Difference between revisions of "Bihar Energy Situation"

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= Status of the Power Sector<br/> =
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= Overview =
  
Situation of power availability in Bihar was never rosy, but with the separation of Jharkhand in the year 2000, it became particularly critical beacuse most of the power generation plants fell into the newly formed state. With Jharkhand, went the bounty of natural resources and mines which minimised the chances of Bihar generating its own electricity using coal. Currently, Bihar is dependent on National Thermal Power Corporation Plants and Jharkhand Electricity Board for power supply. But there is still a wide demand- supply gap that needs to be bridged, one glaring proof of the same is the fact that Bihar's power system has a peak of&nbsp; about 1500 MW under the constrained demand scenario and the availablity is about 950 MW.&nbsp; Only 52.8&nbsp;% of villages and 6&nbsp;% of households of the state are electrified, leaving about 85&nbsp;% of the population with no accaess to electricity.<ref>Greenpeace, 2012. Empowering Bihar: Policy Pathway for Energy Access- A Greenpeace Report, Bengaluru. p38</ref>
+
Bihar is a [http://en.wikipedia.org/wiki/States_and_territories_of_India States and territories of India] in [http://en.wikipedia.org/wiki/North_India North India]. It is the 12th largest state in terms of geographical size at 38,202 sq mi (98,940 km<sup>2</sup>) and 3rd largest by population. It is bounded by [http://en.wikipedia.org/wiki/Uttar_Pradesh Uttar Pradesh] to its west, [http://en.wikipedia.org/wiki/Nepal Nepal] to the north, Northern part of [http://en.wikipedia.org/wiki/West_Bengal West Bengal] to the east and by [http://en.wikipedia.org/wiki/Jharkhand Jharkhand] to the south.<ref name="http://en.wikipedia.org/wiki/Bihar">http://en.wikipedia.org/wiki/Bihar</ref>
  
 +
<br/>
  
 +
= Status of the Power Sector<br/> =
  
'''Current Electricity Scenario in Bihar:'''
+
Situation of power availability in Bihar was never rosy, but with the separation of Jharkhand in the year 2000, it became particularly critical beacuse most of the power generation plants fell into the newly formed state. With Jharkhand, went the bounty of natural resources and mines which minimised the chances of Bihar generating its own electricity using coal. Currently, Bihar is dependent on National Thermal Power Corporation Plants and Jharkhand Electricity Board for power supply. But there is still a wide demand- supply gap that needs to be bridged, one glaring proof of the same is the fact that Bihar's power system has a peak of about 1500 MW under the constrained demand scenario and the availablity is about 950 MW. Only 52.8 % of villages and 6 % of households of the state are electrified, leaving about 85 % of the population with no accaess to electricity.<ref>Greenpeace, 2012. Empowering Bihar: Policy Pathway for Energy Access- A Greenpeace Report, Bengaluru. p38</ref>
  
{| style="height: 255px;  width: 100%" border="1" cellpadding="1" cellspacing="1"
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<br/>
 +
<p style="text-align: center">'''Current Electricity Scenario in Bihar'''</p>
 +
{| cellspacing="1" cellpadding="1" border="1" style="height: 255px; width: 100%"
 
|-
 
|-
 
| '''Attribute'''<br/>
 
| '''Attribute'''<br/>
Line 48: Line 52:
 
(Source: 3rd North East & East Power Summit 2010, CEA and PFC)
 
(Source: 3rd North East & East Power Summit 2010, CEA and PFC)
  
 
+
<br/>
  
 
== Energy Capacity<br/> ==
 
== Energy Capacity<br/> ==
Line 54: Line 58:
 
Bihar gets an allocated share of 1233 MW of power from the central sector projects and draws an unallocated share of 28 MW. The state owned extisting power stations generate only 584.6 MW. Looking at the table below, it is clear that majority of this comes from the thermal power stations.<ref>Power Crisis in Bihar, Electrical Monitor, EM News Bureau, August 01, 2011</ref>
 
Bihar gets an allocated share of 1233 MW of power from the central sector projects and draws an unallocated share of 28 MW. The state owned extisting power stations generate only 584.6 MW. Looking at the table below, it is clear that majority of this comes from the thermal power stations.<ref>Power Crisis in Bihar, Electrical Monitor, EM News Bureau, August 01, 2011</ref>
  
