Saturday, 22 June 2013

Power Plants

Company Profile 




Lotus Factors was established in 1984, by K.S. Amir as an Indenting Agent company.  It is registered with  Government of  Pakistan Ministry of Commerce ,  FBR   Government of Pakistan , Finance ministry and is a member of Lahore Chamber of Commerce and Industry.

 It acts as a middle man, broker and  an Agent company .  It is a bridge between foreign manufacturers  and  local importers.




 Our company is a marketing specialist and provides its services to foreign manufacturers on commission basis. Its main aim is to promote the business of its principal in Pakistan. It provides services to the foreign manufacturer to market their products in Pakistan, and offer their products to the importers, customers and industries in Pakistan. It can collect orders from the importers and industries in Pakistan on behalf of its principal. The main area of business is power plants.  We deal in all types and sizes of power plants such as Steam turbine power plants, Biomass power plants, Bio gas Power plants, Solar power plants, and wind turbine power plants. Our customers are Sugar Industries and Textile Industries.





 Steam Turbine Power Plants : 





News

MoU signed for 2,400MW : China to help build four more power plants

LAHORE: A memorandum of understanding was signed between the Punjab government and a Chinese company – China Power International Holdings (CPIH) – for setting up four coal power plants of 2,400 megawatts. Energy Secretary Usman Bajwa on behalf of the Punjab government and CPIH Vice President Wang Zhiying singed the MoU. He said that the CPIH was the biggest company in the power sector of China, and under the agreement, four coal power plants would be set up in Gadani (Balochistan) and 2,400 megawatts of energy would be generated through the plants. He said that according to the agreement, two power plants would be completed within two years, while the other two within three years from the date of the agreement





Back pressure Steam Turbine


 Steam Boiler power Plant consist on Boiler + turbine +generator.
  It is suitable for size  3 MW  to 1 00 MW 

These power Plants are suitable for industries who already have a steam Boiler or may arrange it. These power plants can generate Electricity at large scale. Coal , Natural Gas and furnace oil can be used as a fuel,  A combination of Coal and sugar cane waste  beggase can also be used to reduce the cost of fuel. 
Steam Turbine Power Plants are suitable for power plant size 3 MW to 100 MW




BIOMASS POWER PLANTS


INTRODUCTION

Electricity demand in Pakistan continues to grow due to chronic power shortage. Pakistan’s estimates indicate supply demand mismatch and the electricity demand is to double in the next ten years. This means that by 2015 around 15,000 MW new capacities need to be installed. Consequently more than 2,000 MW should be constructed each year just to cover the population growth.

Unfortunately most of the existing power projects planned and proposed today in Pakistan continue to focus heavily on exported oil. Oil based power plants are expensive, damaging to environment and also continues to increase Pakistan’s foreign deficit. Fortunately, government of Pakistan has recognised Biomass to be a important renewable resource and has created an attractive Alternative Renewable Energy (ARE) policy that offers many incentives to investors to utilise this local and green resource.





Farming is Pakistan largest economy. About 25% of Pakistan’s land is cultivated with many different agricultural crops. Unfortunately, almost all of the waste from the crops is either thrown or is burned.

SUGAR GROUP is working on multiple sites in Pakistan that is capable of supporting 10 to 20 MW of biomass power plant, capable of utilising different kind of biomass fuel. By using Biomass SUGAR GROUP plans will not just offer electricity but will also help in disposal of biomass residues, use abundant indigenous resources, help power remote locations that are rich in biomass resources and offer a clean renewable energy option. By 2015, SUGAR GROUP plans to build 5 small biomass projects in Pakistan.
The first SUGAR GROUP biomass project is a 10 MW power plant on Build Operate Own (BOO) terms. The Project will be using biomass, such as baggase, cane trash and rice husk as a fuel sources. The project would comprise of a boiler and steam turbine/generator (with gross capacity of 12MW) along with related accessories.

The proposed power plant is based on steam turbine generator consisting of a single boiler and a single steam turbine/generator. The selected technology is considered to be very effective yet economical as the fuel biomass/coal is abundantly available domestically at a reasonable price. During off or drought seasons, the power plant will be able to us coal as an alternate fuel.







Biomass    Power   Plants 


Watch a video showing a Biomass plant 


BioMass Power Plant is suitable for size upto 2 MW It contain Gasification room + Gas engine + generator,  but Biomass plant are for small size power plant only , usually 0.2-2MW  A Biomass power plant with a capacity of 1000KWH, approximate cost is One Million USD.


Biomass power plants  use Gas generators.  These Generators are similar to Diesel Generators 

 Biomass  gas plant can produce flammable gases such as Carbon Mono Oxide and methane  mixture, by burning  any kind of waste materials, such as Municipal waste , Farm Waste such as leaves, cotton straw, wheat straw , Sugar cane waste bagasse, Rice hull, wood barks, or sticks etc can be used for gasification and to make flammable Gases.

 Biomass gasification main working principle is low temperature burning with   controlled low oxygen supply Anaerobic combustion, and the raw material widely used are, bark, leaves, straw, such as agriculture waste, forestry  waste materials, 

Before using these materials into Gasification plant the fuel waste materials such as begasse will be crushed into size of 3 - 5 cm particles, and dried out to moisture contents of less then 15%.

