1. Cooperation between Kathmandu University and NTNU
3. Theoretical Power Potential�Source: Nepal Electricity Authority
4. Hydropower Potential in Nepal� Source: Nepal Electricity Authority
Theoretically Possible = 83.290 MW
Technically Feasible = 44.600 MW
Economically Feasible = 42.133 MW
Installed power capacity: ca. 533 MW
Annual energy production: ca. 1,5 TWh
5. Nepal’s Hydropower� Installed power capacity in Nepal: ca. 533 MW
Installed power capacity in Norway: ca. 28000 MW
Annual energy production in Nepal: ca. 1,5 TWh
Annual energy production in Norway: ca. 118 TWh
Hydropower potential in Nepal: ca. 42000 MW
Hydropower potential in Norway: ca. 33000 MW
Energy consumption per capita in Nepal: ca. 150 kWh
Energy consumption per capita in Norway: ca. 5000 kWh
6. Large Hydro Power Stations
8. Planned Hydro Power Stations
9. Hydro Power Stations�Planned and under construction, P > 10 MW
10. Sand erosion in hydro power plants
11. Quartz content in Nepali rivers
12. Andhi Khola Power Plant Very low efficiency of the power plant
Little maintenance
Wrong maintenance
13. Jhimruk Power Plant Heavy sand erosion every year
6900 tons of sediment load through one turbine during the monsoon 2003
Not operated efficiently
15. Kali Gandaki Power Plant Large problems due to sand erosion of the turbines
NEA not fully understand the problem
16. Loss of energy generation
17. Cooperation between Kathmandu University and NTNU,�Mechanical Engineering
18. Cooperation between Kathmandu University and NTNU in mechanical engineering NTNU-staff teach at KU
NTNU-staff helps to develop master courses
Education of KU-staff
PhD-students
Bhola Thapa 2001-2004
Hari Neophane 2007-2010
Master-students
Hari Neophane 2002
Raju Shrestha 2004
Biraj Singh Thapa 2005
19. Future plans for cooperation NTNU and KU apply to NORAD for the development of a turbine laboratory at KU.
In order to do research in Nepal on hydro turbines, a turbine laboratory should be established
20. The purpose of the Turbine Laboratory Build competence and knowledge within the waterpower sector in Nepal
Teaching/learning facility for KU
Industrial courses
Staff training for the industry
Build a test laboratory for mini- and micro-turbines
Certification of mini- and micro-turbines sold on the Nepali market
Product development (pumps and turbines)
Private testing from local manufacturer
Motivation for research
Sand erosion research in turbines
Turbine and pump technology
Maintenance of turbines
Meeting place for the industry and university
Student projects for the industry
Research projects will be initiated
21. Research Sand erosion on turbine materials
Sand erosion in turbines
Turbine development
Maintenance of turbines
Efficiency measurements on turbines
22. Student laboratory The following laboratory work can be included in the theoretical courses:
Pressure measurements
Velocity measurements
Flow rate measurements
Measurement of the friction loss in pipes
Pump and turbine efficiency measurements
Various student test rigs
23. Sustainability Bhola Thapa is the dean of School of Engineering. He has learned much from Norway about how a turbine laboratory can work in the future
Three staff-members from mechanical engineering have been to NTNU and learned how to operate a turbine laboratory. SINTEF Energy Research has given these students scholarship.
Student work will go on every semester
Research cooperation can be established with companies such as:
Nepal Hydro & Electric Pvt. Ltd. (NHE)
Butwal Power Company Ltd. (BPC)
Himal Power Limited (HPL)
Nepal Electricity Authority (NEA)
Hydro Lab Pvt. Ltd.
NTNU and SINTEF
24. Costs for the Turbine Lab.
25. Costs for the Turbine Lab.
26. Fremtidig samarbeid NTNU-personell foreleser ved Kathmandu University
Utdanning av Kathmandu University’s lćrer-stab ved NTNU
Utveksling av studenter
Felles forskning
