The Multifaceted Impact of Solar Energy on Pakistani Society Economic, Geographic, Sociological, Political, Environmental, and Urban Planning Perspectives
DOI:
https://doi.org/10.63062/trt/V24.016Keywords:
Solar Energy, Renewable Energy, Economic Impact, Policy Framework, Sustainable Development, Energy CrisisAbstract
This review paper highlights the broad perspective of solar energy on Pakistani society, detailing its applicability in economic, geographic, sociological, political environment solidarity, and urban planning. With the world energy map changing to renewables, solar power offers a beacon of light for Pakistan, which is suffering from a severe fuel import-based energy crisis. The paper outlines the promise of solar energy to improve rural livelihoods, help alleviate energy poverty and encourage sustainable agricultural techniques. This paper examines how government policies can support foreign direct investment in the deployment of solar technologies and identifies barriers to implementation, such as financial constraints and technology awareness. With this, environmental benefits that it yields, such as attenuation of carbon emissions and ecological footprints, are laid strong while solar energy is made a part of urban planning initiatives besides smart city projects. The paper also highlights the importance of effective governance, financial assistance, and a creative policy framework to tap Pakistan's renewable potential efficiently. This paper is a call for necessary integrative thinking in long-term solar energy adoption that validates local agendas and achieves global development goals advocated on authoritative levels.
References
Ahmar, M., Ali, F., Jiang, Y., Wang, Y., & Iqbal, K. (2022). Determinants of Adoption and the Type of Solar PV Technology Adopted in Rural Pakistan. Frontiers in Environmental Science, 10. https://doi.org/10.3389/fenvs.2022.895622
Ali, S., Poulova, P., Akbar, A., Javed, H. M. U., & Danish, M. (2020). Determining the Influencing Factors in the Adoption of Solar Photovoltaic Technology in Pakistan: A Decomposed Technology Acceptance Model Approach. Economies, 8(4), 108. https://doi.org/10.3390/economies8040108
Ali, S., Yan, Q., Irfan, M., Ameer, W., Atchike, D. W., & Acevedo-Duque, Á. (2022). Green Investment for Sustainable Business
Development: The Influence of Policy Instruments on Solar Technology Adoption. Frontiers in Energy Research, 10. https://doi.org/10.3389/fenrg.2022.874824
Androniceanu, A., & Sabie, O. M. (2022). Overview of Green Energy as a Real Strategic Option for Sustainable Development. Energies, 15(22), 8573. https://doi.org/10.3390/en15228573
Asghar, N., Amjad, M. A., Rehman, H. U., Munir, M., & Alhajj, R. (2023). Causes of Higher Ecological Footprint in Pakistan: Does Energy Consumption Contribute? Evidence from the Non-Linear ARDL Model. Sustainability, 15(4), 3013. https://doi.org/10.3390/su15043013
Asim, M., Qamar, A., Kanwal, A., Uddin, G. M., Abbas, M. M., Farooq, M., Kalam, M. A., Mousa, M., & Shahapurkar, K. (2022). Opportunities and Challenges for Renewable Energy Utilization in Pakistan. Sustainability, 14(17), 10947. https://doi.org/10.3390/su141710947
Azarpour, A., Mohammadzadeh, O., Rezaei, N., & Zendehboudi, S. (2022). Current status and future prospects of renewable and sustainable energy in North America: Progress and challenges. Energy Conversion and Management, 269, 115945. https://doi.org/10.1016/j.enconman.2022.115945
Batool, K., Zhao, Z., Atif, F., & Dilanchiev, A. (2022). Nexus Between Energy Poverty and Technological Innovations: A Pathway for Addressing Energy Sustainability. Frontiers in Environmental Science, 10. https://doi.org/10.3389/fenvs.2022.888080
Din, S. U., Wimalasiri, R., Ehsan, M., Liang, X., Ning, F., Guo, D., Manzoor, Z., Abu-Alam, T., & Abioui, M. (2023). Assessing public perception and willingness to pay for renewable energy in Pakistan through the theory of planned behavior. Frontiers in Energy Research, 11. https://doi.org/10.3389/fenrg.2023.1088297
Gan, K. E., Taikan, O., Gan, T. Y., Weis, T., Yamazaki, D., & Schüttrumpf, H. (2023). Enhancing Renewable Energy Systems, Contributing to Sustainable Development Goals of the United Nations, and Building Resilience Against Climate Change Impacts. Energy Technology, 11(11). https://doi.org/10.1002/ente.202300275