 
+
<br/>
 
+
<p style="text-align: center">'''Power Capacity in Bihar '''(As of December 2010; in MW)</p>
'''Power Capacity in Bihar '''(As of December 2010; in MW)
+
{| cellspacing="1" cellpadding="1" border="1" style="height: 108px; width: 100%"
 
 
{| style="height: 108px;  width: 100%" border="1" cellpadding="1" cellspacing="1"
 
 
|-
 
|-
 
| style="width: 150px" | <br/>
 
| style="width: 150px" | <br/>
| style="width: 150px; text-align: center" | '''Thermal '''<br/>
+
| style="width: 150px; text-align: center" | '''Thermal '''<br/>
| style="width: 150px; text-align: center" | '''Hydro'''<br/>
+
| style="width: 150px; text-align: center" | '''Hydro'''<br/>
| style="width: 150px; text-align: center" | '''RES*'''<br/>
+
| style="width: 150px; text-align: center" | '''RES*'''<br/>
| style="width: 150px; text-align: center" | '''Total'''<br/>
+
| style="width: 150px; text-align: center" | '''Total'''<br/>
 
|-
 
|-
 
| style="width: 150px" | '''Central'''<br/>
 
| style="width: 150px" | '''Central'''<br/>
| style="width: 150px; text-align: center" | 1131.7<br/>
+
| style="width: 150px; text-align: center" | 1131.7<br/>
| style="width: 150px; text-align: center" | 129.4<br/>
+
| style="width: 150px; text-align: center" | 129.4<br/>
| style="width: 150px; text-align: center" | 0<br/>
+
| style="width: 150px; text-align: center" | 0<br/>
| style="width: 150px; text-align: center" | 1261.1<br/>
+
| style="width: 150px; text-align: center" | 1261.1<br/>
 
|-
 
|-
 
| style="width: 150px" | '''State'''<br/>
 
| style="width: 150px" | '''State'''<br/>
| style="width: 150px; text-align: center" | 530.0<br/>
+
| style="width: 150px; text-align: center" | 530.0<br/>
| style="width: 150px; text-align: center" | 0<br/>
+
| style="width: 150px; text-align: center" | 0<br/>
| style="width: 150px; text-align: center" | 54.6<br/>
+
| style="width: 150px; text-align: center" | 54.6<br/>
| style="width: 150px; text-align: center" | 584.6<br/>
+
| style="width: 150px; text-align: center" | 584.6<br/>
 
|-
 
|-
 
| style="width: 150px" | '''Private'''<br/>
 
| style="width: 150px" | '''Private'''<br/>
| style="width: 150px; text-align: center" | 0<br/>
+
| style="width: 150px; text-align: center" | 0<br/>
| style="width: 150px; text-align: center" | 0<br/>
+
| style="width: 150px; text-align: center" | 0<br/>
| style="width: 150px; text-align: center" | 9.5<br/>
+
| style="width: 150px; text-align: center" | 9.5<br/>
| style="width: 150px; text-align: center" | 9.5<br/>
+
| style="width: 150px; text-align: center" | 9.5<br/>
 
|-
 
|-
 
| style="width: 150px" | '''Total'''<br/>
 
| style="width: 150px" | '''Total'''<br/>
| style="width: 150px; text-align: center" | 1661.7<br/>
+
| style="width: 150px; text-align: center" | 1661.7<br/>
| style="width: 150px; text-align: center" | 129.0<br/>
+
| style="width: 150px; text-align: center" | 129.0<br/>
| style="width: 150px; text-align: center" | 64.1<br/>
+
| style="width: 150px; text-align: center" | 64.1<br/>
| style="width: 150px; text-align: center" | 1855.0<br/>
+
| style="width: 150px; text-align: center" | 1855.0<br/>
 
|}
 
|}
  
&nbsp;&nbsp; *RES: Renewable Energy Sources (mainly small hydro)
+
*RES: Renewable Energy Sources (mainly small hydro)
  
 
(Source:''Power Crisis in Bihar'', Electrical Monitor, EM News Bureau, August 01, 2011)
 
(Source:''Power Crisis in Bihar'', Electrical Monitor, EM News Bureau, August 01, 2011)
  
 
+
<br/>
  
 
== Energy Supply<br/> ==
 
== Energy Supply<br/> ==
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Bihar ranks second on the list of the least electrified states with 50% of its villages still being in the dark due to the absence of transmission wires there.<ref>Rural Electrification Corporation Report 2004</ref>
 
