CEESDev 2014
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National Conference on Energy Economics and Sustainable Development (CEESDev 2014) For sustained growth and prosperous tomorrow – what do research and practice inform to shape the future? OCTOBER 22, 2014 Asian Institute of technology and Management National Conference on Energy Economics and Sustainable Development (CEESDev) 22 October, 2014 Asian Institute of Technology and Management (AITM), Khumaltar, Nepal CONFERENCE PROGRAM 08:30 – 09:00 Arrival and Registration INAUGURAL & KEYNOTE MC: Miss Sajal Pradhan Chairperson: Prof. Dr. Sriram Bhagut Mathe 09:00 – 09:20 Welcome address: Dr. Vishnu Prasad Pandey Remarks: Mr. Ram Prasad Dhital (AEPC) Remarks: Pashupati Murarca (FNCCI) 09:20 – 09:50 Keynote: Prof. Dr. Govinda Nepal (Member (NPC/GoN) Invited Presentation: Dr. Rabindra Nepal (University Of Queensland, Australia, 09:50 – 10:10 GHEaSES International) 10:10 – 10:20 Remarks from Chairperson 10:20 – 10:40 Refreshment TECHNICAL SESSION (Chair: Prof. Dr. Tri Ratna Bajracharya) Platform Presentations Current energy consumption trends and future energy/GHG scenarios of Nepal; 10:40 – 11:00 by Prof. Amrit Man Nakarmi (IOE/TU) 11:00 – 11:20 Energy market and economics of Nepal; by Madhusudhan Adhikari (AEPC) Cointegration and casuality between electricity consumption and GDP: 11:20 – 11:40 empirical evidence from Nepal; by Shishir Shakya (IFS) Impact of small decentralized PV grid-connected plants on load shedding in 11:40 – 12:00 Nepal; by Prof. Jagan Nath Shrestha (IOE/TU) Effectiveness of subsidy policy in addressing barriers to renewable energy 12:00 – 12:20 technology deployment in Nepal; by Anantaa Pandey (AIT, AITM) Collaborative and open access research for energy sector in Nepal; by Kshitiz 12:20 – 12:40 Khanal, Sadam Bala (GHEaSES) Introduction of Posters 12:40 – 12:55 Introduction of posters from four presenters Poster Titles Landslide hazard zonation on Sunkoshi-2 high dam project area using quantitative methods in GIS; by Sakunda Ojha (Sanima Hydro and Engineering P. Ltd.) Design and fabrication of fuel efficient gasifier stove; by RP Gupta (IOE/TU, GHEaSES) Optimization and economic feasibility study of conical basin structure of Gravitational Water Vortex Power Plant; by R. Dhakal (IOE/TU, GHEaSES) Policy modeling for low emission urban development; by Sadhana Bhusal (IOE/TU) 12:55 – 13:55 Lunch PANEL DISCUSSION – I (Moderator: Dr. Sandip Shah) Title: PDA & PTA – Expectations and Realities Panelists: Prof. Dr. Hari Pandit (IOE/TU); Surya Nath Upadhaya (JVS);Shital Babu 13:55 – 15:25 Regmee (former Secretary/GoN); Gyanendra Lal Pradhan (FNCCI); Khadga Bista (IPPAN) Rapporteurs: Bikash Thapa, Bhim Gautam; Rabin Rachal 15:25 – 15:40 Refreshment PANEL DISCUSSION – II (Moderator: Ram Prasad Dhital) Title: Implementation of energy-mix in Nepal: opportunities and challenges Panelists: Prof. Jagan Nath Shrestha (Founding Director,CES/IOE); Prof. Amrit 15:40 – 17:10 Man Nakarmi (IOE/TU); Sher Singh Bhat (NEA); Dr. Narayan Chaulagain (GIZ/NEEP); Nabin Bhujel (SEMAN) Rapporteurs: Raju Shrestha, Krishna Adhikiari 17:10 – 17:20 Closing Remarks National Conference on Energy Economics and Sustainable Development, October 22, 2014 INVITED PAPER ABSTRACT Review of Progress on Power Sector Reforms and Electricity Cooperation in South Asia Dr. Rabindra Nepal1 1 University of Queensland, Australia, GHEaSES International Pvt. Ltd. Corresponding email: r.nepal@uq.edu.au Abstract South Asia can largely benefit from regional electricity cooperation considering the regional complementaries in electricity demand, resources and development needs. However, the electricity cooperation process has been slow and frustrated which mimics the progress of electricity reforms in the region. We study the existing status and performance of reforms in relation to the current degree of electricity cooperation among these economies. Stalled and unstable electricity reforms have halted the progress towards greater electricity cooperation in South Asia. Significant economic barriers to electricity cooperation pertaining to incompleteness of reforms and other political factors outside of reforms exist. In the short and medium term, bilateral electricity cooperation also involving third transit country can actively occur independent of the reform progress given the immediate electricity needs and deficits of the region. In the longer term, increased electricity cooperation may catalyze and harmonize electricity