Recently, the central government launched the Pradhan Mantri Sahaj Bijli Har Ghar Yojana (or Saubhagya).[i],[ii] The scheme seeks to ensure universal household electrification (in both rural and urban areas) by providing last mile connectivity. The scheme is expected to cover three crore households. Note that currently about four crore households are un-electrified. A rural electrification scheme has also been under implementation since 2005. In light of this, we discuss the current situation of, and key issues related to rural electrification in the country.
Regulatory and policy framework
Under the Electricity Act, 2003, the central and state governments have the joint responsibility of providing electricity to rural areas. The 2003 Act also mandates that the central government should, in consultation with the state governments, provide for a national policy on (i) stand-alone power systems for rural areas (systems that are not connected to the electricity grid), and (ii) electrification and local distribution in rural areas. Consequently, the Rural Electrification Policy was notified in August 2006.[iii]
The Rajiv Gandhi Grameen Vidyutikaran Yojana (RGGVY), launched in 2005, was the first scheme on rural electrification. In December 2014, Ministry of Power launched the Deendayal Upadhyaya Gram Jyoti Yojana (DDUGJY), which subsumed the RGGVY.[iv] Components of DDUGJY include: (i) separation of agricultural and non-agricultural electricity feeders to improve supply for consumers in rural areas, (ii) improving sub-transmission and distribution infrastructure in rural areas, and (iii) rural electrification by carrying forward targets specified under the RGGVY.
The total financial outlay for DDUGJY over the implementation period (until 2021-22) is Rs 82,300 crore which includes budgetary support of Rs 68,900 crore. The central government provides 60% of the project cost as grant, the state power distribution companies (discoms) raise 10% of the funds, and 30% is borrowed from financial institutions and banks.
Status of rural electrification
As of August 2017, about 1% of the villages in India remain un-electrified (3,146 villages). However, with regard to households, around 23% (4.1 crore households) are yet to be electrified. Table 1 at the end of this post shows the status of rural electrification across all states.
Issues with rural electrification
Definition of an electrified village
An electrified village is defined as one that has the following: (i) provision of basic infrastructure such as distribution transformers and lines in the inhabited locality, (ii) provision of electricity in public places like schools, panchayat office, health centers, dispensaries, and community centers, and (iii) at least 10% of the total number of households in the village are electrified.[iv]
Therefore, a village is considered to be electrified if 10% of the total number of households in the village have been electrified. This is apart from the basic infrastructure and electrification of certain public centers in the village. The Standing Committee on Energy (2013) had observed that according to this definition, a village would be called electrified even if up to 90% of households in it do not have an electricity connection.[v] It also noted that the infrastructure being provided under the scheme is highly inadequate, unreliable and unsustainable. The Committee recommended that the actual electrification requirement of villages must be assessed, and it should be ensured that the state discoms provide electricity to the remaining households in the village.
Supply of electricity
The Standing Committee had also noted that while the rural electrification scheme looks at creating infrastructure, the actual supply of electricity to households rests with the state discoms.[v] These discoms are already facing huge financial losses and hence are unable to supply electricity to the villages. Discoms continue to supply subsidised power to agricultural and residential consumers, resulting in revenue losses. Further, the average technical and commercial losses (theft and pilferage of electricity) (AT&C losses) are at around 25%. While the Ujjwal Discom Assurance Yojana (UDAY) has eased off some of the financial losses of the discoms, it remains to be seen whether discoms are able to reduce the cost-tariff gap and AT&C losses in the future.