Bihar ranks second on the list of the least electrified states with 50% of its villages still being in the dark due to the absence of transmission wires there.<ref>Rural Electrification Corporation Report 2004</ref>
  
 
+
<br/>
 
+
<p style="text-align: center">'''Energy supply Position- Peak'''</p>
'''Energy supply Position- Peak'''
+
{| cellspacing="1" cellpadding="1" border="1" style="height: 129px; width: 100%"
 
 
{| style="height: 129px;  width: 100%" border="1" cellpadding="1" cellspacing="1"
 
 
|-
 
|-
| style="width: 150px; text-align: center" | '''Year'''<br/>
+
| style="width: 150px; text-align: center" | '''Year'''<br/>
| style="width: 150px; text-align: center" | '''Requirement (MW)'''<br/>
+
| style="width: 150px; text-align: center" | '''Requirement (MW)'''<br/>
| style="width: 150px; text-align: center" | '''Availablity (MW)'''<br/>
+
| style="width: 150px; text-align: center" | '''Availablity (MW)'''<br/>
| style="width: 150px; text-align: center" | '''Deficit (MW)'''<br/>
+
| style="width: 150px; text-align: center" | '''Deficit (MW)'''<br/>
| style="width: 150px; text-align: center" | '''Deficit (%)'''<br/>
+
| style="width: 150px; text-align: center" | '''Deficit (%)'''<br/>
 
|-
 
|-
| style="width: 150px; text-align: center" | 2002-03<br/>
+
| style="width: 150px; text-align: center" | 2002-03<br/>
| style="width: 150px; text-align: center" | 1389<br/>
+
| style="width: 150px; text-align: center" | 1389<br/>
| style="width: 150px; text-align: center" | 1325<br/>
+
| style="width: 150px; text-align: center" | 1325<br/>
| style="width: 150px; text-align: center" | 64<br/>
+
| style="width: 150px; text-align: center" | 64<br/>
| style="width: 150px; text-align: center" | 14.6<br/>
+
| style="width: 150px; text-align: center" | 14.6<br/>
 
|-
 
|-
| style="width: 150px; text-align: center" | 2003-04<br/>
+
| style="width: 150px; text-align: center" | 2003-04<br/>
| style="width: 150px; text-align: center" | 973<br/>
+
| style="width: 150px; text-align: center" | 973<br/>
| style="width: 150px; text-align: center" | 788<br/>
+
| style="width: 150px; text-align: center" | 788<br/>
| style="width: 150px; text-align: center" | 185<br/>
+
| style="width: 150px; text-align: center" | 185<br/>
| style="width: 150px; text-align: center" | 19.0<br/>
+
| style="width: 150px; text-align: center" | 19.0<br/>
 
|-
 
|-
| style="width: 150px; text-align: center" | 2004-05<br/>
+
| style="width: 150px; text-align: center" | 2004-05<br/>
| style="width: 150px; text-align: center" | 980<br/>
+
| style="width: 150px; text-align: center" | 980<br/>
| style="width: 150px; text-align: center" | 980<br/>
+
| style="width: 150px; text-align: center" | 980<br/>
| style="width: 150px; text-align: center" | 0<br/>
+
| style="width: 150px; text-align: center" | 0<br/>
| style="width: 150px; text-align: center" | 0<br/>
+
| style="width: 150px; text-align: center" | 0<br/>
 
|-
 
|-
| style="width: 150px; text-align: center" | 2005-06<br/>
+
| style="width: 150px; text-align: center" | 2005-06<br/>
| style="width: 150px; text-align: center" | 1314<br/>
+
| style="width: 150px; text-align: center" | 1314<br/>
| style="width: 150px; text-align: center" | 1116<br/>
+
| style="width: 150px; text-align: center" | 1116<br/>
| style="width: 150px; text-align: center" | 198<br/>
+
| style="width: 150px; text-align: center" | 198<br/>
| style="width: 150px; text-align: center" | 15.1<br/>
+
| style="width: 150px; text-align: center" | 15.1<br/>
 
|-
 
|-
| style="width: 150px; text-align: center" | 2006-07<br/>
+
| style="width: 150px; text-align: center" | 2006-07<br/>
| style="width: 150px; text-align: center" | 1399<br/>
+
| style="width: 150px; text-align: center" | 1399<br/>
| style="width: 150px; text-align: center" | 1162<br/>
+
| style="width: 150px; text-align: center" | 1162<br/>
| style="width: 150px; text-align: center" | 237<br/>
+
| style="width: 150px; text-align: center" | 237<br/>
| style="width: 150px; text-align: center" | 16.9<br/>
+
| style="width: 150px; text-align: center" | 16.9<br/>
 