.
Gasifier can be divided into fixed bed and fluidised bed,  However Fixed bed type Gasifier is mainly used. because it produce less tar content, easy filtering;

Different raw material  produce different ratio of gas

 For example : 1 kg palm shell can produce3-4 cubic gas; 

1 kg wood based materials can produce 3 cubic gas; 

1 kg rice hull can produce 1.5 cubic gas; 

1 kg cotton straw can produce 2 cubic gas.

 1kg bagasse can only produce 1 cubic gas, 

2 cubic gas can produce 1 KW.

Fixed bed type gasifier can automatically deliver ash  by hydraulic gate with the  help of lift bucket  loading 






Punjab can produce 5,000MW from biomass: report

Punjab has the potential to produce 3,000-5,000 MW of electricity from biomass the province generates annually as agricultural waste states a report “Identification of Biomass Potential in Punjab,” prepared by German NGO GIZ.
Most of the 35 million ton biomass generated annually in Punjab goes waste through inefficient burning, the report said.
The main contributors to biomass are bagasse, rice straw and husk, cotton waste, barley residue, maize stalks and leaves, and millet and sorghum stalks.
Sugarcane provides two major crop wastes; barbojo – the leaves and stalks of the cane and bagasse – the dry pulpy residue left after the extraction of juice from sugarcane. The cotton crop also gives significant residue in the form of stalks and husks.
“We carried out detailed survey of all the36 districts of the province to find out the amount of biomass that is available,” said Amir of GIZ who was member of the team that prepared the report after painstaking research. He said the currently available power potential by using biomass as fuel is around 3,000 MW. This could increase to 5,000 MW if the sugar mills consume 97 percent of the available bagasse in highly efficient boilers.
Sugar mills produce around 30-32 million tons of bagasse each year during the sugar cane crushing season. The mills sell only 30,000 tons of bagasse in the market and consume the rest for power generation,
Total production of each crop contributing to biomass was calculated in each district of Punjab and the biomass residue generated from the crop was also evaluated. The findings showed that the energy deficient province has enough potential of generating electricity trough biomass.
Most of the sugar mills consume bagasse in heating inefficient boilers of 12 to 20 bar. The Indian sugar mills have installed 50 bar or above boilers that produce many times more electricity, he said.
Punjab could produce 203 MW of electricity from 30,000 ton bagasse provided to the market which could increase manifold with increase in supply of bagasse that could be spared if mills use high bar efficient boilers, Butt said.
According to the report rice husk that contains 10.4 percent moisture content and 64.25 percent volatile matter has caloric value of 3,826 kacl/kg. Moisture content in cotton stalk is 20.86 percent, volatile matter 60.66 percent, and it has gross calorific value of 3,296 kcal/kg. Wheat straw has calorific value of 3,712 kacl/kg with only 6.34 percent water content and 61.73 percent volatile matter. Bagasse contains 25.25 percent moisture, 48.98 percent volatile matter and its caloric value is 3,673 kcal/kg.
Report points out that the efficient use of biomass as fuel would reduce carbon print in the environment. Currently, most of these biomass products are treated as biomass waste and usually burned in the fields. Biomass burning has a significant impact on global atmosphere chemistry since it provides large sources of carbon monoxide, nitrogen oxides and hydrocarbons.


Bio Gas     Power      Plants






As for the bio   gas projects, animal waste such as: cow dung or buffalo waste  or food waste can be used   for making Bio gas..

The following are the biogas systems are available.

1.  medium size biogas system: The medium size biogas system is composed of one or a group of 100 m3,200m3 biogas plants formed into a unit, the pipe system, the gas purify system and the appliances or electricity generator. The medium size biogas system is mainly applied to the livestock (buffalo, cow, etc.) plants to treat the waste, or applied to public buildings (hotel, apartment, etc.) to treat sewage and food waste.


For medium size biogas system we design the biogas system, sell all the equipment and products needed to build the biogas system to our customers, train the technicians for them, and our customers build the biogas system themselves.

For 1000kw electricity a day,  you will need 700 cubic meter biogas a day, 700m3 biogas a day will require 21tons  Buffalo dung .

You will need to build 800m3 biogas plant which is composed of 4nos of 200m3 biogas digesters.

For 1000 KW the cost of Equipment is AROUND USD 150,000 including generator

. If you think the quotation of the equipment is acceptable, i will make a proforma invoice for you.

Just feel free to talk with us if you have any further question or need any further information




Solar Map of Pakistan






Solar Panel




Solar Panel are economical Free Energy that can run 2200 W submersible pumps . Storage batteries are not required to operate the  Solar Water Tube well. Farmers can take advantage of Solar panels at large, as it is beneficial for agriculture.





Solar Tube Wells



wind-solar hybrid system




The start-up wind speed  of our wind turbine is 2m/s. I Have check the average wind speed in Pakistan, most of the cities enjoy a good wind condition. I don't know which city are you in. But you can check  wind and solar  condition of your city at  http://www.gaisma.com/en/dir/pk-country.html 


We have three different systems: 
  1. on-grid system, 
  2. off-grid system
  3.  and wind-solar  hybrid system.