reforms in the region. Advanced electricity cooperation arrangements can then be envisaged. National Conference on Energy Economics and Sustainable Development, October 22, 2014 ABSTRACTS OF PAPER PRESENTATION Current energy consumption trends and future energy/GHG scenarios of Nepal Prof. Amrit Man Nakarmi1 1 Center for Energy Studies, Institute of Engineering, Tribhuwan University Corresponding Email: nakarmiamrit@gmail.com Abstract Lack of access to modern and clean energy services is considered as one aspect of the energy poverty.The two major challenges of energy poverty are lack of access to electricity and reliance on biomass sources of energy for cooking.Nepal has the highest energy poverty in the South Asia with just 120 kWh of electricity and 15GJ of primary energy consumptions per capita in a year in 2012. Besides, Nepal is facing energysupply crises frequently in the recent time.The traditional energy source such as fuel-wood has become scarce everyday with the growing population and people’s migration from hilly region to southern plains. The forests are eventually becoming denuded.Overall, the demand for energy is growing at a rapid pace but the supply side is facing a lot of bottlenecks. There is a lack of proper planning and comprehensive policies related to energy sector. Individual and disaggregated approaches in dealing with sub-sectoral problems from the concerned government agencies are lacking coherence and making the energy crisis more acute. Imports of petroleum products in 2014 are expected to reach 150% of total exports from the country. Nepal, being in the high vulnerable group of countries, because of its poor economic performance compared to other South Asian countries and its total dependence on imports of oil products, has to seriously take certain policy/strategy steps for its energy security and sustainability. Against this backdrop, it has become very essential to have an integrated energy model in the present context for proper planning and policy analysis so that the policymakers can be timely updated and given various policy options to take necessary energy related policies and decisions. An end-use approach modelling framework on the basis of Model for Analysis of Energy Demand (MAED) was developed for a period from 2010 to 2030. Consequently, Nepal – MARKAL (MARketALloation) energy modelling framework was developed and inputs of the useful energy demands from the end-use approach (MAED) were exogenously incorporated in. Nepal consumes 410,000 TJ of final energy in 2010 with 85% of traditional biomass, 12% of fossil fuels, 2% of electricity and 1% of modern renewable energy. The final energy consumption scenarios were calculated at the three different cases of GDP growth rate 4.4%, 5.6% and 6.3% respectively. With the policy of promoting renewable energy and energy efficiency the final energy scenario at the reference case of GDP growth rate indicates 23% of energy supplied by indigenous renewable energy resources. By 2030, Nepal has a carbon abatement potential of 42% and 43% at the GDP growth rates of 6% and 9.2% respectively provided that the country focuses on implementation of the aforesaid technology and policy interventions. National Conference on Energy Economics and Sustainable Development, October 22, 2014 With the implementation of the above strategic options, Nepal can achieve carbon abatement of 42% to 43% from the BAU case in 2030, if Nepal takes concrete policy pathways for accessing modern energy to the people, improving energy efficiency measures in all sectors, and developing indigenous hydropower and renewable energy resources for low carbon energy supply.This abatement is also in the range of the expected carbon abatement in the neighboring South Asian countries. The analysis of the scenarios developed indicates that Nepal's energy consumption is becoming highly dependent on totally imported fossil fuels which put Nepal's economy at jeopardy in the long run. The analysis from the MARKAL modeling framework highlights that Nepal needs to develop its indigenous renewable energy resources to meet the growing energy demands for sustainable energy development and energy security. National Conference on Energy Economics and Sustainable Development, October 22, 2014 Cointegration and causality between electricity consumption and GDP: empirical evidence from Nepal Shishir Shakya1 1 Institute for Frontier Studies Corresponding Email: shishirshakya@ifsnepal.org Abstract This paper unfolds the short