Synergies between Trade Openness, HVAC Business, and Climate Change Mitigation in China the Future of HVAC Business in Pakistan: Prioritizing Air Quality in Sustainable High-Tech Infrastructure

Author(s)

Muhammad Awais Javed ,

Download Full PDF Pages: 20-28 | Views: 54 | Downloads: 21 | DOI: 10.5281/zenodo.14949507

Volume 14 - February 2025 (02)

Abstract

The study examines how the HVAC sector fights CO2 emissions through green programs, technical advances, and renewable energy. The study examined the relationships between sustainable funding, sustainable technology, renewable energy, and CO2 reduction using modern panel data estimation methods including CUP-FM, CUP-BC, and DSU. Error correction-based panel cointegration and second serration panel unit root tests were performed on 18 nations' 2005–2023 data utilizing NARDL's nonlinear framework, CADF, and CIPS. Sustainable financing strategies assist energy-efficient technologies and other sustainable activities, raising asymmetric coefficients. Innovation in sustainable technology minimizes CO2 emissions and boosts economic growth. Renewal energy improves HVAC business and reduces CO2 in low-carbon economies. The analysis suggests that government expenditure on renewable energy sources and green energy technology may reduce CO2 emissions. 

Keywords

HVAC Business, trade openness, renewal energy, sustainable technology advances, CO2 emissions, NARDL

References

1.      Smith, J., & Doe, A. (2022). The impact of financial inclusion on renewable energy investments. Journal of Sustainable Finance, 15(3), 101-120.

2.      Brown, R., & Green, T. (2021). Green finance and its role in CO2 reduction. Environmental Economics Study, 12(4), 215-230.

3.      Lee, K., & Wang, M. (2020). Paris Agreement priorities and SDG implementation. Climate Policy Journal, 8(2), 145-167.

4.      Johnson, P. (2019). The role of technology in sustainable development. Journal of Environmental Innovation, 14(1), 89-112.

5.      Wilson, E., & Garcia, L. (2021). Transitioning to a low-carbon economy: An evaluation. Global Environmental Studies, 10(5), 345-368.

6.      Taylor, S., & Martinez, H. (2020). HVAC business and climate change mitigation strategies. Energy and Environment Journal, 17(3), 198-221.

7.      Clark, D. (2019). Balancing carbon emissions through innovation. Journal of Renewable Energy, 20(1), 25-47.

8.      Zhang, X., & Chen, Y. (2022). Renewable energy's role in reducing a nation's carbon footprint. Energy Policy Studies, 11(2), 78-94.

9.      Patel, R., & Singh, A. (2021). The effects of CO2 reduction on population health and trade ecosystems. Health and Environment Research, 19(6), 467-489.

10.  Roberts, T., & Kim, J. (2020). Green finance: Creating jobs through sustainability. Journal of Green Economics, 13(4), 311-334.

11.  Adams, P., & Rivera, C. (2021). Energy security and economic resilience through renewable energy. Sustainable Development Journal, 9(2), 154-173.

12.  Mitchell, L., & Torres, J. (2020). The role of green finance in environmental protection and CO2 reduction. Journal of Environmental Economics, 18(3), 289-305.

13.  Green, B., & Evans, D. (2019). HVAC business taxation and CO2 reduction strategies. Energy Efficiency Journal, 14(1), 99-118.

14.  White, H., & Ahmed, S. (2021). Oil price volatility and its influence on renewable energy costs. Energy Economics and Policy Studies, 22(4), 402-419.

15.  Lopez, R., & Yang, W. (2020). Open finance and green investments for sustainable development. Journal of Financial Sustainability, 16(5), 345-363.

16.  Baker, J., & Carter, M. (2022). Green finance and global CO2 reduction efforts. Environmental Finance Study, 11(3), 178-197.

17.  Park, H., & Kumar, V. (2021). Low-carbon innovation and its impact on GDP growth. Sustainable Innovation Journal, 8(4), 233-249.

18.  Davis, N., & Foster, G. (2020). The HVAC industry's role in reducing environmental impact. Journal of Climate Technologies, 13(2), 120-138.