Habib, M. I., Ghazi, H. M., Sajjad, S., Khan, M., Aslam, F., Mushtaq, M. A., Hussain, S. K., Bhatti, H. A., Naeem, I., & Nadeem, M. A. (2024, June 1). Design, Development, and Deployment of an IoT-Enabled Solar Energy Meter. https://www.jcbi.org/index.php/Main/article/view/522
Haq, F. U., Rashid, T. U., & Zia, U. U. R. (2022). Socio-Economic Prospects of Solar PV Uptake in Energy Policy Landscape of Pakistan. International Journal of Renewable Energy Development, 11(4), 936–949. https://doi.org/10.14710/ijred.2022.46082
Hassan, Q., Viktor, P., Al-Musawi, T. J., Ali, B. M., Algburi, S., Alzoubi, H. M., Al-Jiboory, A. K., Sameen, A. Z., Salman, H. M., & Jaszczur, M. (2024). Renewable energy's role in global energy Transformations. Renewable Energy Focus, 48, 100545. https://doi.org/10.1016/j.ref.2024.100545
Izam, N. S. M. N., Itam, Z., Sing, W. L., & Syamsir, A. (2022). Sustainable Development Perspectives of Solar Energy Technologies with Focus on Solar Photovoltaic—A Review. Energies, 15(8), 2790. https://doi.org/10.3390/en15082790
Khalil, L., Abbas, S., Hussain, K., Zaman, K., Iswan, N., Salamun, H., Hassan, Z. B., & Anser, M. K. (2022). Sanitation, water, energy use, and traffic volume affect environmental quality: Go-for-green developmental policies. PLoS ONE, 17(8), e0271017. https://doi.org/10.1371/journal.pone.0271017
Khan, N., Elhindi, K. M., Kassem, H. S., Kazim, R., & Zhang, S. (2024). Unveiling the nexus between solar energy adoption and crop farmer income: evidence from Pakistan. Frontiers in Sustainable Food Systems, 8. https://doi.org/10.3389/fsufs.2024.1364040
Khatri, S. A., Mirjat, N. H., Harijan, K., Uqaili, M. A., Shah, S. F., Shaikh, P. H., & Kumar, L. (2022). An Overview of the Current Energy Situation of Pakistan and the Way Forward towards Green Energy Implementation. Energies, 16(1), 423. https://doi.org/10.3390/en16010423
Komninos, N. (2022). Net Zero Energy Districts: Connected Intelligence for Carbon-Neutral Cities. Land, 11(2), 210. https://doi.org/10.3390/land11020210
Mustafa, M., Malik, M. O. F., & Maqsoom, A. (2024). Barriers to Solar PV Adoption in Developing Countries: Multiple Regression and Analytical Hierarchy Process Approach. Sustainability, 16(3), 1032. https://doi.org/10.3390/su16031032
Orangzeb, S., Qaisrani, M. A., Shafiq, M. B., Ahmed, N., Sahar, M. S. U., Ullah, S., Farooq, M. U., & Jiabin, F. (2023). Potential Assessment and Economic Analysis of Concentrated Solar Power against Solar Photovoltaic Technology. International Journal of Energy Research, 2023, 1–26. https://doi.org/10.1155/2023/3611318
Rehmani, A. M., Kazmi, S. a. A., Altamimi, A., Khan, Z. A., & Awais, M. (2023). Techno-Economic-Environmental Assessment of an Isolated Rural Micro-Grid from a Mid-Career Repowering Perspective. Sustainability, 15(3), 2137. https://doi.org/10.3390/su15032137
Shah, H. H., Bareschino, P., Mancusi, E., & Pepe, F. (2023). Environmental Life Cycle Analysis and Energy Payback Period Evaluation of Solar PV Systems: The Case of Pakistan. Energies, 16(17), 6400. https://doi.org/10.3390/en16176400
Shah, S. M. K., Rasheed, T. U., & Ali, H. M. (2022). Smart Integrated Decentralization Strategies of Solar Power System in Buildings. International Journal of Photoenergy, 2022, 1–14. https://doi.org/10.1155/2022/9311686
Soomar, A. M., Hakeem, A., Messaoudi, M., Musznicki, P., Iqbal, A., & Czapp, S. (2022). Solar Photovoltaic Energy Optimization and Challenges. Frontiers in Energy Research, 10. https://doi.org/10.3389/fenrg.2022.879985
Turi, J. A., Rosak-Szyrocka, J., Mansoor, M., Asif, H., Nazir, A., & Balsalobre-Lorente, D. (2022). Assessing Wind Energy Projects Potential in Pakistan: Challenges and Way Forward. Energies, 15(23), 9014. https://doi.org/10.3390/en15239014
Usman, M., Jahanger, A., Radulescu, M., & Balsalobre-Lorente, D. (2022). Do Nuclear Energy, Renewable Energy, and Environmental-Related Technologies Asymmetrically Reduce Ecological Footprint? Evidence from Pakistan. Energies, 15(9), 3448. https://doi.org/10.3390/en15093448
Vijayan, D. S., Koda, E., Sivasuriyan, A., Winkler, J., Devarajan, P., Kumar, R. S., Jakimiuk, A., Osinski, P., Podlasek, A., & Vaverková, M. D. (2023). Advancements in Solar Panel Technology in Civil Engineering for Revolutionizing Renewable Energy Solutions—A Review. Energies, 16(18), 6579. https://doi.org/10.3390/en16186579
Xin, Y., Dost, M. K. B., Akram, H., & Watto, W. A. (2022). Analyzing Pakistan’s Renewable Energy Potential: A Review of the Country’s Energy Policy, Its Challenges, and Recommendations. Sustainability, 14(23), 16123. https://doi.org/10.3390/su142316123