Pakistan is beginning to reap the benefits of Chinese investment in renewable energy infrastructure, with the opening of the first wind power project constructed as part of the huge China-Pakistan Economic Corridor aimed at overhauling the country’s transport and energy systems.
The nearly 50 megawatt wind farm is located on over 275 hectares of land in Jhimpir, near the shores of the picturesque Keenjhar Lake, around two hours’ drive from the city of Karachi.
Jhimpir is part of the so-called “Gharo-Jhimpir wind corridor” in Sindh province, a 180-kilometer stretch of coastal land that the Pakistan Meteorological Department says has the potential to produce 11,000 megawatts of electricity through wind power.
The corridor is home to Pakistan’s earliest wind project, which began in 2009 with just a few turbines and was upgraded to an installed capacity of 56 megawatts by 2012.
The new wind farm, which opened last month, has been developed by Sachal Energy Development, with financing from the Industrial and Commercial Bank of China.
Pakistan and China have signed around $57 billion of energy and infrastructure projects under the China-Pakistan Economic Corridor. Most of this investment is going towards coal-fired power plants, fueled both by imported coal and by coal mines in Pakistan’s Thar Desert.
The CPEC projects aim to boost energy production in Pakistan to reduce shortages that lead to regular power outages.
The country can produce as much as 23,000 megawatts of power, but experts say that there is a shortfall of as much as 5,000 megawatts during periods of peak demand – and demand is increasing by the day given the rapidly growing population.
CPEC energy projects are expected to add around 17,000 megawatts to the national grid in the next few years through what are being called “early harvest” projects to overcome the energy crisis.
Most of these are coal-powered plants, such as the 1,320 megawatts Sahiwal plant in Punjab, which was inaugurated this month.
But CPEC also includes some renewable energy projects. The Quaid-e-Azam solar park in Bahawalpur, in southern Punjab, is due to generate 1,000 megawatts, while a further 250 megawatts will come from the wind corridor in Sindh.
Zeeshan Ashfaq, a research analyst who works for the World Wind Energy Association, told the Thomson Reuters Foundation in an interview that Pakistan’s grid currently has more wind power capacity than solar power capacity.
“Today we only have 400 megawatts of grid-connected solar energy from Quaid-e-Azam solar park, whereas we have 640 megawatts of grid-connected wind energy already in Jhimpir,” including previously installed wind projects, Ashfaq said.
Room for Renewables
The Gharo-Jhimpir wind corridor, mapped in 2013 by the US National Renewable Energy Laboratory, contains vast stretches of saline land, unsuitable for agriculture and dotted only with a few bushes.
“Thirteen projects are already operational here and others are in the pipeline. By the end of this year, an additional 200 megawatts of energy will be added to the grid,” Ashfaq said.
In June, the International Finance Corporation, a member of the World Bank, announced that it will provide $66 million, and mobilize a further $172 million, to help build three 50 megawatts wind power projects in the Gharo-Jhimpir wind corridor.
Triconboston Consulting, part of a Pakistani textile group that entered the renewable energy market in 2015, will operate the plants, which the IFC says will collectively form Pakistan’s largest wind farm.
The World Bank has now started mapping Pakistan’s entire wind potential, looking at wind corridors in Punjab as well.
“With global pricing coming down, the market for renewables is kicking off. There is a lot of interest from investors,” Shabana Khawar explained, the IFC’s principal country officer in Pakistan.
Khawar said the IFC is the largest private-sector investor in power in Pakistan and is focusing on hydro, wind and solar projects. She estimates that there are more than 2,000 megawatts of mid- to large-scale wind and hydro projects in the pipeline.
The wind projects include feed-in tariffs, which make them attractive to investors by guaranteeing payments for the electricity produced. In March, the National Electric Power Regulatory Authority set the benchmark tariff at 6.7 US cents per unit of power produced.
Amjad Awan, chief executive officer of the government’s Alternative Energy Development Board, said that because wind power production depends on the strength of the wind at any time, it is important to create an energy mix, such as of wind and solar power or wind and natural gas.
“We are entertaining hybrid arrangements and will be able to manage intermittence soon,” Awan said. “In Pakistan we have more than sufficient solar and wind potential to transform into energy. And with a 20 percent decrease in prices since 2014 the notion that wind energy is costly is a myth.”
Ashfaq, of the World Wind Energy Association, said that “in some countries solar and wind energy is now cheaper than fossil fuels. We too can leapfrog and move towards decarbonizing our energy sector,” he said.
“It took seven years for Pakistan to commission its first big wind project in 2012 after introducing its renewable energy policy back in 2006. Now the market is gaining momentum,” he said.
Too Much Coal?
However, Ashfaq is concerned that the government’s focus remains largely on expansion of fossil fuel power, which is helping drive climate change and worsening extreme weather in Pakistan, including more droughts and floods.
“The government’s focus has shifted to coal power and liquefied natural gas based generation. The world is moving towards renewables but [Pakistan is] finding solutions in dirty fossil fuel generation,” he said.
Although Pakistan used to rely on oil-powered generation, Jamil Masud, an energy consultant who works for Hagler Bailly Pakistan, a consultancy group, said that coal is cheap at the moment, and new plants can be put up quickly with a predictable output.
Pakistan’s first power plant fueled by domestic coal will become operational by June 2019, and once its second phase is completed in mid-2020 it will generate 1,300 megawatts. It has been fast-tracked due to financing available under the CPEC.