|-
 
|-
| style="width: 150px; text-align: center" | 2007-08<br/>
+
| style="width: 150px; text-align: center" | 2007-08<br/>
| style="width: 150px; text-align: center" | 1882<br/>
+
| style="width: 150px; text-align: center" | 1882<br/>
| style="width: 150px; text-align: center" | 1243<br/>
+
| style="width: 150px; text-align: center" | 1243<br/>
| style="width: 150px; text-align: center" | 639<br/>
+
| style="width: 150px; text-align: center" | 639<br/>
| style="width: 150px; text-align: center" | 34.0<br/>
+
| style="width: 150px; text-align: center" | 34.0<br/>
 
|-
 
|-
| style="width: 150px; text-align: center" | 2008-09<br/>
+
| style="width: 150px; text-align: center" | 2008-09<br/>
| style="width: 150px; text-align: center" | 1842<br/>
+
| style="width: 150px; text-align: center" | 1842<br/>
| style="width: 150px; text-align: center" | 1333<br/>
+
| style="width: 150px; text-align: center" | 1333<br/>
| style="width: 150px; text-align: center" | 509<br/>
+
| style="width: 150px; text-align: center" | 509<br/>
| style="width: 150px; text-align: center" | 27.0<br/>
+
| style="width: 150px; text-align: center" | 27.0<br/>
 
|-
 
|-
| style="width: 150px; text-align: center" | 2009-10<br/>
+
| style="width: 150px; text-align: center" | 2009-10<br/>
| style="width: 150px; text-align: center" | 2249<br/>
+
| style="width: 150px; text-align: center" | 2249<br/>
| style="width: 150px; text-align: center" | 1509<br/>
+
| style="width: 150px; text-align: center" | 1509<br/>
| style="width: 150px; text-align: center" | 740<br/>
+
| style="width: 150px; text-align: center" | 740<br/>
| style="width: 150px; text-align: center" | 32.0<br/>
+
| style="width: 150px; text-align: center" | 32.0<br/>
 
|}
 
|}
  
 
(Source: Road map for development of power sector in Bihar, Government of India, 2007; ''Power Crisis in Bihar'', Electrical Monitor, EM News Bureau, August 01, 2011)
 
(Source: Road map for development of power sector in Bihar, Government of India, 2007; ''Power Crisis in Bihar'', Electrical Monitor, EM News Bureau, August 01, 2011)
  
 
+
<br/>
  
 
== Energy Consumption<br/> ==
 
== Energy Consumption<br/> ==
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The annual per capita consumption in Bihar is currently at 95 units, against a national average of 717, according to the CEA general review 2009.<ref>17th Power Survey of India data 2007-08</ref> As per the statistics provided by the Energy Department, Government of Bihar on its website [http://energy.bih.nic.in/ energy.bih.nic.in], per capita energy consumption in pre- division Bihar was 152 units per year which came down to 60 units per year in the post- division period.
 
The annual per capita consumption in Bihar is currently at 95 units, against a national average of 717, according to the CEA general review 2009.<ref>17th Power Survey of India data 2007-08</ref> As per the statistics provided by the Energy Department, Government of Bihar on its website [http://energy.bih.nic.in/ energy.bih.nic.in], per capita energy consumption in pre- division Bihar was 152 units per year which came down to 60 units per year in the post- division period.
  
 
+
<br/>
  
 
== Status of Renewable Energy<br/> ==
 
== Status of Renewable Energy<br/> ==
  
At present, the installed capacity of Bihar (as of December 2010) is 1855.23 MW, which comprises 1661.70 MW (90&nbsp;%) from thermal, 129.43 MW (7&nbsp;%) from hydropower, only 64.10 MW (3&nbsp;%) from renewable energy (mainly from small hydro and biomass).<ref>Renewable Energy Potential Assessment and Renewable Energy Action Plan for Bihar, 2011</ref>
+
At present, the installed capacity of Bihar (as of December 2010) is 1855.23 MW, which comprises 1661.70 MW (90 %) from thermal, 129.43 MW (7 %) from hydropower, only 64.10 MW (3 %) from renewable energy (mainly from small hydro and biomass).<ref>Renewable Energy Potential Assessment and Renewable Energy Action Plan for Bihar, 2011</ref>
 
 
  
 +
<br/>
  
= Rural Electrification<br/> =
+
= [[Rural_Electrification|Rural Electrification]]<br/> =
  
Only 52.8&nbsp;% of villages and 6&nbsp;% of households of the state are electrified, leaving about 85% of the population with no accaess to electricity.
+
Only 52.8 % of villages and 6 % of households of the state are electrified, leaving about 85% of the population with no accaess to electricity.
  