 For on-grid system which consists of wind turbine, controller & inverter and tower.  You can connect our wind turbine with your government grid.  And using the by-pass switch on controller to select whether you prefer to use electricity from grid first or wind turbine first. If you wish  grid Electricity  first, then you will not use the wind turbine to power until you are lack of electricity from grid. If you wish to use wind turbine first, then you will not use the grid power until the wind turbine stop working because of lack of wind or something else.  

For off-grid system which consists of wind turbine, controller, inverter, battery and tower. You can only use wind turbine to power your appliances. Don't worry about lack of wind, the electricity in battery can provide you 3 days consumption.  

And our wind-solar hybrid system consists of wind turbine, solar panel, controller, inverter, battery and tower.  This system can provides  a more stable, reliable, efficient power output for your off-grid appliances. You don't need to worry about lack of sun or a sudden shift in wind velocity. They create a more constant flow of power than either single  source provides.Each and every component has been well developed and tested for years in the fields and offers the highest levels of reliability, efficiency and ease of use, we can also design base on your project specific requirements.

Wind Solar Hybrid system 1000 KWH power consumption per day that can  run a medium size Textile Mill consisting Off the-grid wind solar hybrid power generation system, with 200Kw wind turbine and 200kw solar photovoltaic panels hybrid system
wind turbine tower, off-grid controller, battery bank, off-grid inverter and other accessories for installation,the rough price will be US$784500

Solar energy is very suitable for farmers who wish to use submersible pumps with the  help of Solar panels without installation of  Storage batteries.  Solar Water pumps or Solar Tube wells are available with 2200 w Capacity price rane is USD 900 - 1200. No battery is needed.




Wind Map of Pakistan



Wind Turbines :




ART-H3KW WIND TURBINE



We have gathered a batch of experienced technical personnel, who can design wind turbine generator independently to meet the customer needs. At present the main products have 150 w-20 kw wind power generators, wind-light complementary generators and the wind-light complementary street light. We are rich in the design, production and installation experience of wind power generator.

Our company constantly develops new products so that the technology is in the leading level at home and abroad. Products are sold well all over the world and by this have won the trust of many global customers.


II: Price List
Model
Project
Specification
Price            (FOB Qingdao)
Remark
ART-H3KW
Wind Generator
3KW
4400usd/pc

Blade
3PCS

Controller
OFF-GRID
1298usd/pc

Inverter
OFF-GRID

Guy Cable Tower
8M
1320usd/pc
optional
Free Stand Tower
8M
2299usd/pc
optional
Battery
12V200AH10 PCS (2000Ah)
1.5usd/AH
Gel battery
Total:




III: Technical Parameter

Power(w)
3000
Rated wind speed (m/s)
9-11
Rotor diameter (m)
3
Start-up wind speed (m/s)
3
Height of blade (m)
3.6
Range of working wind speed(m/s)
3-25
Material of blades and numbers
Glass Fiber Reinforced Plastic/3
Survival wind speed (m/s)
50
Rated rotor speed (m/s)
150r/min
Output Voltage
AC220/380V
Speed regulation method
Electromagnetic control
Stop method
Electromagnetic brake
Wind energy utilized   coefficient
30%-40%
Sweep wind area()
8.065
Range of working temperature
-45℃-60℃
Suggested supporting battery
18pcs12v100ah
Top weight (kg)
323
Tower type and height
Free standing tower/8m

Wind Turbine in holand school 900W



K.S. Amir
3-A Davis Road, Lahore 54000 Pakistan
E.Mail : powerplants786@gmail.com


http://powerplants786.blogspot.com



Energy Profile Pakistan

Pakistan, officially the Islamic Republic of Pakistan is a sovereign state in South Asia. It has a 1,046-kilometre (650 mi) coastline along the Arabian Sea and the Gulf of Oman in the south and is bordered by Afghanistan and Iran in the west, India in the east and China in the far northeast. Tajikistan also lies very close to Pakistan but is separated by the narrow Wakhan Corridor. Strategically, Pakistan is located in a position between the important regions of South Asia, Central Asia and the greater Middle East. The region forming modern Pakistan was the site of several ancient cultures including the neolithic Mehrgarh and the bronze era Indus Valley Civilisation. Subsequently it was the recipient of Hindu, Persian, Indo-Greek, Islamic, Turco-Mongol, and Sikh cultures through several invasions and/or settlements. As a result the area has remained a part of numerous empires and dynasties including the Indian empires, Persian empires, Arab caliphates, Mongol, Mughal, Sikh and British Empire. Pakistan gained independence from the British Empire in 1947 after a struggle for independence, led by Mohammad Ali Jinnah, that sought the partition of India and the creation of an independent state for the Muslim majority populations of the eastern and western regions of British India. With the adoption of its constitution in 1956, Pakistan became an Islamic republic. In 1971, an armed conflict in East Pakistan resulted in the creation of Bangladesh. Pakistan is a federal parliamentary republic consisting of four provinces and four federal territories. With over 170 million people, it is the sixth most populous country in the world and has the second largest Muslim population after Indonesia. It is an ethnically and linguistically diverse country with a similar variation in its geography and wildlife. With a semi-industrialized economy, it is the 27th largest in the world in terms of purchasing power. Since gaining independence, Pakistan's history has been characterised by periods of military rule, political instability and conflicts with neighbouring India. The country faces challenging problems including terrorism, poverty, illiteracy and corruption. Pakistan has the seventh largest standing armed force and is the only Muslim-majority nation to possess nuclear weapons. It is designated as a major non-NATO ally of the United States and a strategic ally of China. It is a founding member of the Organisation of the Islamic Conference and a member of the United Nations, Commonwealth of Nations, Next Eleven economies and the G20 developing nations.
Source: dbpedia

