Social development in India

Social development in IndiaIntroductionIndia has a macrocosm of 1.18 billion individuals which gift to 17.31 percent of worlds population (Sarina, 2005). Indias electricity cleverness consumption is more than 145,000 Mega watts which accounts to not less than 3.5 per cent of the global efficiency consumption placing it at sixth state of affairs in global energy consumption. In attempts to meet energy needs various office sics generate energy as follows. Coal contributes 53 per cent, petroleum accounts for 31 per cent, hydroelectric billet plants accounts for 6 percent while natural gas, nuclear and other renewable contribute 8 percent, 1 percent and 1 percent respectively. Supply for electricity energy in India has usually been outstripped by its demand on 7 to 11 percent mark.Indeed, only 40 to 44 percent of the total rural ho enjoymentholds access electricity. India imports an amazing 71 percent of its oil needs from Saudi Arabia, Malaysia, Yemen, Kuwait and Iran among othe r countries totaling about 1.8million bb/d per annum. The land will be in demand of 400, 000 mega watts by 2020 and more than 950, 000 mega watts of power by 2030. The government of India has expressed its 2012 mission of power for all. The 2012 mission on power is expected to enhance achievement of 8 per cent growth in gross domestic product. Rural electrification in states of Madhya Pradesh, Orissa, and Uttranchal among others is almost complete. With the aforementioned facts and comprise implications regarding power inadequacy in India, there is dire need of the government exploring more energy blood lines. Among the less explored yet cheap source of energy is the bio gas energy (Khusro et al, 2005).Background on biogas energyAccording to Deublein Steinhauser (2008), biogas originates from biogenic materials where the gas generated through breakdown of organic matter in absence of oxygen. Biogas is a bio fuel. The first biogenic plant was built in 1859 in Bombay India. It was however in England that the biogenic plant was utilized in electricity generation that lit streets in Exeter. In India, the first biogas plant was established in the vicinity of Mumbai although the undertaking was a mere sewerage treatment project. The biogas plant in India may have operateed generating energy in 1897 although full experimentation occurred in the late 1930s. The said gas can be manufactured by use of anaerobic digesters that ar federal official with biodegradable wastes or energy crops like maize silage. During production of biogas, biomass waste material is transformed into methane. The energy is renewable and can be used in various forms of internal combustion engine such as heating and electricity. In fact biogas energy has a 60 percent potential thermic efficiency when used under appropriate aeration and equipment as compared to dung and wood that has 11 percent and 17 percent respectively. The perceived relative cheap cost of maintenance of the biogas plant has proved favorable to India poor villagers.Dissemination of bio gas plantsBiogas plants have been put up in India since 1960s although the notable dissemination was accomplished in 1981 after the formation of national project on biogas development. This notable dissemination was probably a reflection of fuel-wood shortage in the country at the time. The government of India considers biogas engine room as a tool to alleviate rural poverty and a stimulant rural development. The government through the relevant bodies has facilitated aspect up of well-nigh two and a half million biogas plants across the country. However, large scale production of biogas technology is yet to be realized. According to Pachauri (2007), use of biogas for cooking only accounts for 3 and 2 percents for Indias urban and rural populations. The later is definitely an indication that biogas as an alternative fuel is poorly disseminated. Generally, dissemination of biogas technology is through system of conce ssions and subsidies despite the differences among states. There are also community plants for biogas disseminations which have achieved considerable success levels. However, community plants face logistical challenges in their coordination as well as political feuds. Indeed, biogas programs may not meet the needs of the marginalized and poorest populations since technical requirements for establishment and maintenance of viable plants are inaccessible to them. Although the government assists in biogas plants establishments, its effect has not been felt in many poor homesteads.Challenges facing biogas production and use in IndiaOnly five percent of the total population utilizes biogas technology. The rate of success is higher among urban population. Higher levels of success are realized in urban places mainly because of two factors (Nijaguna, 2002). The first reason is that the urban population is more informed of the benefits of biogas technology as compared with other sources of e nergy. Second, poverty level is lower in urban set-ups as compared to rural areas. The sign heavy(p) for establishing a biogas plant and the associated dissemination is usually high for the poor rural populations. Failure of the biogas technology in utilizing its full potential in India is attributed to several factors. To start with, harsh climatic conditions that cause drought reduce availability of dung which is the most common unexampled material for biogas plant. Drought results to death and forced change of cattle subsequently reducing dung availability. Second, biogas plants are faced with winter seasons which inhibit methanogenesis process which is responsible in biogas production. Third, many plants are shoddy constructed interpreting them faulty and non-functional. Shoddy social organisation may be attributed to irresponsibility among government officers charged with overseeing construction of community biogas plants as well as other undertakings related to to bioga s plants establishment. In addition, many individuals lack the necessary expertise in construction and operation. This has led to eventual failure of biogas plants due to such mal practices such as construction of extensively large plants and subsequent underfeeding of the plant with dung. Furthermore, use of cattle in the fields poses a challenge to the collection of dung for biogas plants.Scope of bio gasIndia has approximately four hundred and ninety million livestock species comprising of buffalo, cattle, sheep and pig among others. In fact, livestock in India accounts for 53 percent in buffalo population and stuffy to 16 percent of cattle population. Due to utilization of livestock for other purposes, only 35 percent of livestock are reared in a cupboard enabling dung collection. Ideally, dung deficiency may be supplemented with septic tanks. However the traditional arguments hinder utilization of human feaces in energy production. The raw materials have been used with an ave rage forty seven percent efficiency in production of biogas energy. According to Khusro et al (2005), only half the numbers of constructed biogas plants are functional in producing maximum biogas energy possible. Indeed, in a sample of 1670 biogas plants, 1086 of them were disqualified under feasibility criteria.Types of bio gas plantsBiogas has two major varieties classified harmonise to the production process. The earliest biogas plant form was landfill gas (LPG). LPG is produced during decomposition of organic substances. The resultant products are methane gas, carbon dioxide and nitrogen. Usually LPG is accidentally produced when biomass is deposited for disposal under normal circumstances. When venting of LPG is uncontrolled during decomposition of disposed biomass on land, re-cultivation of such a land site is hampered. The second biogas plant utilizes sewage sludge. The production process in sewage gas involves fermentation of sludge in septic tanks at temperatures between thirty two and thirty four (Deublein Steinhauser, 2008). The output from the later plant comprises of 55 percent methane, 35 percent carbon dioxide and negligible residue quantities. Sewage gas is purified and compressed if found to contain significant amounts of contaminants before use.Socio economic impacts of bio gas useWith the increasing environmental concerns, bio gas plans help in reducing destruction of forests caused by over dependence of firewood as a source of energy. Furthermore, Biogas is a clean form of energy that reduces the concentration of carbon dioxide in the environment. Socially, biogas significantly reduces the burden of women who are usually charged with cooking among the Indian population. Furthermore, although the initial costs of biogas plant establishment are high, the operational and maintenance costs are significantly lower compared to other sources (Chandra, 2004).ReferencesChandra, R. (2004). Social development in India. impudent Delhi, India Gyan Publishing HouseDeublein, D. Steinhauser, A. (2008). Biogas and renewable resources. Hoboken, NJ Wiley- VCH publisher.Khusro, A., Rao, C., Bhattacharya, B. Siddharthan, N. (2005). Indian economy and society.New Delhi India Academic Foundation publishers.Nijaguna, B.(2002). Biogas technology. New Delhi, India New Age international publishersPachauri, S. (2007). Energy analysis in India. New Delhi, India Springer publishers.Sarina, S. (2005). India. Melbourne, Australia Lonely Planet publishers.