 
While urban areas are still better positioned with respect to the power availablity, the situation is particularly grim for rural areas. <u>Other than the general low availability of power in the state, the rural areas face additional roadblocks like:</u>
 
While urban areas are still better positioned with respect to the power availablity, the situation is particularly grim for rural areas. <u>Other than the general low availability of power in the state, the rural areas face additional roadblocks like:</u>
 +
*High [[Grid_-_Connection_Costs|Transmission and Distribution Losses]]: Transmission and distribution losses of electricity have been higher in rural areas when compared with urban areas. Due to long dispersed distribution lines, poor infrastructure and low paying capacity; even the distribution costs more.
  
*High Transmission and Distribution Losses: Transmission and distribution losses of electricity have been higher in rural areas when compared with urban areas. Due to long dispersed distribution lines, poor infrastructure and low paying capacity; even the distribution costs more.
+
<br/>
 
 
 
 
  
 
'''Transmission and Distribution Losses'''
 
'''Transmission and Distribution Losses'''
  
{| style="height: 108px;  width: 100%" border="1" cellpadding="1" cellspacing="1"
+
{| cellspacing="1" cellpadding="1" border="1" style="height: 108px; width: 100%"
 
|-
 
|-
 
| style="width: 350px" | '''Year'''<br/>
 
| style="width: 350px" | '''Year'''<br/>
Line 213: Line 212:
 
(Source: ''Power Scenario at a Glance'', January 2011, CEA)
 
(Source: ''Power Scenario at a Glance'', January 2011, CEA)
  
 
+
<br/>
 
 
 
*Subsidies: The electricity supply in rural areas is highly subsidised.
 
*Subsidies: The electricity supply in rural areas is highly subsidised.
 
*Low<span style="font-family: monospace"></span> Collection of Revenues: From the past trends, it has been established that the rural population is willing to pay for the electricity provided <span style="font-family: monospace"></span>they have a reliable and continuous supply of power. But the revenue collection from the rural areas has not only been low but has been dipping with time. This, in a way, reflects the quality of electricity supply in rural areas. Due to poor revenue earnings, the State Electricity Boards (SEBs) did not adopt a positive growth policy for rural infrastructure or power supply.
 
*Low<span style="font-family: monospace"></span> Collection of Revenues: From the past trends, it has been established that the rural population is willing to pay for the electricity provided <span style="font-family: monospace"></span>they have a reliable and continuous supply of power. But the revenue collection from the rural areas has not only been low but has been dipping with time. This, in a way, reflects the quality of electricity supply in rural areas. Due to poor revenue earnings, the State Electricity Boards (SEBs) did not adopt a positive growth policy for rural infrastructure or power supply.
 +
*Lower Technical & Operational Efficiency: Due to political interference, electrical boards operate at a lower technical and operational efficiency in rural areas. <span style="font-family: monospace"></span>Large number of unauthorised connections and power thefts further add to it. The inefficiency is confirmed by the frequently interrupted and poor quality of power supply is rural areas despite they being connected to the electrical grid.<ref>Greenpeace, 2012. Empowering Bihar: Policy Pathway for Energy Access- A Greenpeace Report, Bengaluru. p38 </ref>
  
*Lower Technical & Operational Efficiency: Due to political interference, electrical boards operate at a lower technical and operational efficiency in rural areas. <span style="font-family: monospace"></span>Large number of unauthorised connections and power thefts further add to it. The inefficiency is confirmed by the frequently interrupted and poor quality of power supply is rural areas despite they being connected to the electrical grid.<ref>Greenpeace, 2012. Empowering Bihar: Policy Pathway for Energy Access- A Greenpeace Report, Bengaluru. p38 </ref> &nbsp;
+
<br/>
 
 
 
 
  
 
= Constrains and Opportunities<br/> =
 
= Constrains and Opportunities<br/> =
  
 
<u>The below mentioned points sum up the power situation in Bihar:</u>
 
<u>The below mentioned points sum up the power situation in Bihar:</u>
 
 
*Wide demand- supply gap
 
*Wide demand- supply gap
 
*Low capital availablity
 
*Low capital availablity
Line 231: Line 227:
 
