poverty in Nigeria: A contingent valuation. Energy Policy, 149-157
  • Nie, P., Li, Q., & Sousa-Poza, A. (2021). Energy poverty and subjective well-being in China: New evidence from the China Family Panel Studies. Energy Economics, 103-132
  • Nussbaumer, P., Bazilian, M., & Modi, V. (2012). Measuring energy poverty: Focusing on what matters. Renewable and Sustainable Energy Reviews, 16(1), 231-243.
  • Nussbaumer, P., Fuso Nerini, F., Onyeji, I., & Howells, M. (2013). Global insights based on the multidimensional energy poverty index (MEPI). Sustainability, 5(5), 2060-2076.
  • Öcal, A. T., & Arslan, T. B. (2022). Focusing on Energy Poverty in the World: Issues and Policies. Human and Human, 18 – 27.
  • Ogwumike, F. O., & Ozughalu, U. M. (2016). Analysis of energy poverty and its implications for sustainable development in Nigeria. Environment and development economics, 21(3), 273-290.
  • Okushima, S. (2016). Measuring energy poverty in Japan, 2004–2013. Energy policy, 98, 557-564.
  • Okushima, S. (2019). Understanding regional energy poverty in Japan: A direct measurement approach. Energy and Buildings, 193, 174-184.
  • Olang, T. A., Esteban, M., & Gasparatos, A. (2018). Lighting and cooking fuel choices of households in Kisumu City, Kenya: A multidimensional energy poverty perspective. Energy for Sustainable Development, 42, 1-13.
  • Olawumi Israel‐Akinbo, S., Snowball, J., & Fraser, G. (2018). An investigation of multidimensional energy poverty among South African low‐income households. South African journal of economics, 86(4), 468-487.
  • Pablo, Q. S., Paloma, T. D. L. P., & Francisco, J. T. (2019). Energy poverty in Ecuador. Sustainability, 11(22), 6320.
  • Pachauri, S., & Spreng, D. (2011). Measuring and monitoring energy poverty. Energy policy, 39(12), 7497-7504.
  • Pachauri, S., Mueller, A., Kemmler, A., & Spreng, D. (2004). On measuring energy poverty in Indian households. World development, 32(12), 2083-2104.
  • Pan, L., Biru, A., & Lettu, S. (2021). Energy poverty and public health: Global evidence. Energy economics, 101, 105423.
  • Papada, L., & Kaliampakos, D. (2016). Measuring energy poverty in Greece. Energy Policy, 94, 157-165.
  • Papada, L., & Kaliampakos, D. (2018). A Stochastic Model for energy poverty analysis. Energy Policy, 116, 153-164.
  • Pereira, M. G., Freitas, M. A. V., & da Silva, N. F. (2011). The challenge of energy poverty: Brazilian case study. Energy Policy, 39(1), 167-175.
  • Phimister, E., Vera-Toscano, E., & Roberts, D. (2015). The dynamics of energy poverty: evidence from Spain. Economics of Energy & Environmental Policy, 4(1), 153-166.
  • Piwowar, A. (2020). Outline of the Problem of Energy Poverty in Poland–Trend and Extent.
  • Piwowar, A. (2021). The Level of Energy Poverty in Poland Compared to other European Union Countries.
  • Poblete-Cazenave, M., & Pachauri, S. (2021). A model of energy poverty and access: Estimating household electricity demand and appliance ownership. Energy Economics, 98-124 Rodriguez-Alvarez, A., Llorca, M., & Jamasb, T. (2021). Alleviating energy poverty in Europe: Front-runners and laggards. Energy Economics, 103-134.
  • Romero, J. C., Linares, P., & López, X. (2018). The policy implications of energy poverty indicators. Energy policy, 115, 98-108.
  • Sadath, A. C., & Acharya, R. H. (2017). Assessing the extent and intensity of energy poverty using Multidimensional Energy Poverty Index: Empirical evidence from households in India. Energy Policy, 102, 540-550.
  • Samarakoon, S. (2019). A justice and wellbeing-centered framework for analysing energy poverty in the Global South. Ecological Economics, 165 -189
  • Sambodo, M. T., & Novandra, R. (2019). The state of energy poverty in Indonesia and its impact on welfare. Energy Policy, 132, 113-121.
  • Sánchez, C. S. G., Fernández, A. S., Peiró, M. N., & Muñoz, G. G. (2020). Energy poverty in Madrid: Data exploitation at the city and district level. Energy Policy, 144, 111653.
  • Sanchez-Guevara, C., Peiró, M. N., Taylor, J., Mavrogianni, A., & González, J. N. (2019). Assessing population vulnerability towards summer energy poverty: Case studies of Madrid and London. Energy and Buildings, 190, 132-143.
  • Santillán, O. S., Cedano, K. G., & Martínez, M. (2020). Analysis of energy poverty in 7 Latin American countries using multidimensional energy poverty index. Energies, 13(7), 1-19
  • Scarpellini, S., Hernández, M. A. S., Moneva, J. M., Portillo-Tarragona, P., & Rodríguez, M. E.L. (2019). Measurement of spatial socioeconomic impact of energy poverty. Energy Policy, 124, 320-331.
  • Selçuk, I. Ş., Gölçek, A. G., & Köktaş, A. M. (2019). Energy poverty in Turkey. Socioeconomics, 27(42), 283-299.
  • Selçuk, I. Ş., & Köktaş, A. M. (2018). Journal of Political Economic Theory and Social Sciences." Energy Poverty in the EU and Turkey ", 283- 299
  • Seuret-Jimenez, D., Robles-Bonilla, T., & Cedano, K. G. (2020). Measurement of energy access using fuzzy logic. Energies, 13(12), 3266.
  • Sokołowski, J., Lewandowski, P., Kiełczewska, A., & Bouzarovski, S. (2020). A multidimensional index to measure energy poverty: the Polish case. Energy Sources, Part B: Economics, Planning, and Policy, 15(2), 92-112.
  • Spiliotis, E., Arsenopoulos, A., Kanellou, E., Psarras, J., & Kontogiorgos, P. (2020). A multi-sourced data-based framework for assisting utilities identify energy poor households: A case-study in Greece. Energy Sources, Part B: Economics, Planning, and Policy, 15(2), 49-71.
  • Ssennono, V. F., Ntayi, J. M., Buyinza, F., Wasswa, F., Aarakit, S. M., & Mukiza, C. N. (2021). Energy poverty in Uganda: Evidence from a multidimensional approach. Energy Economics, 1-101
  • Streimikiene, D. (2022). COVID-19 impacts on Energy Poverty: Lithuanian case study.
  • Tait, L. Towards a multidimensional framework for measuring household energy access: Application to South Africa. Energy Sustain. Dev. 2017, 38, 1–9
  • Vermaak, C., Kohler, M., & Rhodes, D. B. (2009). Developing energy-based poverty indicators for South Africa. Journal of Interdisciplinary Economics, 21(2), 163-195.
  • World Economic Forum (WEF). (2010). Energy Access Summaries. Tanzania: Dar-es-Salaam.
  • Ye, Y., & Koch, S. F. (2021). Measuring energy poverty in South Africa based on household required energy consumption. Energy economics, 1-103
  • Ye, Y., & Koch, S. F. (2021). Measuring energy poverty in South Africa based on household required energy consumption. Energy economics, 98-113
  • Zhao, J., Jiang, Q., Dong, X., & Dong, K. (2021). Assessing energy poverty and its effect on CO2 emissions: the case of China. Energy economics,1- 97
Toplam 85 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Makaleler
Yazarlar

