It is often claimed that scientist and researchers are
the citizens of the world; they have no boundaries. But as a researcher of
third world countries like Nepal the real challenge is when making the research
works recognizable to the world. Almost all of us researchers have dream to
discover new ideas which induce high impact to society and also want the ideas
be implemented in real world. To represent one’s nation in the international
arena, to hold its flag high amidst other nations, is a matter of great pride.
And the Research and Practice on Gravitational water vortex power plant was the
perfect opportunity for me and my fellow researchers at Institute of
Engineering, Central Campus Pulchowk.
After rigorous research of 3 years,
we the researchers of Institute of Engineering, Pulchowk Campus have been
successful in optimizing a design of new and innovative technology addressing
the current energy crisis in Nepal. The Gravitational Water
Vortex power plant (GWVPP) is a new type of technology in which the energy of
flowing water is extracted by a turbine placed at the center of a vortex that
develops in a rotation tank (basin). Since such vortex can be formed at heads
as low as 0.7 m, the gravitational water vortex power plant do not need a large
head like other hydroelectric power plant. The construction cost is relatively
small. This makes them suitable on river across the Nepal, at thousands of
locations. GWVPP designed to be installed in remote areas of terai region that
would never see grid expansion and is designed to electrify a small community
of up to 200 homes per pant under Nepali consumptions patterns. As most of
cottage industries are located in such sector they can be benefited. This has
the possibility of removing the need for mega hydropower stations. The
installation of gravitational water vortex power plant can act as an exemplary
project that can have huge environmental benefit with no negative environmental
impact. Thus, for developing country like Nepal, this technology of power
production can be a boon to eradicate energy crisis.
Low
head turbine can be the most suitable option for rural electrification. GWVPP is
a new and emerging technique in context of low head hydro power. The research
on the gravitational water vortex power plant originates from Austria in the
year 2007.After introduction of GWVPP in Nepal as a master degree research
project of a student in the year 2012, it become eye-catching and interesting
topic for the researchers around Nepal. Two other batches of 2013 and 2014 of
mechanical engineering continued the research of GWVPP with the goal to
optimize the efficiency of power plant. Conventionally the Austrain are using
cylindrical basin structure to form a water vortex which is main source of
power in GWVPP. So our main interest to design the parameters of the vessel to
increase the strength of water vortex. With the rigorous research on the design
parameters for about 3 years we have developed a new mathematical model for the
design of the basin structure and got a conclusion that the conical basin
structure is efficient than cylindrical basin structure to create water vortex.
After finding a suitable basin structure to form water vortex, we move forward
to optimize the design of the turbine of power plant. With many experimental
testing and mathematical analysis we got a conclusion that the position of
turbine inside basin effect the efficiency to large extent and its position about
60%-70% height of basin from bottom position is optimum for maximum power
extraction. These two findings are breakthrough in research and development of
GWVPP. We have published research articles in many National and international
conference including world hydro conference at USA and Renewable Energy
Conference at Korea, with many awards like innovative awards, best practice
awards, special awards and best one is the publication in the world’s top
journal in Renewable Energy Field i.e. Renewable and Sustainable Energy Reviews.
As
we all know, there are large impedances to explore your capabilities here in
Nepal and the challenge amplifies as it is a very small technological field.
Everyone has dream to serve their country but very few people are not obliged
to leave for abroad. My fellow colleagues who are involved in research project
have engagements which does not allow them to stay in Nepal but I am striving
here to commercialize the research findings. But some generous people form
inside and outside country helped me concerning commercialization of this
project which was noteworthy and made it conducive enough to test the patent
pending design successfully in Bagmati River at Gokarna, Kathmandu this week
which is of 1.6kW capacity. We are planning to supply the electricity to an
orphanage house and Martry’s Park near the site of installation.We have also taken the initiative to
commercialize this project in various regions of Nepal by doing feasibility
study at many locations with goal to lessen the imbalance between energy supply
and energy demand prevailing in the country by the effective utilization of
this technology and bringing about economic benefit for all. We have taken a goal that by the fifth year of the
project, minimum of 50 GWVPP of capacity ranging from 5kw to 20 kW will be
installed with continuation of the research in collaboration with Institute of
Engineering (TU), Turbine Testing Lab of Kathmandu University School of
Engineering, and University of Bristol, United Kingdom.
In a conclusion, our vision of empowering
the society by exploiting our own immense water and natural resource through
promising technology is appreciated by all. The experiences we collected during
the research and development of gravitational water vortex power plant made us
realize one important fact that we can lead in research and development in
globe if only we focus on the research based on technology that we have within
Nepal.