run and the long run causality between per capita electric power consumption (LPEC) and per capita gross domestic product (LGDP) for Nepal during the 1971–2010. The conventional ADF unit root test indicates the series are I(1) and Johansen cointegration test confirms the presence of cointegration among the variables. A vector error correction model (VECM) is then employed. It is found that LGDP granger causes LPEC in the long run and weakly granger causes in the short run. While reverse causality is found not to be true. Furthermore, impulse responses are included which estimate how each variable behave upon the policy shock and variance decompositions segregate the portion of each variable on total variation. Finally, with a tight 67% confidence interval, in sample forecast and out of sample forecast was made from 2011 till 2020. The results indicate that total electricity consumption has no causal role as a component of economic growth in Nepal. Thus, the electricity consumption policy should be designed and implemented as a cohesion to growth but not as cohesive to growth. Keywords: Error correction models, Granger-Causality, Johansen cointegration National Conference on Energy Economics and Sustainable Development, October 22, 2014 Effectiveness of Subsidy Policy in Addressing Barriers to Renewable Energy Technology Deployment in Nepal Anantaa Pandey1,2,* Shobhakar Dhakal1 and Vishnu Prasad Pandey2 1 Asian Institute of Technology, Thailand 2 Asian Institute of Technology and Management, Nepal (*Corresponding Author: anantaapande@gmail.com) Abstract In Nepal, direct subsidy for the installation of Renewable Energy Technology (RET) is essentially being provided by the Alternative Energy Promotion Centre (AEPC) to increase energy access in remote areas of Nepal where grid connection has not reached and firewood is extensively being used for cooking purposes. This study was carried out to assess the effectiveness of these subsidies in promoting installation of Biogas, Micro-hydro and Solar plants in the rural areas. A qualitative questionnaire and an AHP interview of expert stakeholders revealed that the subsidies have been effective with respect to the increase in the number of the RET installed but has not been successful in addressing barriers such as providing energy access to the poor, decreasing technical barriers and establishing financial services in remote areas. Among the experts surveyed, the NGO/INGO and Private Companies are less satisfied with the subsidy policy and feel i) the need to include credit financing and insurance to the subsidy scheme, ii) stress on improving access to services and iii) establish a decentralized system for effective distribution of RET. AEPC also recognizes these needs but is yet to begin implementing activities in that regard. There is an increasing need for the government and the private sectors to move towards providing indirect subsidies to be able to establish and stimulate a market, reach the poor and sustain the growth in the installation of RET. Keywords:AHP, Decision Making, Expert Stakeholder, Renewable Energy Technology, Subsidy National Conference on Energy Economics and Sustainable Development, October 22, 2014 Impact of Small Decentralized PV Grid-Connected Plants ON Load Shedding in Nepal Domenico Chianese1*, Davide Rivola1, Jagan Nath Shrestha2, Alex Zahnd3 1 University of Applied Sciences and Arts of Southern Switzerland (SUPSI), 6952 Canobbio, Switzerland, domenico.chianese@supsi.ch 2 Nepal Solar Energy Society, Kathmandu, Nepal, shresthajn@gmail.com 3 RIDS-Nepal, Kathmandu, Nepal, azahnd@rids-nepal.org Abstract The current unreliability of the electrical network in Nepal, and the growing needs of users, together with the high level of losses in the electricity distribution grid can be partially resolved by means of a decentralized and partly autonomous electricity supply. The Nepali grid is characterized by weak stability, frequent accidental powercuts and regular planned load shedding schemes (up to 20 hrs. a day in the dry season), causing particular suffering to SMEs (Small and Medium Enterprises). A feasibility study [1] has demonstrated the cost advantages of a small solar PV grid connected system in combination with a battery back-up, compared to traditional petrol gensets or battery chargers from the grid with stand-alone inverters. The pilot project foresaw the design, construction and monitoring of 5 grid-connected 1.11 kWp PV plants at three different strategic locations, P1, P2 