Energy sources

Total Installed Electricity Capacity (2009): 19,786 MW
Thermal: 65%
Hydro-electric: 33%
Nuclear: 2%

Total Primary Energy Supply (2009): 85,520 ktoe*
Biofuel and Waste: 34.5%
Natural Gas: 31.9%
Oil: 24.7%
Coal/peat: 5.2%
Hydro-electric: 2.8%
Nuclear: 0.9%
*Share of TPES excludes electricity trade

The annual growth of primary energy supply increased from 3.17% to 4.3% during 1997-98 to 2006-07.

Indigenous natural gas is the largest source of energy supply in Pakistan contributing 27.7 million TOEs (45.4%) in 2009/10, followed by oil products, mainly imports, at 21.3 million TOEs (34.9%), hydro-electric power at 7.5 million TOEs (12.3%), coal, mainly imports, at 3.7 million TOEs (6.1%) and nuclear power at 0.8 million TOEs (1.3%). Consumption of indigenous natural gas has grown rapidly in all sectors of the economy (residential, commercial, industrial, transport and power) over the past 15 years, driven by growing availability of gas and a low, government-controlled gas price as compared with alternate fuel prices. As a result, Pakistan has developed a vast natural gas transmission and distribution network across the country .

Electricity is used for domestic, commercial, agriculture and industrial purposes. Despite its high per unit price, household demand for electricity is growing. This sector is the largest consumer of electricity in the Pakistan with a share of 42%, whereas the industrial and agriculture sectors shares are 25.2% and 13.3% respectively.

In 2008, the total generation capacity from the Water and Power Development Authority´s (WAPDA) own hydro and thermal sources plus generation from two nuclear power plants, KESC and IPPs stood at 19,420 MW. At present, total RE produced in the country accounts at 40MW which is about 0.21% of total installed generation capacity.

Reliance

At present Pakistan meets 75% of its energy needs through domestic resources, including gas, oil and hydroelectricity production. Pakistan imported 20.22 MtoE of energy in 2009.

In Pakistan almost 20% of the foreign exchange is spent on import of fossil fuels. Approximately USD 7 billion on imports of conventional energy resources were spent equivalent to 40% of total imports by Pakistan .

Since October 2002, Pakistan has been importing electricity from Iran. Further, Pakistan has planned to import 1,100 MW of electricity from Iran for supply to Gwadar and other coastal areas of Balochistan .

Extend network

Population Access to Electricity (2008): 57.6%
Rural: 46%
Urban: 78%

70.4 million people do not have access to electricity.

Two separate grids form the electricity transmission network in the country, the national grid operated by the National Transmission and Dispatch Company (NTDC), and a dedicated grid for Karachi, the Kerachi Electric Supply Company Limited (KESC). These networks are interconnected via a 220 kV line. The NTDC currently operates approximately 4,160 km of 500 kV transmission line, and a further 4,000 km of 220 kV line .

Capacity concerns

Pakistan’s energy sector is in a state of crisis and over the past few years has negatively impacted the social and economic development of the country. Primary energy consumption in Pakistan has grown by almost 80% over the past 15 years, from 34 million tons oil equivalent (TOEs) in 1994/95 to 61 million TOEs in 2009/10 and has supported an average GDP growth rate in the country of about 4.5% per annum. However since 2006/07 energy supply has been unable to meet the country’s demand leading to shortages. Meanwhile per capita energy consumption in Pakistan at under 0.5 TOEs/capita remains only one-third of world average .
The current electricity production in Pakistan is around 11,500 MW per day, whereas the electricity demand had jumped from 15,000 MW per day to 20,000 MW per day in the year 2010. This massive increase in demand suggests that the looming energy crisis in Pakistan will become even more severe in the near future .

The government-controlled power sector in Pakistan, one of the largest consumers of primary energy, is facing growing problems due to an unrealistic power tariff, high inefficiencies, low payment recovery and the inability of the government to manage its subsidies mechanism. This has led to a serious “circular debt” issue which is becoming a barrier for future energy sector investments .   Extended periods of blackouts persisted in 2010 and “circular debt” is increasing. Despite investments in generation capacity, electricity demand continues to exceed supply, with blackouts as long as 8–10 hours per day in cities and sometimes double that in rural areas, and is widely recognized as a severe obstacle to growth and poverty reduction .

Renewable energy

Pakistan's current electricity generation mix has a growing and ultimately unsustainable reliance on imported gas and fuel oil. Imported energy is in the range of 30% of the total energy mix and has increased each year for the past 5 years. Pakistan has a huge RE potential (50,000MW from hydropower, 40,000 MW from wind energy). Solar energy too offers opportunities .