*Low availablity of reliable conventional fossil fuel supply
 
*Low availablity of reliable conventional fossil fuel supply
  
 
+
<br/>
  
 
Whilst these points do not hint towards a promising and upcoming picture of the power situation in Bihar (if pursued the conventional way), the state has several geographic and climatic advantages to harness the renewable energy. Bihar is blessed with fertile soil that spreads along the mighty river Ganges. The average annual temeperature in Bihar lies between 14- 28 degree celsius and the average annual rainfall is 1205 millimeters. Thus the limitations and the resource availablities necessitate that alternate and innovative energy access initiatives be brought onboard.
 
Whilst these points do not hint towards a promising and upcoming picture of the power situation in Bihar (if pursued the conventional way), the state has several geographic and climatic advantages to harness the renewable energy. Bihar is blessed with fertile soil that spreads along the mighty river Ganges. The average annual temeperature in Bihar lies between 14- 28 degree celsius and the average annual rainfall is 1205 millimeters. Thus the limitations and the resource availablities necessitate that alternate and innovative energy access initiatives be brought onboard.
Line 237: Line 233:
 
The table below enlists the conditions prevalent in Bihar and the requirements that they pose on the power supply.
 
The table below enlists the conditions prevalent in Bihar and the requirements that they pose on the power supply.
  
 +
<br/>
  
 
+
{| cellspacing="1" cellpadding="1" border="1" style="height: 271px; width: 100%"
{| style="height: 271px;  width: 100%" border="1" cellpadding="1" cellspacing="1"
 
 
|-
 
|-
 
|  
 
|  
Line 249: Line 245:
 
| Reliable energy supply to support it<br/>
 
| Reliable energy supply to support it<br/>
 
|-
 
|-
| Available Biomass is transported out of the state<br/>
+
| Available [[Basics_on_Biomass|Biomass]] is transported out of the state<br/>
 
| In- house conditions to utilize the biomass<br/>
 
| In- house conditions to utilize the biomass<br/>
 
|-
 
|-
Line 271: Line 267:
 
|}
 
|}
  
 +
<br/>
  
 +
Keeping all these requirements in mind, one possible solution for Bihar seems to be the decentralized electricity generation.This will prove particularly beneficial for remote areas where grid connectivity is not possible. The decentralized power generation can make use of different renewable energy sources available in the state. Since Bihar is an agriculture based economy, rural areas have readily available biomass; hilly and coatsal areas could be utilized for [[Portal:Wind|wind energy]] and large surfaces in the rural areas can be used for [[Portal:Solar|solar energy generation]].<ref>Greenpeace, 2012. Empowering Bihar: Policy Pathway for Energy Access- A Greenpeace Report, Bengaluru. p38</ref>
  
Keeping all these requirements in mind, one possible solution for Bihar seems to be the decentralized electricity generation.This will prove particularly beneficial for remote areas where grid connectivity is not possible. The decentralized power generation can make use of different renewable energy sources available in the state. Since Bihar is an agriculture based economy, rural areas have readily available biomass; hilly and coatsal areas could be utilized for wind energy and large surfaces in the rural areas can be used for solar energy generation.<ref>Greenpeace, 2012. Empowering Bihar: Policy Pathway for Energy Access- A Greenpeace Report, Bengaluru. p38</ref>
+
<br/>
 
 
 
 
  
 
= Policy Framework, Laws & Regulations<br/> =
 
= Policy Framework, Laws & Regulations<br/> =
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*[http://www.bshpcltd.com/policy.htm Policy Guidelines for Private Sector Participation for Developing Non- Conventional Energy Sources 2003.]
 
*[http://www.bshpcltd.com/policy.htm Policy Guidelines for Private Sector Participation for Developing Non- Conventional Energy Sources 2003.]
  