and P3, in the urban and semi-urban environment of the Kathmandu valley. While four of the PV systems are standard grid connected systems, of which three are installed in “No-Load Shedding Zone” P2 and one in “Load Shedding Zone” P1, the fifth system P3, is installed in a “Load-Shedding Zone”, but is designed with a battery bank backup system, and can therefore function as a micro-grid. The setup parameter limit of the grid-connected inverter was adjusted in accordance with the effective situation of the distribution grid (voltage and frequency limits, duration of power cut, etc.). Performance monitoring of the plants started in late 2012. The first 9 months of analysis shows energy generation losses of about 47.6% (475kWh) at P1, due to the load shedding schedule at the time. The performance of the three PV plants at P2, where no load shedding occurs, was as expected, with all generated energy fed into the grid. The 1.11 kWp PV grid-connected plant with a battery backup at P3 in effect performs as a stand-alone system providing enough energy for one household and an NGO office. Keywords: Small Grid-connected PV System, System Performance, Grid Stability, Grid Integration, Developing Countries. National Conference on Energy Economics and Sustainable Development, October 22, 2014 Energy Market and Economics of Nepal Madhusudhan Adhikari1 1 Alternative Energy Promotion center madhusudhan.adhikari@aepc.gov.np Abstract Energy fuels economic growth and help to poverty reduction. Reliable and efficient energy services underpin the expansion of economic and employment opportunities, the continuing progress in social development, and the sustained improvement in standards of living. Nepal is suffering from significant energy poverty and pervasive energy deficits. The per capita energy consumption in Nepal is merely 14.8 GJ which is one of the lowest values in South Asian region. Nepal's consumption is merely one fifth of the world's average and less than half of the Asian's average. In the context of electricity consumption, Nepal’s case is the worst with just 105 kWh per capita (IEA, 2014). One of the main reasons for this is the fact that about 33 % of households still do not have access to electricity and those who are connected to national grid has in average more than 8 hours load shedding per day (CBS 2011). There is a stark disparity in terms of access, 90% of urban households have access whereas in rural just 30% (CBS, 2011). The energy supply is primarily dependent on traditional biomass 87%, commercial energy resources and renewable energy resources are 12% and 1% respectively. Lack of modern means of usage of traditional biomass results in environmental degradation and reduced production from agro and allied sectors. There has also been adverse impact on the health of rural population mainly women and children because of in-efficient use of traditional energy resources. Low access to modern energy system results in lower level of economic activities and lower employments. Keywords: Reliable and Efficient Energy, Energy Consumption, Access National Conference on Energy Economics and Sustainable Development, October 22, 2014 Collaborative and Open Access Research and Development for Energy Sector in Nepal Kshitiz Khanal1 *, Sadam Bala1 *, Shanker Dhakal1, Rabindra Nepal1 1 GHEaSES International Pvt. Ltd. (*Corresponding Author: kshitiz@gheases.com.np, sumitbala0@gmail.com) Abstract Despite continuously delivered dreams and delights referring to its huge hydro potential, Nepal is facing ravaging energy scarcity with an electrification rate of only 55%. Energy consumption by biomass contributes to nearly 80% of total consumption followed by 16% of petroleum and coal and just 4% by electricity. Biggest challenges we face in the energy sector are large scale problems like insufficient electricity production, gap between industry and academia to collaborate in pertinent energy crisis issues, and short comings in policy making to address these issues. It is apparent that the solutions to large scale problems should be scalable in nature. Solutions that increase energy production and access need innovative approach to Research and Development (R&D). We need to modify our approach to R&D based on our needs and available resources by focusing on market / end users of Nepal compared to research focused on developing academic and technical excellence till we have solved our energy scarcity. This paper tries to present a new model of R&D specifically