Solar Energy  

Pakistan lies in a region of high solar irradiance; as such, it is ideally suited for solar energy projects. Pakistan receives about 15.5x1014 kWh of solar irradiance each year, with most regions receiving approximately 8 to 10 sunlight hours per day. The potential installed capacity of solar photovoltaic power is estimated to be 1,600 GW per year, providing approximately 3.5 PWh of electricity (approximately 41 times current power generation in the country). Current utilisation is still at a developmental stage, with several pilot projects being implemented.

Wind Energy 
Wind energy also has strong technical potential in Pakistan, particularly in the southern regions of Sindh and Balochistan. Pakistan has approximately 1,000 km of coastline with steady average wind speeds ranging between 5 and 7 m/s. The projected installed capacity for wind energy is estimated at 122.6 GW per year, providing approximately 212 TWh of electricity (approximately 2.5 times the current power generation level). The Alternative Energy Development Board (AEDB) has awarded 19 contracts to IPPs for construction of wind power plants, all with capacities exceeding 50 MW.

Biomass Energy 
Biomass availability in Pakistan is also widespread. Approximately 50,000 tonnes of solid waste, 225,000 tonnes of crop residue and over 1 million tonnes of animal manure are produced daily. It is estimated that potential production of biogas from livestock residues is 8.8 to 17.2 billion meters3 of gas per year (equivalent to 55 to 106 TWh of energy). Large sugar industry in Pakistan also generates electricity from biomass energy for utilization in sugar mills. Annual electricity production from bagasse is estimated at 5,700 GWh – about 6% of Pakistan’s current power generation level .  In the present electricity crisis recently government allowed sugar mills to supply their surplus power up to a limit of 700 MW to the national grid. It is estimated that sugarcane bagasse can potentially be used to generate 2000 MW of electric power. However presently it is difficult to obtain more electricity from sugar mills due to grid limitations because most of the sugar mills are located in remote rural areas which are not even connected to the national grid. Integration of electricity generated from biomass energy to the national grid can ease the electricity shortage in the country.



Hydropower 

Presently, large hydro power dams are the only major renewable energy sources in Pakistan for electricity generation. In some cases construction of large hydro dams results in major relocation of people and changes in land use for the areas in which the dams are built. These projects have become controversial in Pakistan in recent years due to significant impact on rivers, ecosystems, and surrounding communities. . Currently, Pakistan has installed hydropower capacity of approximately 6.6 GW. This is 16% of total hydropower potential, which is estimated to be roughly 41.5 GW .

Biogas 
A total biogas generation potential of 14.25 million m3/day is available. The Pakistan Council of Renewable Energy Technologies is designing, developing and disseminating biogas plants. During the last 3 years, more than 1600 plants, mostly of 5 m3/day capacity, have been installed by the PCRET. NGOs and private sector companies have performed similar numbers of installations. This means that a total of 0.016 million m3/day of biogas capacity was utilised during the last 3 years, with an annual exploitation factor of 0.374 x 10-3. The working status of biogas plants installed before the last 3 years is uncertain, as there are no repair and maintenance services.



Geothermal Energy

Pakistan has considerable potential for geothermal energy (80,000 MW) as there are numerous fumaroles and hot springs. However, the extent of the commercial potential is not known, and further studies are needed.

Energy efficiency

Households in Pakistan accounted for about half of total electricity consumption in 2008. Lighting and air conditioning in the summer are the main drivers of peak loads. Inefficient household and commercial appliances cause a huge burden on the already strained supply. Demand-side energy savings potential in FY2008 was estimated at 6.1 MTOE which corresponds to 15.4% of all energy consumed in the country .

Agriculture accounts for 11.5% of the demand for electricity (0.690 MTOE) and 94.5% of the demand for light diesel oil (LDO) (0.12 MTOE) in the country. High-speed diesel (HSD) consumption in Pakistan corresponds to 13.90% (1.1 MTOE) of overall fuel consumption in the transportation sector. According to agricultural experts and manufacturers of high efficiency pumps, motors, and engines, approximately 38% of the electricity consumed by electric pumps in the agriculture sector can be saved by replacing existing electric motors and pumps with more efficient ones available locally. Similarly, LDO and HSD consumption can be reduced by up to 50% by replacing the low efficiency pump sets used in the tube wells .