 
+
<br/>
  
 
= Institutions Involved<br/> =
 
= Institutions Involved<br/> =
Line 293: Line 289:
 
*[http://www.berc.co.in/ Bihar Electricity Regulatory Commission (BERC)]: comes into the picture to decide on supply and pricing.<ref>Greenpeace, 2012. Empowering Bihar: Policy Pathway for Energy Access- A Greenpeace Report, Bengaluru. p38</ref>
 
*[http://www.berc.co.in/ Bihar Electricity Regulatory Commission (BERC)]: comes into the picture to decide on supply and pricing.<ref>Greenpeace, 2012. Empowering Bihar: Policy Pathway for Energy Access- A Greenpeace Report, Bengaluru. p38</ref>
  
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= Further Information =
  
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Latest revision as of 15:55, 9 December 2015

Overview

Bihar is a States and territories of India in North India. It is the 12th largest state in terms of geographical size at 38,202 sq mi (98,940 km2) and 3rd largest by population. It is bounded by Uttar Pradesh to its west, Nepal to the north, Northern part of West Bengal to the east and by Jharkhand to the south.[1]


Status of the Power Sector

Situation of power availability in Bihar was never rosy, but with the separation of Jharkhand in the year 2000, it became particularly critical beacuse most of the power generation plants fell into the newly formed state. With Jharkhand, went the bounty of natural resources and mines which minimised the chances of Bihar generating its own electricity using coal. Currently, Bihar is dependent on National Thermal Power Corporation Plants and Jharkhand Electricity Board for power supply. But there is still a wide demand- supply gap that needs to be bridged, one glaring proof of the same is the fact that Bihar's power system has a peak of about 1500 MW under the constrained demand scenario and the availablity is about 950 MW. Only 52.8 % of villages and 6 % of households of the state are electrified, leaving about 85 % of the population with no accaess to electricity.[2]


Current Electricity Scenario in Bihar

Attribute
Value
State Installed Capacity
590 MW
of which thermal
540 MW
(Barauani)
320 MW
(Muzaffarpur)
220 MW
Hydro (Kosi)
50 MW
Share of Chhattisgarh Stations
1379 MW
AT&C Losses
14.45%
Energy Shortage
16.4%
Peak Deficit
27.6%
Per Capita Consumption
93 kWh
National Consumption
650 kWh

(Source: 3rd North East & East Power Summit 2010, CEA and PFC)


Energy Capacity

Bihar gets an allocated share of 1233 MW of power from the central sector projects and draws an unallocated share of 28 MW. The state owned extisting power stations generate only 584.6 MW. Looking at the table below, it is clear that majority of this comes from the thermal power stations.[3]


Power Capacity in Bihar (As of December 2010; in MW)


Thermal
Hydro
RES*
Total
Central
1131.7
129.4
0
1261.1
State
530.0
0
54.6
584.6
Private
0
0
9.5
9.5
Total
1661.7
129.0
64.1
1855.0
  • RES: Renewable Energy Sources (mainly small hydro)

(Source:Power Crisis in Bihar, Electrical Monitor, EM News Bureau, August 01, 2011)


Energy Supply

Bihar ranks second on the list of the least electrified states with 50% of its villages still being in the dark due to the absence of transmission wires there.[4]


Energy supply Position- Peak

Year
Requirement (MW)
Availablity (MW)
Deficit (MW)
Deficit (%)
2002-03
1389
1325
64
14.6
2003-04
973
788
185
19.0
2004-05
980
980
0
0
2005-06
1314
1116
198
15.1
2006-07
1399
1162
237
16.9
2007-08
1882
1243
639
34.0
2008-09
1842
1333
509
27.0
2009-10
2249
1509
740
32.0

(Source: Road map for development of power sector in Bihar, Government of India, 2007; Power Crisis in Bihar, Electrical Monitor, EM News Bureau, August 01, 2011)


Energy Consumption

The annual per capita consumption in Bihar is currently at 95 units, against a national average of 717, according to the CEA general review 2009.[5] As per the statistics provided by the Energy Department, Government of Bihar on its website energy.bih.nic.in, per capita energy consumption in pre- division Bihar was 152 units per year which came down to 60 units per year in the post- division period.


Status of Renewable Energy

At present, the installed capacity of Bihar (as of December 2010) is 1855.23 MW, which comprises 1661.70 MW (90 %) from thermal, 129.43 MW (7 %) from hydropower, only 64.10 MW (3 %) from renewable energy (mainly from small hydro and biomass).[6]


Rural Electrification

Only 52.8 % of villages and 6 % of households of the state are electrified, leaving about 85% of the population with no accaess to electricity.

While urban areas are still better positioned with respect to the power availablity, the situation is particularly grim for rural areas. Other than the general low availability of power in the state, the rural areas face additional roadblocks like:

  • High Transmission and Distribution Losses: Transmission and distribution losses of electricity have been higher in rural areas when compared with urban areas. Due to long dispersed distribution lines, poor infrastructure and low paying capacity; even the distribution costs more.