for energy sector of Nepal by combining ideas of collaborative R&D and Open Access to researches and their results to help the energy sector of Nepal. Different models and methods of R&D (specifically collaborative R&D) were studied, and the ideas were amalgamated with Open Access to research and findings so as to make them more suitable for energy sector of Nepal. This research can be used to produce scalable solutions that can be implemented without further delay by the collaboration of energy producers, policy makers, academia, industry, end users, and other stake holders. Keywords: Collaborative R&D, Open Access Research publication, Nepal Energy Crisis National Conference on Energy Economics and Sustainable Development, October 22, 2014 ABSTRACTS OF POSTER PRESENTATION Optimization and Economic Feasibility Study of ConicalBasin Structure ofGravitational Water Vortex Power Plant R. Dhakal1,2 , A.B. Timilsina1 , S. Dhakal1 , D Fuyal1 , T.R Bajracharya1 , H. P. Pandit3 1 Department of Mechanical Engineering, Central Campus Pulchowk, Institute of Engineering, Tribhuvan University, Nepal 2 GHEasES International Pvt. Ltd., Kathmandu, Nepal 3 Department of Mechanical Engineering, Central Campus Pulchowk, Institute of Engineering, Tribhuvan University, Nepal Email Address of the corresponding author: rbndhakal@gmail.com Abstract The world is competing for energy and hydropower is a clean source of energy or electricity. The field of hydropower has often witnessed the discovery of new types of plants and components therein, by using simple principles of physics and mechanics. Gravitational water vortex power plant (GWVPP) has lately been eye-catching and interesting topic for researchers throughout the globe. This study encapsulates an analysis of various geometrical parameters of conical basin design of the vortex plant. For given flow and head, the following parameters were considered: (i) basin opening, (ii) basin diameter, (iii) notch length, iv) canal height, and v) cone angle. The parametric effects on vortex formation and energy are evaluated in terms of vortex velocity by using state of the art procedures of Computational Fluid Dynamics (CFD) . Different basin configurations were developed by using SolidWorks software and the models were simulated in the CFD code of ANSYS Fluent. Each parameter is varied individually and corresponding velocity (within a range of interest) is noted, which is followed by a development of mathematical model and is optimized using MATLAB and EXCEL. The so developed optimized model is fabricated and tested. Finally, an economic feasibility study of the optimized conical basin structure for the GWVPP is conducted and compared with the economic aspect of existing large hydropower projects of Nepal. Keywords: Gravitational Water Vortex Power Plant, Conical Basin, Geometrical Parameters Mathematical Model, Optimization, Feasibility Study National Conference on Energy Economics and Sustainable Development, October 22, 2014 Design and Fabrication of Fuel Efficient Gasifier Stove 2, 3 1 1, 3 1, 2 R.P. Gupta , S. Shrestha , L.B. Prasad , R. Dhakal 1 Department of Mechanical Engineering, Central Campus Pulchowk, Institute of Engineering, Tribhuvan University, Nepal 2 GHEasES International Pvt. Ltd., Kathmandu, Nepal 3 Department of Mechanical Engineering, Purwanchal Campus Dharan, Institute of Engineering, Tribhuvan University, Nepal Email Address of the corresponding author: rabiprakas@gmail.com Abstract The gasification technology is new for Nepal. In spite of the technology being promising, the extent of work that has been carried out in this field was limited to laboratory experiment at research center forapplied science and technology (RECAST) in early eighties. The Center for Energy Studies, Institute of Engineering (CES, IOE) and many other institutions at present have been working in the field ofgasifier stoves for both rural and commercial purpose. This paper is concerned with the development of a new class of single pan high efficiency, low emission stoves, named gasifier stoves that promise constant power that can be controlled using any solid biomass fuel in the form of small woodchips or pellets. These stoves use battery run fan based air supply for gasification (primary air)andfor combustion(secondary air). The study mainly deals with the design, fabrication and analysis of efficiency and emission of the stove. Its efficiency depends mainly on the following parameters i)geometric condition of the stove, ii) material