Ownership

Electricity Market 
The power sector is a mix of hydro and thermal units dominated by two (in generation, transmission and distribution) utilities, the Water and Power Development Authority (WAPDA, www.wapda.gov.pk) and the privatized Karachi Electric Supply Corporation (KESC, www.kesc.com.pk). In addition, there are two nuclear power plants, KANUPP and CHANUPP, and a number of IPPs and small power producers (SPPs) established since 1994. Since October 2007, the state-owned WAPDA has become two distinct entities i.e. the WAPDA and the Pakistan Electric Power Company (PEPCO, www.pepco.gov.pk). The WAPDA is responsible for water and hydropower development, whereas the PEPCO is responsible for the management of the WAPDA’s 14 public limited companies in thermal power generation, transmission, distribution and billing.   The PEPCO supplies electricity through its nine Distribution Companies (DISCOs); the Lahore Electric Supply Company (LESCO, www.lesco.gov.pk), the Gujranwala Electric Power Company (GEPCO, www.gepco.com.pk), the Faisalabad Electric Supply Company (FESCO, www.fesco.com.pk), the Islamabad Electric Supply Company (IESCO, www.iesco.com.pk), the Multan Electric Power Company (MEPCO, www.mepco.com.pk), the Peshawar Electric Power Company (PESCO, www.pesco.gov.pk), the Hyderabad Electric Supply Company (HESCO, www.hesco.gov.pk), the Quetta Electric Supply Company (QESCO), and the Tribal Electric Supply Company (TESCO), to all sectors in the country.

Oil and gas market
Pakistan State Oil (www.psopk.com) is a state-owned enterprise, responsible for the majority of the marketing, distribution and sale of petroleum products in the country. Pakistan Petroleum Limited (PPL, www.ppl.com.pk) is the majority-state-owned organisation responsible for the exploration and development of oil and natural gas products in Pakistan.

Competition

The Pakistani power sector has historically been dominated by the public sector utilities, WAPDA and KESC. Over the years, these institutions became large, vertically-integrated utilities with problems with maintenance of Infrastructure, financial and technical inefficiencies, and dependence on public sector development resources.

In order to mobilise private sector investment for the power sector, an IPP policy was launched in 1994, and subsequently reviewed in 1998 and 2002. A Private Power and Infrastructure Board (PPIB) was set up to provide support to the private sector. The government also set up the National Electric Power Regulatory Authority (NEPRA) in 1997. In 1998, it embarked upon a programme of unbundling the WAPDA through corporatisation and commercialisation. The WAPDA has now been reorganised into nine distribution companies, one National Transmission and Dispatch Company (NTDC) and four thermal generation companies, called GENCOs. The hydroelectric power development and operation functions remain with the WAPDA. To carry out this restructuring a facilitation company called Pakistan Electric Power Company (PEPCO) was also incorporated in 1998. Several IPPs are operating in Pakistan, while a number of projects are under construction. The gross power generation capacity of the IPPs is 5,822 MW. The Kot Addu Power Company (KAPCO) and the Hub Power Company (HUBCO) are the two largest IPPs, with 1,466 MW and 1,292 MW respectively.

Energy framework

During the mid-80s, Pakistan made its first move towards exploring renewable energy options. The government invested 14 million rupees towards feasibility studies for solar energy and biogas production between 1983 and 1988. However, no significant project developments resulted from this investment .

New energy policies were also instituted in 1994, 1998 and 2002. The 2002 Power Policy, currently still in place, encouraged the use of local resources, including renewable energy. This policy aimed to develop approximately 500 MW of renewable (non-hydro) power generation by 2015, and roughly 1,000 MW by 2020. Although various energy policies implemented between 1985 and 2002 stressed the need for employing renewable energy resources, none provided a framework for the implementation of such projects. RE development was virtually non-existent, as these policies failed to attract private sector confidence and investment .

The Alternative Energy Development Board (AEDB) introduced the Policy for Development of Renewable Energy for Power Generation Employing Small Hydro, Wind, and Solar Technologies in 2006. This is Pakistan’s first energy policy aimed specifically at the promotion of RE power projects. The goal under this policy is for RETs to provide 10% of Pakistan’s energy supply mix by 2015. The policy focuses on solar energy, wind energy and small-scale hydropower projects. The policy objectives are to :
  • increase the deployment of RETs (thereby diversifying the energy supply mix and increasing energy security);
  • promote private sector investment in RETs through incentives and by developing RE markets;
  • develop measures to mobilise financing;
  • facilitate the development of a domestic RET manufacturing industry (lowering costs, improving service, generating employment and improving local technical skills);
  • increase per capita energy consumption and social welfare, especially in remote and rural areas, where poverty can be alleviated and the burden on women collecting biomass fuel can be reduced; and
  • promote environmental protection and awareness.

Realising the importance of biodiesel, the AEDB has initiated the National Biodiesel Programme, and formulated a policy for the use of biodiesel as an alternate fuel in Pakistan. The policy is primarily aimed at reducing the country’s fuel import bill, promoting the demand for biodiesel raw material, which will be the primary commodity for biodiesel production. One of the salient features of the policy is to achieve a minimum biodiesel share of 5% by volume of total diesel consumption in the country by the year 2015, and 10% by 2025 .

The Pakistan National Energy Policy was announced on April 22, 2010, by Prime Minister of Pakistan, Yousaf Raza Gillani in response to growing power shortages in the country.  The announcement was made after a three day conference in Islamabad that discussed the causes of the power crisis in Pakistan and possible steps to relieve it. Measures were aimed at cutting consumption by 500 MW. The official weekend was extended from one to two days. Neon signs and decorative lights were banned. Power was cut to government offices by 50%, and air conditioners were only allowed to be switched on after 11 am. Street markets were asked to close early.. The government would pay off its USD1.38 billion debt to power producers allowing them to pay fuel suppliers. Power supply to Pakistan's commercial capital Karachi was decreased by 300 MW in order to allow fairer distribution of power to the remaining parts of the country.] Tube wells were not allowed to operate from 7 pm to 11 pm.