Shahlar Isazade 0000-0002-0298-6374

Meral Altan 0000-0002-6626-7045

Yayımlanma Tarihi 10 Ağustos 2023
Gönderilme Tarihi 25 Ocak 2023
Yayımlandığı Sayı Yıl 2023

Kaynak Göster

APA Isazade, S., & Altan, M. (2023). A Review of Literature on Measuring Energy Poverty. Eskişehir Osmangazi Üniversitesi Sosyal Bilimler Dergisi, 24(2), 336-361. https://doi.org/10.17494/ogusbd.1241989
AMA Isazade S, Altan M. A Review of Literature on Measuring Energy Poverty. Eskişehir Osmangazi Üniversitesi Sosyal Bilimler Dergisi. Ağustos 2023;24(2):336-361. doi:10.17494/ogusbd.1241989
Chicago Isazade, Shahlar, ve Meral Altan. “A Review of Literature on Measuring Energy Poverty”. Eskişehir Osmangazi Üniversitesi Sosyal Bilimler Dergisi 24, sy. 2 (Ağustos 2023): 336-61. https://doi.org/10.17494/ogusbd.1241989.
EndNote Isazade S, Altan M (01 Ağustos 2023) A Review of Literature on Measuring Energy Poverty. Eskişehir Osmangazi Üniversitesi Sosyal Bilimler Dergisi 24 2 336–361.
IEEE S. Isazade ve M. Altan, “A Review of Literature on Measuring Energy Poverty”, Eskişehir Osmangazi Üniversitesi Sosyal Bilimler Dergisi, c. 24, sy. 2, ss. 336–361, 2023, doi: 10.17494/ogusbd.1241989.
ISNAD Isazade, Shahlar - Altan, Meral. “A Review of Literature on Measuring Energy Poverty”. Eskişehir Osmangazi Üniversitesi Sosyal Bilimler Dergisi 24/2 (Ağustos 2023), 336-361. https://doi.org/10.17494/ogusbd.1241989.
JAMA Isazade S, Altan M. A Review of Literature on Measuring Energy Poverty. Eskişehir Osmangazi Üniversitesi Sosyal Bilimler Dergisi. 2023;24:336–361.
MLA Isazade, Shahlar ve Meral Altan. “A Review of Literature on Measuring Energy Poverty”. Eskişehir Osmangazi Üniversitesi Sosyal Bilimler Dergisi, c. 24, sy. 2, 2023, ss. 336-61, doi:10.17494/ogusbd.1241989.
Vancouver Isazade S, Altan M. A Review of Literature on Measuring Energy Poverty. Eskişehir Osmangazi Üniversitesi Sosyal Bilimler Dergisi. 2023;24(2):336-61.