Household awareness, acceptance, and willingness to pay for renewable energy

Leomar Sabroso; Maria Niña Kyla Suaner; Elaine Lucmayon; John Roland Asio

doi:10.48017/dj.v9i1_Special.2944

Autores

Leomar Sabroso University of Mindanao. Davao City, Philippines https://orcid.org/0000-0002-0553-3303
Maria Niña Kyla Suaner University of Mindanao. Davao City, Philippines
Elaine Lucmayon University of Mindanao. Davao City, Philippines
John Roland Asio University of Mindanao. Davao City, Philippines

DOI:

https://doi.org/10.48017/dj.v9i1_Special.2944

Palavras-chave:

Disposição a pagar, conscientização, energia renovável

Resumo

O objetivo deste estudo foi determinar o nível de conscientização, aceitação e disposição das famílias em pagar por energia renovável. É a pesquisa quantitativa que determina a diferença significativa especificamente no valor da disposição a pagar pelas energias renováveis quando analisada por perfil; a relação significativa precisamente entre o nível de consciência e a disposição a pagar; e a relação significativa, particularmente entre o nível de aceitação da tecnologia e a disposição a pagar. As variáveis independentes do estudo são o nível de conhecimento e o modelo de aceitação da tecnologia. A variável dependente é a disposição a pagar. A variável mediadora é o perfil dos respondentes. Os entrevistados foram contatados através de plataformas online para coleta de dados e receberam um questionário de pesquisa online. Depois de concluir a seção de perfil, eles procuraram responder a perguntas anteriores ao seu nível de conhecimento, método de aceitação da tecnologia e disposição a pagar. A seguir, os resultados foram analisados estatisticamente por meio de Regressão Logística e ANOVA Two-Way. Depois de executar os dados, eles são interpretados para determinar a diferença significativa e o relacionamento. Os pesquisadores determinaram então que há uma diferença significativa no valor da disposição a pagar pelas energias renováveis quando analisada de acordo com o perfil; uma relação significativa entre o nível de conhecimento e a disposição para pagar; e uma relação significativa entre o nível de aceitação da tecnologia, especificamente a utilidade percebida, e a disposição a pagar.

Métricas

Carregando Métricas ...

Biografia do Autor

Leomar Sabroso, University of Mindanao. Davao City, Philippines

0000-0002-0553-3303; University of Mindanao. Davao City, Philippines. leomar_sabroso@umindanao.edu.ph

Maria Niña Kyla Suaner, University of Mindanao. Davao City, Philippines

0009-0002-6657-4712; University of Mindanao. Davao City, Philippines. m.suaner.485508@umindanao.edu.ph

Elaine Lucmayon, University of Mindanao. Davao City, Philippines

0009-0004-8120-2137; University of Mindanao. Davao City, Philippines. e.lucmayon.510601@umindanao.edu.ph

John Roland Asio, University of Mindanao. Davao City, Philippines

0009-0007-7665-697X; University of Mindanao. Davao City, Philippines.

j.asio.512962@umindanao.edu.ph

Referências

Adnan, N. (2024). Powering up minds: Exploring consumer responses to home energy efficiency. Energy Reports, 11, 2316-2332.

Al‐Sarihi, A., & Cherni, J. A. (2023). Political economy of renewable energy transition in rentier states: The case of Oman. Environmental Policy and Governance, 33(4), 423-439.

Alipour, M., Zare, S. G., Taghikhah, F., & Hafezi, R. (2023). Sociodemographic and individual predictors of residential solar water heater adoption behaviour. Energy Research & Social Science, 101, 103155.

Altassan, A. (2023). Sustainable Integration of Solar Energy, Behavior Change, and Recycling Practices in Educational Institutions: A Holistic Framework for Environmental Conservation and Quality Education. Sustainability, 15(20), 15157.

Ayodele, T. R., Ogunjuyigbe, A. S. O., Ajayi, O. D., Yusuff, A. A., & Mosetlhe, T. C. (2021). Willingness to pay for green electricity derived from renewable energy sources in Nigeria. Renewable and Sustainable Energy Reviews, 148, 111279.

Azimi, S., Hon, C. K., Tyvimaa, T., & Skitmore, M. (2023). Barriers to energy efficiency: Low-income households in Australia. Buildings, 13(4), 954.

Bachan, B., Maharaj, S., Boodlal, D., & Maharaj, R. (2024). Community entrepreneurship potential for renewable energy adoption in Trinidad and Tobago. Journal of Smart Science and Technology, 4(1), 19-32.