Energy debates

The Government has announced the formulation of a new alternative energy policy to attract investors to the sector.  The draft Alternative and Renewable Energy Policy (ARE 2011) was drafted in consultation with stakeholders.

Energy studies

Pakistan is part of the South Asian Regional Initiative for Energy under USAID (SARI/E), a program that promotes energy security in South Asia through three focus areas :

(1) cross border energy trade,
(2) energy market formation, and
(3) regional clean energy development.

Through these activities SARI/E facilitates more efficient regional energy resource utilisation, works toward transparent and profitable energy practices, mitigates the environmental impacts of energy production, and increases regional access to energy. SARI/E countries also include: Afghanistan, Bangladesh, Bhutan, India, the Maldives, Sri Lanka, and Nepal .

Role of government

Ministry of Water and Power 
The Ministry of Water and Power (http://202.83.164.26/wps/portal/Mowp), responsible for development of water and power resources in Pakistan, handles all issues related to power generation, transmission and distribution, pricing, regulation, and consumption, and exercises this function through respective organisations. It also performs specific functions, such as coordinating and planning the power sector, formulating policy and specific incentives, and liaising with provincial governments on all related issues.

National Economic Council (NEC)  
The overall planning of the electricity system is under the control of the NEC. The NEC is the supreme body responsible for ensuring balanced development of the country. It was created in December 1962 under Article 145 of the Constitution of Pakistan. The NEC is headed by the Head of the Government. Its members are some of Federal Ministers, the Governors/Chief Ministers of the provinces, and the Deputy Chairman of the Planning Commission. The Planning Commission is the chief instrument for formulating the national plans. The Energy Wing of the Planning Commission estimates the energy demand on the basis of information obtained from all concerned entities, and formulates unified short- and long-term national energy plans. The NEC approves all plans and policies relating to energy/electricity sectors development.

Executive Committee of the National Economic Council (ECNEC)  
The ECNEC supervises the implementation of energy policy laid down by the government, and approves any energy sector project to be built by the public sector. The planning and development of nuclear power is the responsibility of the Pakistan Atomic Energy Commission (PAEC, www.paec.gov.pk).

Government agencies

Various government institutions have been established over the past 30 years to promote the implementation of RETs. The National Institute of Silicon Technology (NIST) was founded for research and development (R&D) in the field of solar energy in 1981. The Pakistan Council for Appropriate Technology (PCAT) was also established four years later. This group aimed to promote hydropower, biogas and small-scale wind energy. The two institutions were merged, forming the Pakistan Council of Renewable Energy Technology (PCRET), in 2002. The goal of the PCRET is to organise, coordinate and promote R&D within the field of RE . PCRET has performed research and development activities in various fields of RETs. These fields include photovoltaics (PV), solar thermal energy (STE), wind energy (WE), biogas and biomass (BG/BM), micro-hydro power generation (MPG), fuel-saving technologies (FST), etc.

The Alternative Energy Development Board (AEDB) was established in 2003 to act as the central national body on the renewable energy sector and its responsibility is to implement various policies, programs and projects in the field of renewable energy technologies, mainly promoting wind, solar and small-scale hydro power projects . AEDB is responsible for developing national RE policy and establishing short, medium and long-term policy goals for renewable energy technologies in the country. AEDB also act as a one-window facility for processing RE power generation projects in order to ensure smooth execution and implementation of RE projects by private sector and foreign investors. In order to facilitate RE projects AEDB has drafted standard power purchase agreement and other project implementation agreements

The National Engineering and Science Commission (NESCOM) and the Solar Energy Centre (SEC) are two other organisations working in solar energy. The NESCOM and the SEC mostly concentrate on the production of photovoltaic panels, and designing solar thermal appliances, respectively. The SEC is an attached department of the Pakistan Council of Scientific and Industrial Research (PCSIR), and designed and developed solar flat-plate water heating system in the 1980s. The SEC has installed a 500 gallon per day capacity solar desalination system near Gwader, Balochistan Province, for disinfection and the purification of drinking water .

Energy procedure

To enhance hydropower generation, there are five projects under construction, i.e., the Allai Khwar, Khan Khwar, Duber Khwar, Jinnah and Neelum Jhelum hydropower projects. Dams under construction include the Gomal Zam, Mirani, Sabakzai, and Satpara Dam, and the Mangla Dam Raising project. The future projects announced include the Diamer Basha Dam, the Kalabagh Dam, the Kurram Tangi Dam, the Munda Dam, and the Akhori Dam projects. The hydropower projects about which feasibility studies are being conducted include the Golen Gol, Dasu, Bunji, Keyal Khwar, Lawi, Pallas Valley (Chor Nullah), Spat Gah, Basho, Phandar, Jabban, Thakot and Patan hydropower projects .

Tubewell Efficiency Project
With the world’s largest irrigation-based agricultural system, Pakistan uses much of its power on pumping water for farms. The United States Agency for International Development (USAID) is providing USD18.5 million to help replace up to 11,000 tubewell pumps with more efficient models. This project is allowing farmers to significantly reduce their electricity usage, for a savings of nearly USD8 million and 45MW of electricity each year .