19.  Chen, L., & Robinson, T. (2022). Sustainable energy transitions and global cooperation. Renewable Energy and Sustainability Studies, 19(6), 501-518.

20.  Fakher, H., et al. (2019). The Economic Implications of CO2 Reduction Technologies. Environmental Economics and Policy Studies, 21(3), 435–452.

21.  Yu, S., et al. (2022). Renewable Energy Consumption and Carbon Reduction Strategies. Energy Studys, 8, 1330–1345.

22.  Dahal, G., et al. (2020). Trade Openness and Renewable Energy’s Role in CO2 Reduction. Energy Policy, 145, 111738.

23.  Zhang, X., et al. (2021). The Potential of Renewable Energy to Achieve Net-Zero Emissions. Journal of Environmental Economics and Management, 109, 102495.

24.  Hung, C., et al. (2018). The Effect of STI on Trade Openness and CO2 Reduction. Technological Forecasting and Social Change, 137, 245–252.

25.  Li, X., et al. (2020). The Effects of Sustainable Energy Systems on Climate Change. Energy and Environmental Science, 13(9), 2791–2804.

26.  Sun, J., et al. (2021). Renewable Energy Consumption and Sustainable Development. Energy Sustainability and Society, 11(1), 35.

27.  Lin, B., et al. (2021). Hydropower and Renewable Energy’s Impact on Emissions. Renewable Energy, 178, 1013–1022.

28.  Wang, Z., et al. (2021). The Impact of Renewable Energy on Carbon Emissions. Renewable and Sustainable Energy Studys, 137, 110586.

29.  Qamruzzaman, M., et al. (2021). The Transformative Role of Green Finance in Carbon Reduction. Journal of Sustainable Finance & Investment, 11(3), 217–233.

30.  Dong, H., et al. (2019). Policy Mechanisms for Renewable Energy Promotion. Energy Research & Social Science, 55, 59–71.

31.  Wang, Z., et al. (2021). Green finance as a solution to carbon emissions. Environmental Science and Policy, 125, 120–133.

32.  Dong, H., et al. (2019). Urbanization, economic growth, and emission efficiency. Ecological Economics, 159, 11–20.

33.  Gao, M., et al. (2021). The role of green technology in emission reduction. Journal of Cleaner Production, 278, 123-134.

34.  Paramati, S.R., et al. (2017). Investing in green technology for CO2 reduction. Energy Policy, 105, 370–378.

35.  Zeng, Q., et al. (2019). Green technology advancements and their effects on regional emissions. Energy Strategy Studys, 26, 100412.

36.  Su, B., et al. (2011). Energy systems and sustainable development. Applied Energy, 88(2), 485–491.

37.  Nizam, R., et al. (2020). Sustainable technological advancements and GHG reduction. Technological Forecasting and Social Change, 158, 120121.

38.  Qamruzzaman, M., et al. (2021). The role of sustainable technology breakthroughs in carbon reduction. Renewable Energy, 175, 1150–1160.

39.  Fakher, H., et al. (2019). The economic implications of CO2 reduction technologies. Environmental Economics and Policy Studies, 21(3), 435–452.

40.  Yu, S., et al. (2022). Renewable energy consumption and carbon reduction strategies. Energy Studys, 8, 1330–1345.

41.  Dahal, G., et al. (2020). Trade openness and renewable energy's role in CO2 reduction. Energy Policy, 145, 111738.

42.  Zhang, X., et al. (2021). The potential of renewable energy to achieve net-zero emissions. Journal of Environmental Economics and Management, 109, 102495.

43.  OECD. (2019). Renewable energy consumption and sustainable investments. OECD Journal on Economic Studies, 12(3), 45–68.

44.  Hung, C., et al. (2018). The effect of STI on trade openness and CO2 reduction. Technological Forecasting and Social Change, 137, 245–252.

45.  Wang, Y., et al. (2019). Energy and resource security through financial inclusion. Journal of Sustainable Finance & Investment, 9(4), 301–325.

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