used in the stove, iii) fuel or pellets used, iv) the proper ratio of air mixture and v)flow of air and so on. With these parameters taken into mind the gasifierstove model was designed by using SolidWorks software. Designing with the correct secondary air flow ensures combustion that allows high combustion temperatures with accompanying high water boiling efficiencies (up to 50 % for vessels of practical relevance) and very low emissions (ofcarbon monoxide, particulate matter and oxides of nitrogen). The use of high density agro-residuebased pellets or coconut shell pieces ensures operational duration of about an hour or more. Theselection of the suitable materials is carried out after studying different parameters. Finally themodel so developed after designing and material selection is fabricated. After the fabrication, thedifferent tests like smoke emission test and thermal efficiency test is carried out to analyze theemissionand thermal efficiency of the gasifier stove. Finally, an economic feasibility study of the gasifierstove is conducted and compared with the economic aspects of existing large hydropower projects ofNepal. Keywords: Gasifier Stove, Design and Fabrication, Emission and efficiency gasifier, Feasibility Study National Conference on Energy Economics and Sustainable Development, October 22, 2014 Landslide Hazard Zonation of Sunkoshi -2 High Dam Project area using Quantitative Methods in Geographical Information Science SakundaOjha1 ,Sobit Thapaliya2 1 2 Senior Environmentalist and GIS Expert, Sanima Hydro and Engineering Pvt. Ltd. Engineering Geologist, Sanima Hydro and Engineering Pvt. Ltd Abstract Landslides are one of the critical geological processes, which causes not only enormous damage to civil engineering structures such as hydropower plant, road, bridges, dams and houses but also lead to loss of life. The construction of hydropower projects involve disturbance to the natural slop making them vulnerable to landslides. Therefore, there is a need for landslide hazard zonation so that hazardous area could be stabilized before it escalates major disaster. The present study attempts to develop a landslide model by using multi-criteria decision analysis in GIS and remote sensing techniques. The proposed Sunkoshi -2 High Dam Project area was selected for the model implementation. Digital topographical data, regional geological maps, remote sensing image and field data were used as inputs to the study. The data layers represent the soil type, land use, geology (geological faults and existing landslide), slope, aspects and elevation. A numerical rating scheme for the factors was developed for spatial data analysis in GIS. The resulting landslide hazard zonation map delineates the area into different zones of three relative classes: High, Medium and Low. The present study shows that the implementation of Sunkoshi – 2 High Dam Project would make the areas at the reservoir water level more vulnerable towards landside. Key Words: Landslide hazard zonation, multi-criteria decision analysis, quantitative methods in GIS National Conference on Energy Economics and Sustainable Development, October 22, 2014 Policy Modeling for Low Emissions Urban Development SadhanaBhusal, SulochanaShrestha, AnjanaMaharjan, SaraswotiNagarkoti Institute of Engineering, Pulchowk Campus, Pulchowk, Lalitpur Corresponding author: SadhanaBhusal, sketch627@gmail.com Developing countries are the most vulnerable to the effects of Green House Gases and the low energy efficiency of the building services. An Urban Low Emissions Development Strategy (UrbanLEDS), or Low Emissions Urban Development Strategy, aids in the transition of a city to a low energy and emission footprint through its integration into city development plans and processes. The formulation and implementation of low-emission climate-resilient development strategies (LECRDS) will allow developing countries to respond more effectively to climate change and make the development processes climates resilient and lower in carbon emissions. About 40% of GHG emissions are attributed to the design, construction, and operation of buildings. As the majority of GHG emissions are from fossil fuel use, reversing climate change requires the reduction of building energy use and transition to renewable energy sources. In this paper, a comparison is made between the energy uses of a typical residential building with the conventional design and operation of Heating, Ventilation and Air-Conditioning (HVAC), electrical