Barriers to Biogas Dissemination in India: A Review

Authors

  • Kavita Rathore Professor, Department of Chemistry, Vivekananda Global University, Jaipur, India Author

Keywords:

Anaerobic, Biogas,, Energy, Green House, Waste

Abstract

Biogas has evolved as a viable renewable  energy conversion technology for agricultural, animal,  industrial, and municipal wastes. Biogas development may  be employed alongside sanitation and indoor air pollution  reduction efforts to lower greenhouse gas emissions. In  India, total biogas production is presently 2.07 billion m3  per year. This is tiny in contrast to its potential, which is  predicted to reach between 29 and 48 billion m3 per year.  As a consequence, the purpose of this study is to identify  both technical and non-technical hurdles to biogas  adoption in India. The expansion of biogas is affected by a  range of waste, renewable energy, and local restrictions.  Decomposition analysis was utilized to identify particular  constraints for rural and urban biogas systems that exist in  India. Because of variances in technical progress,  feedstock availability and quality, supply chain, awareness  level, and governmental assistance, the sort and magnitude  of hurdles vary greatly throughout biogas systems. 

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References

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T. Agrawal, A. K. Agrawal, and S. K. Singh, “An efficient key-accumulation cryptosystem for cloud,” Int. J. Eng. Adv. Technol., 2019.

I. Angelidaki et al., “Biogas upgrading and utilization: Current status and perspectives,” Biotechnology Advances. 2018, doi: 10.1016/j.biotechadv.2018.01.011.

S. Achinas, V. Achinas, and G. J. W. Euverink, “A Technological Overview of Biogas Production from Biowaste,” Engineering, 2017, doi: 10.1016/J.ENG.2017.03.002.

S. Mittal, E. O. Ahlgren, and P. R. Shukla, “Barriers to biogas dissemination in India: A review,” Energy Policy, 2018, doi: 10.1016/j.enpol.2017.10.027.

S. Thappa, A. Chauhan, Y. Anand, and S. Anand, “Thermal and geometrical assessment of parabolic trough collector-mounted double-evacuated receiver tube system,” Clean Technol. Environ. Policy, 2021, doi: 10.1007/s10098-021-02205-w.

V. Anand, “Photovoltaic actuated induction motor for driving electric vehicle,” Int. J. Eng. Adv. Technol., vol. 8, no. 6 Special Issue 3, pp. 1612–1614, 2019, doi: 10.35940/ijeat.F1298.0986S319.

D. Singh, “Robust controlling of thermal mixing procedure by means of sliding type controlling,” Int. J. Eng. Adv. Technol., 2019, doi: 10.35940/ijeat.F1303.0986S319.

I. Ullah Khan et al., “Biogas as a renewable energy fuel – A review of biogas upgrading, utilisation and storage,” Energy Conversion and Management. 2017, doi: 10.1016/j.enconman.2017.08.035.

N. Scarlat, F. Fahl, J. F. Dallemand, F. Monforti, and V. Motola, “A spatial analysis of biogas potential from manure in Europe,” Renew. Sustain. Energy Rev., 2018, doi: 10.1016/j.rser.2018.06.035.

O. W. Awe, Y. Zhao, A. Nzihou, D. P. Minh, and N. Lyczko, “A Review of Biogas Utilisation, Purification and Upgrading Technologies,” Waste and Biomass Valorization. 2017, doi: 10.1007/s12649-016-9826-4.

Q. Sun, H. Li, J. Yan, L. Liu, Z. Yu, and X. Yu, “Selection of appropriate biogas upgrading technology-a review of biogas cleaning, upgrading and utilisation,” Renewable and Sustainable Energy Reviews. 2015, doi: 10.1016/j.rser.2015.06.029.

H. Kumar, A. K. Sarma, and P. Kumar, “Experimental investigation of 2-EHN effects upon CI engine attributes fuelled with used cooking oil-based hybrid microemulsion biofuel,” Int. J. Environ. Sci. Technol., 2021, doi: 10.1007/s13762-021-03751-y.

C. The Phan et al., “Controlling environmental pollution: dynamic role of fiscal decentralization in CO2 emission in Asian economies,” Environ. Sci. Pollut. Res., 2021, doi: 10.1007/s11356-021-15256-9.

R. Sharma et al., “Analysis of Water Pollution Using Different Physicochemical Parameters: A Study of Yamuna River,” Front. Environ. Sci., 2020, doi: 10.3389/fenvs.2020.581591.

F. R. H. Abdeen, M. Mel, M. S. Jami, S. I. Ihsan, and A. F. Ismail, “A review of chemical absorption of carbon dioxide for biogas upgrading,” Chinese Journal of Chemical Engineering. 2016, doi: 10.1016/j.cjche.2016.05.006.

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P. G. Kougias and I. Angelidaki, “Biogas and its opportunities—A review,” Front. Environ. Sci. Eng., 2018, doi: 10.1007/s11783-018-1037-8.

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V. Jain, M. Goyal, and M. S. Pahwa, “Modeling the relationship of consumer engagement and brand trust on social media purchase intention-a confirmatory factor experimental technique,” Int. J. Eng. Adv. Technol., 2019, doi: 10.35940/ijeat.F1163.0986S319.

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A. Sharma, M. K. Sharma, and R. K. Dwivedi, “Hybrid neuro-fuzzy classification algorithm for social network,” Int. J. Eng. Adv. Technol., 2019, doi: 10.35940/ijeat.F8537.088619.

R. Nagamanjula and A. Pethalakshmi, “A novel framework based on bi-objective optimization and LAN2FIS for Twitter sentiment analysis,” Soc. Netw. Anal. Min., 2020, doi: 10.1007/s13278-020-00648-5.

K. K. Gola, M. Dhingra, and R. Rathore, “Modified version of playfair technique to enhance the security of plaintext and key using rectangular and substitution matrix,” Int. J. Eng. Adv. Technol., 2019.

T. Agrawal, A. K. Agrawal, and S. K. Singh, “An efficient key-accumulation cryptosystem for cloud,” Int. J. Eng. Adv. Technol., 2019.

P. Choudhary, R. K. Dwivedi, and Umang, “A novel framework for prioritizing emergency vehicles through queueing theory,” Int. J. Eng. Adv. Technol., 2019.

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Published

2020-05-05

How to Cite

Barriers to Biogas Dissemination in India: A Review . (2020). International Journal of Innovative Research in Computer Science & Technology, 8(3), 266–270. Retrieved from https://acspublisher.com/journals/index.php/ijircst/article/view/13320