India Hydro Costs Blow Out

Cost Estimates for 1,200-MW Indian Hydroelectric Project now more than US$1.74 B

India’s Union Cabinet has approved cost revisions for India’s intergovernmental agreement with the Royal Government of Bhutan to implement the 1,200-MW Punatsangchhu-1 hydroelectric project on Bhutan’s Punatsangchhu River.

In 2006, estimates for the project amounted to US$554 million, but information released by the Union Cabinet on July 22 now project cost for the project at US$1.74 billion.

Bhutan, which has a population of less than one million, is sandwiched between eastern India and the Tibetan Plateau. Bhutan’s mountain peaks are neighbors to Mount Everest and the Bhutan Himalayas are permanently snow-capped and have glaciers that extend down long valleys.

According to the Asian Investment Bank, about 75% of all electricity generated in Bhutan is exported to India and the revenue from the exports constitutes 25% of its gross domestic product. Another 25% contribution to the GDP comes in the form of hydropower infrastructure construction.

The Punatsangchhu-I hydroelectric project is located in the Southern Himalayas, about 80 km east of Bhutan’s capital Thimphu. The project’s new concrete dam is 130 m in height by 239 m in length and reaches across the Punatsangchhu River. The facility includes an underground powerhouse that will generate power via six 200 MW turbines when complete in 2019.

India is funding the project with a 40% grant and 60% loan.

According to local reports, cost increases resulted from a number of issues including serious geological problems faced by the project. In July 2013, the right bank of the dam site slid by more than 5 m.

Additional facility details include:

  • Two diversion tunnels at 11 m in diameter by 2724 m in length;
  • Four de-silting chambers, each 330 m long by 18 m wide by 24 m deep;
  • A headrace tunnel at 10 m in diameter by 8.9 km in length;
  • A surge shaft, 24.5 m in diameter by 128.5 m in height;
  • Two pressure shafts at 6 m in diameter by 433 m long, and six penstocks at 3.32 m in diameter;
  • A tailrace tunnel is 10 m in diameter by 1.3km long;
  • An underground transformer cavern that will accommodate 20 single-phase generator transformers each at 13.8 kV/400 kV and 82 MVA capacity; and
  • Two double circuit 400 kV transmission lines, 186 km in length

Source: Renewable Energy World, July 2015

July 27, 2015Permalink