Transmission and Distribution Losses

Year
Transmission & distribution loss (%)
2003-04
36.66
2004-05
38.88
2005-06
43.96
2006-07
50.67
2007-08
48.79

(Source: Power Scenario at a Glance, January 2011, CEA)


  • Subsidies: The electricity supply in rural areas is highly subsidised.
  • Low Collection of Revenues: From the past trends, it has been established that the rural population is willing to pay for the electricity provided they have a reliable and continuous supply of power. But the revenue collection from the rural areas has not only been low but has been dipping with time. This, in a way, reflects the quality of electricity supply in rural areas. Due to poor revenue earnings, the State Electricity Boards (SEBs) did not adopt a positive growth policy for rural infrastructure or power supply.
  • Lower Technical & Operational Efficiency: Due to political interference, electrical boards operate at a lower technical and operational efficiency in rural areas. Large number of unauthorised connections and power thefts further add to it. The inefficiency is confirmed by the frequently interrupted and poor quality of power supply is rural areas despite they being connected to the electrical grid.[7]


Constrains and Opportunities

The below mentioned points sum up the power situation in Bihar:

  • Wide demand- supply gap
  • Low capital availablity
  • Lack of infrastraucture to support the centralized power supply
  • Low availablity of reliable conventional fossil fuel supply


Whilst these points do not hint towards a promising and upcoming picture of the power situation in Bihar (if pursued the conventional way), the state has several geographic and climatic advantages to harness the renewable energy. Bihar is blessed with fertile soil that spreads along the mighty river Ganges. The average annual temeperature in Bihar lies between 14- 28 degree celsius and the average annual rainfall is 1205 millimeters. Thus the limitations and the resource availablities necessitate that alternate and innovative energy access initiatives be brought onboard.

The table below enlists the conditions prevalent in Bihar and the requirements that they pose on the power supply.


Situation

Requirement
Exceptionally high rate of growth in the recent years & future
Reliable energy supply to support it
Available Biomass is transported out of the state
In- house conditions to utilize the biomass
Majority of the population is below poverty line
Low cost/ affordable power
Scattered but large number of small scale commercial activities
Reliable & flexible power supply systems
Low investment flow
Innovatve techniques to lure investors
Low infrastructure development
Increased support from private entities for infrastructre development
High population density and spread
Zoom- in to ensure better penetration and reach for power distribution
High transmission losses
Local micro grids, local management of resources


Keeping all these requirements in mind, one possible solution for Bihar seems to be the decentralized electricity generation.This will prove particularly beneficial for remote areas where grid connectivity is not possible. The decentralized power generation can make use of different renewable energy sources available in the state. Since Bihar is an agriculture based economy, rural areas have readily available biomass; hilly and coatsal areas could be utilized for wind energy and large surfaces in the rural areas can be used for solar energy generation.[8]


Policy Framework, Laws & Regulations


Institutions Involved

  • Bihar State Investment Promotion Board: looks at the project proposals and grants approvals for setting up renewable energy plants.
  • Bihar Renewable Energy Development Agency (BREDA): The projects are evaluated and recommended upon by BREDA.
  • Bihar State Elecricity Board (BSEB): Post installation, the sale and transmission of power are handled by the BSEB.
  • Bihar Electricity Regulatory Commission (BERC): comes into the picture to decide on supply and pricing.[9]


Further Information

References

  1. http://en.wikipedia.org/wiki/Bihar
  2. Greenpeace, 2012. Empowering Bihar: Policy Pathway for Energy Access- A Greenpeace Report, Bengaluru. p38
  3. Power Crisis in Bihar, Electrical Monitor, EM News Bureau, August 01, 2011
  4. Rural Electrification Corporation Report 2004
  5. 17th Power Survey of India data 2007-08
  6. Renewable Energy Potential Assessment and Renewable Energy Action Plan for Bihar, 2011
  7. Greenpeace, 2012. Empowering Bihar: Policy Pathway for Energy Access- A Greenpeace Report, Bengaluru. p38
  8. Greenpeace, 2012. Empowering Bihar: Policy Pathway for Energy Access- A Greenpeace Report, Bengaluru. p38
  9. Greenpeace, 2012. Empowering Bihar: Policy Pathway for Energy Access- A Greenpeace Report, Bengaluru. p38