Batool, K., Zhao, Z. Y., Irfan, M., & Żywiołek, J. (2023). Assessing the role of sustainable strategies in alleviating energy poverty: an environmental sustainability paradigm. Environmental Science and Pollution Research, 30(25), 67109-67130.

Behera, P., Behera, B., Sethi, N., & Handoyo, R. D. (2024). What drives environmental sustainability? The role of renewable energy, green innovation, and political stability in OECD economies. International Journal of Sustainable Development & World Ecology, 1-15.

Bergquist, P., Konisky, D. M., & Kotcher, J. (2020). Energy policy and public opinion: patterns, trends and future directions. Progress in Energy, 2(3), 032003.

Berkouwer, S., & Dean, J. (2021). Barriers to Energy Efficiency Adoption in Low-Income Communities. Kleinman Center for Energy Policy.

Bhandari, P. (2020). What is quantitative research?| Definition, uses and methods. Scribbr Official Portal. Available on.

Calculli, C., D'Uggento, A. M., Labarile, A., & Ribecco, N. (2021). Evaluating people's awareness about climate changes and environmental issues: A case study. Journal of Cleaner Production, 324, 129244.

Ciu, E., & Wijayanti, C. A. (2024). The Role of Consumer Ethnocentrism, Perceived Quality, Perceived Price, and Perceived Brand Image on Willingness to Buy Erigo Clothing. Klabat Journal of Management, 5(1), 49-71.

Damodaram, A., Chakravarthi, S., Tulasi, C., & Ramanamma, C. (2020, November). Recent Decade Global Trends in Renewable Energy and Investments–A Review. In International E-Conference on Energy, Control, Computing and Electronic Systems (E-ICECCES).

Dangelico, R. M., Ceccarelli, G., & Fraccascia, L. (2024). Consumer behavioral intention toward sustainable biscuits: An extension of the theory of planned behavior with product familiarity and perceived value. Business Strategy and the Environment.

Davis, F. D. (1989). Perceived Usefulness, Perceived Ease of Use, and User Acceptance of Information Technology. *MIS Quarterly, 13*(3), 319-340.

Del Río, P., & Kiefer, C. P. (2022). Which policy instruments promote innovation in renewable electricity technologies? A critical review of the literature with a focus on auctions. Energy Research & Social Science, 89, 102501.

Djurisic, V., Smolovic, J. C., Misnic, N., & Rogic, S. (2020). Analysis of public attitudes and perceptions towards renewable energy sources in Montenegro. Energy Reports, 6, 395-403.

Elasu, J., Ntayi, J. M., Adaramola, M. S., & Buyinza, F. (2023). Drivers of household transition to clean energy fuels: A systematic review of evidence. Renewable and Sustainable Energy Transition, 3, 100047.

Falcone, P. M. (2023). Sustainable energy policies in developing countries: a review of challenges and opportunities. Energies, 16(18), 6682.

Gajdzik, B., Wolniak, R., Nagaj, R., Grebski, W. W., & Romanyshyn, T. (2023). Barriers to renewable energy source (RES) installations as determinants of energy consumption in EU countries. Energies, 16(21), 7364.

Gamper-Rabindran, S. (2022). Shifting Away From Coal Power: Prioritizing Ratepayers and Communities vs. Shareholders?. Pace Env't L. Rev., 40, 54.

Gareiou, Z., Giannarou, S., Drimili, E., Vatikiotis, L., & Zervas, E. (2024). Public beliefs and perceptions related to ecofascism. Ethics in Science and Environmental Politics, 24, 47-59.

Gordon, J. A., Balta-Ozkan, N., Haq, A., & Nabavi, S. A. (2024). Necessary and sufficient conditions for deploying hydrogen homes: A consumer-oriented perspective. International Journal of Hydrogen Energy, 69, 982-1021.

Hassan, Q., Viktor, P., Al-Musawi, T. J., Ali, B. M., Algburi, S., Alzoubi, H. M., ... & Jaszczur, M. (2024). The renewable energy role in the global energy Transformations. Renewable Energy Focus, 48, 100545.

Higueras‐Castillo, E., Liébana‐Cabanillas, F., Santos, M. A. D., Zulauf, K., & Wagner, R. (2024). Do you believe it? Green advertising skepticism and perceived value in buying electric vehicles. Sustainable Development.

Hoffman, S. M., & High-Pippert, A. (2010). From private lives to collective action: Recruitment and participation incentives for a community energy program. Energy Policy, 38(12), 7567-7574.

Hussain, S. A., Razi, F., Hewage, K., & Sadiq, R. (2023). The perspective of energy poverty and 1st energy crisis of green transition. Energy, 275, 127487.