It has been recommended that generation capacity should be augmented so that states can meet the additional demand under the rural electrification schemes. Further, the assistance to financially weaker states should be increased so that they can better implement the scheme.[v]
Electricity to below poverty line (BPL) households
Under the rural electrification scheme, the cost for providing free electricity connection per BPL household is Rs 3,000. It has been observed that this cost per household may be inadequate.[v] Due to the low cost, the quantity and the quality of work has been getting compromised leading to poor implementation of the scheme. It has been recommended that the Ministry should revisit the cost provided under the scheme.[v]
The new electrification scheme: Pradhan Mantri Sahaj Bijli Har Ghar Yojana (or Saubhagya)
The new scheme, Saubhagya, seeks to ensure universal household electrification, that is, in both rural and urban areas. Under Saubhagya, beneficiaries will be identified using the Socio Economic and Caste Census (SECC) 2011 data. The identified poor households will get free electricity connections. Other households not covered under the SECC, will be provided electricity connections at a cost of Rs 500. This amount will be collected by the electricity distribution companies in 10 instalments.
The total outlay of the scheme will be Rs 16,320 crore, of which the central government will provide Rs 12,320 crore. The outlay for the rural households will be Rs 14,025 crore, of which the centre will provide Rs 10,588 crore. For urban households the outlay will be Rs 2,295 crore of which the centre will provide Rs. 1,733 crore.
The state discoms will execute the electrification works through contractors or other suitable agencies. Information technology (mobile apps, web portals) will be used to organise camps in villages to identify beneficiaries. In order to accelerate the process, applications for electricity connections will be completed on the spot.
So far the focus of electrification schemes has been on rural areas, where typically last mile connectivity has been difficult to provide. Saubhagya extends the ambit of electrification projects to urban areas as well. While DDUGJY has focused on the village as the principal unit to measure electrification, the new scheme shifts the targets to household electrification. While the target for ensuring electricity connection in each household will be a significant step towards ensuring 24×7 power, the question of continuous and quality supply to these households will still rest on the ability of the discoms to provide electricity. Further, while the scheme provides for free connections, the ability of these households to pay for the electricity they consume may be a concern.
Table 1: Status of rural electrification across states (as of August 2017)
[i] “PM launches Pradhan Mantri Sahaj Bijli Har Ghar Yojana “Saubhagya””, Press Information Bureau, Ministry of Power, September 25, 2017.
[ii] “FAQs on Pradhan Mantri Sahaj Bijli Har Ghar Yojana “Saubhagya””, Press Information Bureau, Ministry of Power, September 27, 2017.
[iii]. Rural Electrification Policy, Ministry of Power, August 23, 2006, http://powermin.nic.in/sites/default/files/uploads/RE%20Policy_1.pdf.
[iv]. “Office memorandum: Deendayal Upadhyaya Gram Jyoti Yojana”, Ministry of Power, December 3, 2014, http://powermin.nic.in/rural_electrification/pdf/Deendayal_Upadhyaya_Gram_Jyoti_Yojana.pdf.
[v]. “41st Report: Implementation of Rajiv Gandhi Grameen Vidyutikaran Yojana”, Standing Committee on Energy, December 13, 2013, http://164.100.47.134/lsscommittee/Energy/15_Energy_41.pdf.
Yesterday, Members of Parliament in Lok Sabha discussed the situation of drought and drinking water crisis in many states. During the course of the discussion, some MPs also raised the issue of ground water depletion. Last month, the Bombay High Court passed an order to shift IPL matches scheduled for the month of May out of the state of Maharashtra. The court cited an acute water shortage in some parts of the state for its decision. In light of water shortages and depletion of water resources, this blog post addresses some frequently asked questions on the extraction and use of ground water in the country. Q: What is the status of ground water extraction in the country? A: The rate at which ground water is extracted has seen a gradual increase over time. In 2004, for every 100 units of ground water that was recharged and added to the water table, 58 units were extracted for consumption. This increased to 62 in 2011.[1] Delhi, Haryana, Punjab and Rajasthan, saw the most extraction. For every 100 units of ground water recharged, 137 were extracted. In the recent past, availability of ground water per person has reduced by 15%. In India, the net annual ground water availability is 398 billion cubic metre.[2] Due to the increasing population in the country, the national per capita annual availability of ground water has reduced from 1,816 cubic metre in 2001 to 1,544 cubic metre in 2011. Rainfall accounts for 68% recharge to ground water, and the share of other resources, such as canal seepage, return flow from irrigation, recharge from tanks, ponds and water conservation structures taken together is 32%. Q: Who owns ground water? A: The Easement Act, 1882, provides every landowner with the right to collect and dispose, within his own limits, all water under the land and on the surface.[9] The consequence of this law is that the owner of a piece of land can dig wells and extract water based on availability and his discretion.[10] Additionally, landowners are not legally liable for any damage caused to water resources as a result of over-extraction. The lack of regulation for over-extraction of this resource further worsens the situation and has made private ownership of ground water common in most urban and rural areas. Q: Who uses ground water the most? What are the purposes for which it is used? A: 89% of ground water extracted is used in the irrigation sector, making it the highest category user in the country.[3] This is followed by ground water for domestic use which is 9% of the extracted groundwater. Industrial use of ground water is 2%. 50% of urban water requirements and 85% of rural domestic water requirements are also fulfilled by ground water. 
