West Seti Project – Opportunities and Challenges

The Investment Board Nepal (IBN) approved China’s CWE Investment Corporation, a subsidiary of Three Gorges Company on April 2015. The CWE Corp will form a joint venture with Nepal Electricity Authority (NEA) for the development of West Seti Project. The hydro-project is storage-based with a capacity of 750 MW and costs $1.6 billion. This will be the biggest foreign investment project in Nepal’s history.

The West Seti project was envisioned more than couple of decades ago with the first feasibility study conducted in 1987. There were multiple companies showing interest in the project since then. During the early years, Snowy Mountain Engineering Corporation (SMEC) signed an agreement with the government of Nepal, however the license was revoked at the later date. Government then formed another company, West Seti Hydro Limited, and conducted environmental impact assessment and resettlement action plan in 1997 and later revised in 2007.

The annual electricity production from the West Seti project will be 636 gigawatt-hours (GWh). The project will have 195 m high concrete dam, 6.7 km headrace tunnel, 620m tailrace tunnel covering 2,060 hectare by reservoir. The project will also construct 20.3 km permanent access roads and 132.5 km 400 kilovolt (kV) double-circuit transmission.

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The new developments in Nepal’s hydro sector and Three Gorges Chairman’s recent visit to Nepal provided the Seti project with renewed impetus. The project is going to generate much-needed dry season energy. As it is storage based, it can hold water during the rainy season and utilize it when most of the hydro-projects are generating at 1/3rd of their capacity during the dry season.

The West Seti project will be a great boost for Nepal. The project will be able to provide peak energy at a reasonable cost. The total cost of 750 MW West Seti project is $1.6 Billion – an average cost of $2133/kW. The average capital cost of run-of-river project in Nepal is around $2000/kW. This means that we are getting electricity from storage-based plant and the flexibility of water generation as needed at the same rate as the run-off-river project cost!

Moreover, the storage project can also be used flood control and dry season augmented flow. With the help of dam constructed for the hydro-project, the flow of water in the downstream river can be regulated.

However, there are many challenges associated with this project. First, the project is storage based which requires a large reservoir area and resettlement. Moreover, there will be loss in agriculture land. As the project will hold (store) water for the energy production, especially when the project is not operating, downstream water sharing can be challenging considering that this water is utilized for agriculture and other purposes.

The West Seti project report mentions that the project requires total land of 2,326 hectare (ha) containing 28% of cultivated land and 35% of forests. Another 678 ha will be needed to build transmission lines. The report submitted to ADB mentions that the project will impact 2,421 households directly with an estimated of 1,579 requiring resettlement. The resulting environmental, social, and anthropological impacts of the West Seti project will be huge, thus requires a careful assessment.

Moreover, next set of challenges stem from uncertainty associated with timely execution of transmission infrastructures and market availability for surplus electricity. The CWE Investment Corporation has already asked Nepal government to provide market guarantee for the electricity generated from West Seti Project. Without finding electricity market besides Nepal, it will be challenge for Nepal to utilize all electricity produced (assuming that Nepal’s power demand increases as the rate forecasted by Nepal Electricity Authority). There is a need to create viable alternate electricity market. Evacuating power to India and Bangladesh are possible options. However, we would need India’s cooperation to sell power to Bangladesh as transmission lines go through Indian territory.

The other challenge is associated with building necessary transmission infrastructures. It is not clear who responsibility it is for constructing high-powered transmission lines to evacuate power from West Seti project. The government recently asked Chinese Government for financial assistance, either in form of aid or soft loans, of $400 million to invest in hydro project and transmission lines. The project requires 400 km-long transmission lines to connect the West Seti project to the national grid.

Overall, the West Seti project is excellent from economic point of view. The project will increase Nepal’s national grid capacity substantially. It will also provide much needed dry season energy and help Nepal achieve a reliable and adequate electricity system. However, the project also has many serious challenges mainly environmental, social, and as well as building transmission infrastructures and creating a market for the surplus electricity.

 

Proposed Power Agreement between Nepal and India

There are a lot of ongoing discussions on the proposed power agreement between Governments of Nepal and India. With Nepal’s untapped hydropower resources, India’s power need, and recent changes in Indian politics, the discussions for power treaty is again back on the table. I was lucky enough to get a copy of the draft of the agreement. In this post, I discuss the important points of the agreement and few areas that need clarification.

Both countries realize the importance of meeting electricity demand for socio-economic development and the progress of people. The agreement aims to facilitate cooperation in the fields of power generation, power transfer, grid connectivity, energy efficiency, renewable energy, and power related consulting and research services. More importantly, both countries are emphasizing the importance of developing additional hydropower potential by cooperating in the construction and operation of hydropower.
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Economic Analysis of Nepal’s Transmission Power Loss

For sometime, I have been writing about the transmission power losses and its significance in Nepal’s electricity sector. Read about the annual power loss here. The causes of transmission losses and comparison with other countries of the world can be found here. In this blog, I will try quantifying the losses in terms of monetary values. What would the savings be if the loss was just 15 percent? How much has Nepal Electricity Authority (NEA) spent in expanding transmission and distribution network in the last decade?
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Nepal’s Transmission Power Loss: Causes and Comparision with the Rest of the World

Nepal’s energy situation is marred with massive power shortages. Besides low production of electricity, the other cause for the shortage of electricity is the amount of power lost during the transmission and distribution process. The average annual transmission loss in Nepal’s electricity market is about 28 percent of total electricity generation (Nepal Electricity Authority, 2011), whereas the average power loss among 134 countries that are in World Bank’s database is 13.67%.

Reducing transmission loss is very important because the saved power can be sold to consumers and thus can generate extra revenue. It is even crucial in Nepal’s case, since we have not been able to produce enough electricity to meet the demand. Thus, decreasing transmission losses not only generates additional revenue, it can also be an alternative for saving capital cost from building new infrastructures.

Causes

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