Hwang, K. W., Ahn, J., & Lee, C. Y. (2023). Analysis of consumer willingness to pay for community solar business using contingent valuation method. Sustainability, 15(6), 5029.

Islam, Q., & Ali Khan, S. M. F. (2024). Assessing consumer behavior in sustainable product markets: A structural equation modeling approach with partial least squares analysis. Sustainability, 16(8), 3400.

Kotler, P., Keller, L.K., Brady, M., Goodman, M., & Hansen, T. (2019). Marketing Management. Pearson Education. Fourth European Edition.

Lloyd, S., & Nakamura, T. (2022). Public perceptions of renewable energy in the Philippines. Sustainability, 14(16), 9906.

Maxim, A., Jijie, D. T., & Roman, T. (2022). Why are households willing to pay for renewable energy? Lessons from Romania. Frontiers in Environmental Science, 10, 921152.

Menyeh, B. O. (2021). Financing electricity access in Africa: A choice experiment study of household investor preferences for renewable energy investments in Ghana. Renewable and Sustainable Energy Reviews, 146, 111132.

Minas, A. M., García-Freites, S., Walsh, C., Mukoro, V., Aberilla, J. M., April, A., ... & Mander, S. (2024). Advancing Sustainable Development Goals through energy access: Lessons from the Global South. Renewable and Sustainable Energy Reviews, 199, 114457.

Mohajan, H. K. (2020). Quantitative research: A successful investigation in natural and social sciences. Journal of Economic Development, Environment and People, 9(4), 50-79.

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.

Nguyen, T. D., Shih, M. H., Srivastava, D., Tirthapura, S., & Xu, B. (2021). Stratified random sampling from streaming and stored data. Distributed and Parallel Databases, 39, 665-710.

Oluoch, S., Lal, P., Susaeta, A., Mugabo, R., Masozera, M., & Aridi, J. (2022). Public preferences for renewable energy options: a choice experiment in Rwanda. Frontiers in Climate, 4, 874753.

Osorio, P., Tobarra, M. Á., & Tomás, M. (2024). Are there gender differences in household carbon footprints? Evidence from Spain. Ecological Economics, 219, 108130.

Polcyn, J., Us, Y., Lyulyov, O., Pimonenko, T., & Kwilinski, A. (2021). Factors influencing the renewable energy consumption in selected european countries. Energies, 15(1), 108.

Qayyum, M., Ali, M., Nizamani, M. M., Li, S., Yu, Y., & Jahanger, A. (2021). Nexus between financial development, renewable energy consumption, technological innovations and CO2 emissions: the case of India. Energies, 14(15), 4505.

Rakuasa, H., & Latue, P. C. (2024). Role of Geography Education in Raising Environmental Awareness: A Literature Review. Journal of Education Method and Learning Strategy, 2(01), 1-7.

Rogers, E. M., Singhal, A., & Quinlan, M. M. (2014). Diffusion of innovations. In An integrated approach to communication theory and research (pp. 432-448). Routledge.

Simon, C. A. (2024). Alternative energy: political, economic, and social feasibility. Rowman & Littlefield.

Skordoulis, M., Ntanos, S., & Arabatzis, G. (2020). Socioeconomic evaluation of green energy investments: Analyzing citizens’ willingness to invest in photovoltaics in Greece. International Journal of Energy Sector Management, 14(5), 871-890.

Szeberényi, A., Rokicki, T., & Papp-Váry, Á. (2022). Examining the relationship between renewable energy and environmental awareness. Energies, 15(19), 7082.

UN. (2015). Transforming our world: The 2030 agenda for sustainable development. United Nations.

UNDP. (2020). Sustainable Development Goals: Ensuring universal access to sustainable energy. United Nations Development Programme.

Vardopoulos, I., Vannas, I., Xydis, G., & Vassiliades, C. (2023). Homeowners’ perceptions of renewable energy and market value of sustainable buildings. Energies, 16(10), 4178.

Verma, R., Verma, S., & Abhishek, K. (2024). Research Methodology. Booksclinic Publishing.

Wagner, J., Bühner, C., Gölz, S., Trommsdorff, M., & Jürkenbeck, K. (2024). Factors influencing the willingness to use agrivoltaics: A quantitative study among German farmers. Applied Energy, 361, 122934.

Wall, W. P., Khalid, B., Urbański, M., & Kot, M. (2021). Factors influencing consumer’s adoption of renewable energy. Energies, 14(17), 5420.

Wang, X., & Cheng, Z. (2020). Cross-sectional studies: strengths, weaknesses, and recommendations. Chest, 158(1), S65-S71.