The main means of irrigation in the country are canals, tanks and wells, including tube-wells. Of all these sources, ground water constitutes the largest share. It provides about 61.6% of water for irrigation, followed by canals with 24.5%. Over the years, there has been a decrease in surface water use and a continuous increase in ground water utilisation for irrigation, as can be seen in the figure alongside. [4] Q: Why does agriculture rely most on ground water? A: At present, India uses almost twice the amount of water to grow crops as compared to China and United States. There are two main reasons for this. First, power subsidies for agriculture has played a major role in the decline of water levels in India. Since power is a main component of the cost of ground water extraction, the availability of cheap/subsidised power in many states has resulted in greater extraction of this resource.[5] Moreover, electricity supply is not metered and a flat tariff is charged depending on the horsepower of the pump. Second, it has been observed that even though Minimum Support Prices (MSPs) are currently announced for 23 crops, the effective price support is for wheat and rice.[6] This creates highly skewed incentive structures in favour of wheat and paddy, which are water intensive crops and depend heavily on ground water for their growth. It has been recommended that the over extraction of ground water should be minimized by regulating the use of electricity for its extraction.[7] Separate electric feeders for pumping ground water for agricultural use could address the issue. Rationed water use in agriculture by fixing quantitative ceilings on per hectare use of both water and electricity has also been suggested.[8] Diversification in cropping pattern through better price support for pulses and oilseeds will help reduce the agricultural dependence on ground water.[6] [1] Water and Related Statistics, April 2015, Central Water Commission, http://www.cwc.gov.in/main/downloads/Water%20&%20Related%20Statistics%202015.pdf. [2] Central Ground Water Board website, FAQs, http://www.cgwb.gov.in/faq.html. [3] Annual Report 2013-14, Ministry of Water Resources, River Development and Ganga Rejuvenation, http://wrmin.nic.in/writereaddata/AR_2013-14.pdf. [4] Agricultural Statistics at a glance, 2014, Ministry of Agriculture; PRS. [5] Report of the Export Group on Ground Water Management and Ownership, Planning Commission, September 2007, http://planningcommission.nic.in/reports/genrep/rep_grndwat.pdf. [6] Report of the High-Level Committee on Reorienting the Role and Restructuring of Food Corporation of India, January 2015, http://www.fci.gov.in/app/webroot/upload/News/Report%20of%20the%20High%20Level%20Committee%20on%20Reorienting%20the%20Role%20and%20Restructuring%20of%20FCI_English_1.pdf. [7] The National Water Policy, 2012, Ministry of Water Resources, http://wrmin.nic.in/writereaddata/NationalWaterPolicy/NWP2012Eng6495132651.pdf. [8] Price Policy for Kharif Crops- the Marketing Season 2015-16, March 2015, Commission for Agricultural Costs and Prices, Department of Agriculture and Cooperation, Ministry of Agriculture, http://cacp.dacnet.nic.in/ViewReports.aspx?Input=2&PageId=39&KeyId=547. [9] Section 7 (g), Indian Easement Act, 1882. [10] Legal regime governing ground water, Sujith Koonan, Water Law for the Twenty-First Century-National and International Aspects of Water Law Reform in India, 2010.
