Review on Sustainable Creation of Sunlight Based Energy Regarding the Indian Economy
Keywords:
Environmental Impacts, Fossil Fuel, Hydrogen, Photovoltaic, RenewablesAbstract
Fossil fuel supplies are quickly depleting across the globe, putting increasing pressure on remaining stocks as demand rises. Not only have that but fossil fuels, which account for 80% of global primary energy had massive environmental consequences. Human-caused climate change, particularly the creation increasing greenhouse gas emissions, has a direct effect on the environment. The energy industry plays a critical role in this respect, since energy produces ecologically damaging chemicals throughout its production, delivery, and use. As a result, a reliable and accessible energy source is critical for contemporary civilizations' long-term viability. There is a pressing need to transition from traditional to renewable energy systems that are both sustainable and capable of meeting current and future global energy demand. One of most potential renewables is sun powered power. It's trustworthy and less defenseless to occasional climate patterns. Hydrogen, in the job of a find out, is expected to be the most ideal choice for environmentally friendly power irregularity and capacity. Sun oriented energy, when joined with helium as an energy transporter, has a great deal of guarantee to be the energy of things to come. The motivation behind this examination is to check out India's prospects in 2025. Because of its enormous populace and quick monetary turn of events, India's energy utilization is projected to increment quickly later on years. For the expected energy organization, a measured methodology was utilized to satisfy the interest of six key Indian urban areas in 2025: Chennai, Delhi, Jodhpur, Kolkata, Mumbai, and Trivandrum. For the recommended advancements as a whole, current and expected expense situations for 2025 have been provided to survey the monetary plausibility of the energy network viable. As indicated by projected future patterns, PV energy will be more financially savvy than petroleum derivative power continuously 2025.
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References
N. Nainwal, S. Jawla, R. Singh, and V. A. Saharan, “Transdermal applications of ethosomes–a detailed review,” Journal of Liposome Research. 2019.
T. Muneer, M. Asif, and S. Munawwar, “Sustainable production of solar electricity with particular reference to the Indian economy,” Renewable and Sustainable Energy Reviews. 2005.
G. Jungmeier, “The Biorefinery Fact Sheet,” Int. J. Life Cycle Assess., 2017.
A. Landman et al., “Photoelectrochemical water splitting in separate oxygen and hydrogen cells,” Nat. Mater., 2017.
P. Sharma and M. L. Kolhe, “Review of sustainable solar hydrogen production using photon fuel on artificial leaf,” Int. J. Hydrogen Energy, 2017.
T. Ibn-Mohammed et al., “Perovskite solar cells: An integrated hybrid lifecycle assessment and review in comparison with other photovoltaic technologies,” Renewable and Sustainable Energy Reviews. 2017.
S. Sunder Sharma, K. Sharma, R. Singh, S. Srivastava, K. Bihari Rana, and R. Singhal, “Natural pigments: Origin and applications in dye sensitized solar cells,” in Materials Today: Proceedings, 2019.
A. Jochem, B. Höfle, and M. Rutzinger, “Extraction of vertical walls from mobile laser scanning data for solar potential assessment,” Remote Sens., 2011.
E. M. Aro, “From first generation biofuels to advanced solar biofuels,” Ambio, 2016.
S. Y. Tee et al., “Recent Progress in Energy-Driven Water Splitting,” Advanced Science. 2017.
S. Fukuzumi, “Production of Liquid Solar Fuels and Their Use in Fuel Cells,” Joule. 2017.
S. Parvez et al., “Recuperating Biopharmaceutical Aspects of Amphotericin B and Paromomycin Using a Chitosan Functionalized Nanocarrier via Oral Route for Enhanced Anti-leishmanial Activity,” Front. Cell. Infect. Microbiol., 2020.
D. Ji et al., “Engineering of the Heterointerface of Porous Carbon Nanofiber–Supported Nickel and Manganese Oxide Nanoparticle for Highly Efficient Bifunctional Oxygen Catalysis,” Adv. Funct. Mater., 2020.
A. K. Singh, M. S. Khan, and F. A. Khan, “Prescribing pattern of anti-malarial drugs with particular reference to the use of artesunate in complicated Plasmodium vivax cases,” J. Clin. Diagnostic Res., 2014.
V. Khare, S. Nema, and P. Baredar, “Status of solar wind renewable energy in India,” Renewable and Sustainable Energy Reviews. 2013.
S. J. Doddanna, S. Patel, M. A. Sundarrao, and R. S. Veerabhadrappa, “Antimicrobial activity of plant extracts on Candida albicans: An in vitro study,” Indian J. Dent. Res., 2013.
U. Malik, M. K. Sunil, C. Gupta, and M. Kumari, “Trigeminal Herpes Zoster: Early Recognition and Treatment -A Case Report,” J. Indian Acad. Oral Med. Radiol., 2017.
L. Lawrenz et al., “Exploring energy pathways for the low-carbon transformation in India—a model based analysis,” Energies, 2018.
R. Handa, M. Sunil, C. Gupta, A. Raina, T. Khan, and A. Gulzar, “Efficacy of ultrasound massage therapy as an adjuvant pain control modality in TMDs: A clinical study,” J. Indian Acad. Oral Med. Radiol., 2018.
S. Dawn, P. K. Tiwari, A. K. Goswami, and M. K. Mishra, “Recent developments of solar energy in India: Perspectives, strategies and future goals,” Renewable and Sustainable Energy Reviews. 2016.