Presently, the AEDB is working on :
  • Design and development of a 100MW wind farm at Gharo-Keti Bandar, Sindh;
  • Electrification of 800 remote area villages through RETs;
  • development of wind turbines,
  • development of solar PV panels,
  • Establishment of solar thermal power plants in the country, and
  • Formulation of laws and taxes to promote alternative and renewable energy (ARE) projects and products in the country.

The Government of Pakistan has given targets to AEDB to install 700 MW wind power by the year 2010. The target for 2030 is at least 9.7 GW, which would be 5% of the total planned national power generation capacity at that time. The AEDB has initiated a program for the installation of 100 MW wind farm at Gharo-Keti Bandar site in the coastal area of Sindh. The AEDB has so far issued 94 letters of intent to private wind investors for 50 MW capacity sites (equivalent to 4.7 GW). Twenty-five of these private wind investors have been allocated land by the provincial government. Eight companies have completed feasibility studies and have received generation licenses from NEPRA (National Electric Power Regulatory Authority). Zorlu Enerji Pakistan Ltd. (Turkey) has installed the first wind farm of Pakistan of 6 MW capacity (5 wind turbines of 1.2 MW capacity each) at Jhampir Thatta, Sindh. The wind farm was inaugurated in May 2009.

The Asian Development Bank (ADB) is helping Pakistan craft, a comprehensive energy efficiency policy and investment programme to meet the growing energy demands of an expanding economy and population. The activities will include a comprehensive study on the energy efficiency market and build awareness in the country of the need for energy efficiency .

Energy regulator

The establishment of the National Electric Power Regulatory Authority (NEPRA, www.nepra.org.pk) took effect under the NEPRA Act 1997, the main role of which was to ensure transparent and judicious economic regulation in the power sector .

Oil and Gas Sector: the Oil & Gas Regulatory Authority (OGRA) regulates the Oil and Gas sector in Pakistan (www.ogra.org.pk)

Degree of independence

Initially, the NEPRA was established as an autonomous body without any administrative control from the government. However, for the sake of interaction with Federal and Provincial Governments, it was initially attached to the Ministry of Water and Power. Later it was linked to the Ministry of Law and Justice. However, in June 2000, the NEPRA was directly attached with the Cabinet Division. The Authority consists of a Chairman and four members (one from each province), all appointed by the government. Funding for the Authority is derived from grants from the federal government, and fees and levies accrued through services provided to the sector .

Regulatory framework

The AEDB has developed policies and established criteria for the determination of tariffs for power purchase generated from wind energy, in consultation with the NEPRA. Licensing procedures for RE projects have been simplified to lower the cost of the regulatory process for the developers. The AEDB has prepared a standard implementation agreement, and a standard power purchase agreement for wind energy projects, and a schedule for power purchase agreements. The Ministry of Water and Power, working with the help of the Board, issued the “Guidelines for Determination of Tariff for Wind Power Generation” in early 2006. Finally in December 2006, the government approved the long-awaited “Policy for Development of Renewable Energy for Power Generation” .

Regulatory roles

The most important regulatory functions of the NEPRA are grouped in the following five main categories :
  1. The determination of tariff rates and terms and conditions,
  2. Granting licenses, and the approval of power acquisition programmes,
  3. The setting and enforcement of quality-of-service standards, and approval of operating codes  and investment standards,
  4. Industry structure/privatisation, including the transition towards a competitive market where feasible,
  5. The protection of consumer rights and obligations, including a complaint redresser.

The NEPRA’s broad policy guidelines for power sector reform revolve around :
  1. Tariff structure, to ensure sufficient resources to cover costs and investment in the short term,
  2. Encouraging generation, transmission and distribution capacities on a non-discriminatory basis, to meet  existing needs and growing demand in the long term,
  3. Quality of service to consumers, as well as ensuring network efficiency, including reliability and reducing voltage disturbances. 

OGRA’s regulatory roles are licensing, tariff setting, promote of competition, market surveillance in the oil and gas sectors.

Energy regulation role

Currently, the NEPRA is working in a centralised manner. All decisions regarding tariffs and standards need to be approved by the government, prior to their implementation. Hence, the government is heavily involved in energy sector regulation in the country.

The Ministry of Water and Power, besides all policy matters relating to development of these two resources, also performs specific functions, such as carrying out strategic and financial planning for the public and private sector.

Regulatory barriers

The total installed capacity of all different renewable technologies in Pakistan is 41.5 MW as of July 2010, including 247 kilowatts (kW) of solar photo-voltaic installations, 210 kW of micro wind turbines, 80 kW of mini hydro, 6 MW Zorlu Wind farm (total project of 50 MW) and 35 MW biomass power. The main reasons for current low capacity levels are :
  • a lack of focus on a selection of key renewable resources;
  • standard power purchase agreements that are not bankable;
  • the current requirements to file a tariff petition and undergo standard tariff procedures that are not suitable for small-scale renewable energy projects; and
  • the cost-plus mechanism that does not guarantee the developer a revenue scheme.