systems, and the energy efficient design of the same building and the reduction of GHG emissions is calculated. It then calculates the possible reductions of emissions based on the annual construction of the energy efficient buildings in the city along with the considerable saving of energy. It suggests the integration of the energy efficient building policy in the building construction guide to encourage the construction of such energy efficient low emission buildings. Keywords: low emissions, energy, development policy National Conference on Energy Economics and Sustainable Development, October 22, 2014 National Conference on Energy Economics and Sustainable Development (CEESDev) ~~~ For sustained growth and prosperous tomorrow - what do research and practice inform to shape the future? ~~~ BACKGROUND Energy is one of the most important driving factors for higher economic growth, which every country in the world wishes to achieve. Given the continuous increase in demand at a significant rate, energy has become one of the scarce resources. LNG Jetty, Courtesy of Raju K Mishra http://www.downtoearth.org.in/content/tense-overenergy?page=0,3 basin optimization and Power Purchase Agreement (PPA), are increasing. Recently, the news of the Power Development Agreement (PDA) and Power Trade Agreement (PTA) between Nepal and India has covered most of media headlines in Nepal and abroad. PDA is supposed to help secure foreign investment in hydro sector of Nepal; however, it has been very controversial issue far more than PTA. OBJECTIVES& ORGANIZERS Securing energy for the current and future generations is one of the greatest challenges that we are facing today. Countries in the world have accordingly given priority to energy policies, funding on energy research and innovation, energy economics and energy diplomacy. Nepal, a developing country in south Asia is blessed with huge water resources and enormous potential of clean and renewable energy, namely, hydropower, solar and wind. Proper energy policies and adequate investment in energy sector may pave the way for bright future of the country. However, Nepalese are still suffering from energy scarcity and remote access to water. Large-scale multipurpose projects could contribute to round-the-year water regulation and regional energy Sikta Head Works, Courtesy of Bir Singh Dhami In the above context, several pertinent questions prevail. What should we do to make our development and economy, anchored to energy market, sustainable? Do existing models of energy economics and electricity reform valid in the context of Nepal and should the Government go with it? If we ought to develop new models, policies and procedures, how should we move forward? What are strengths and weaknesses of the PDA & PTA? What is the real science behind those documents? With an objective to seek answers to these questions, a one-day collaborative conference on Energy Economics and Sustainable Development (CEESDev). CEESDev is expected to reveal what research and practice in energy sector inform to shape Nepal’s prosperous future through sustained growth. The organizers ask interested people from academia, industry, government and community to present their papers, contribute as panelists or actively participate as general audience, and make the conference a great success. This is all done in support of Nepal’s intelligent development transformation. SCOPE & THEMES security, strengthen cooperation and influence the entire regional economics. However, they are associated with many controversies. The sentiments of Independent Power Producers (IPPs) regarding existing policies and procedures, particularly when it comes to CEESDev covers awide range of issues related to energy and energy economics of Nepal along with regional collaboration in energy sector. They may include but not limited to market and energy efficiency, energy consumption trends and future directions, energy consumption and economic growth, elasticity of energy demand, policy modeling, etc. The papers with qualitative and quantitative research, appealing illustrations, professional experiences along with data and recommendations are highly preferred. In addition, there will be dedicated and long session of panel National Conference on Energy Economics and Sustainable Development, October 22, 2014 discussion, which is expected to feature most of the prominent people from Nepal researching or practicing in the field of energy and energy economics. The content and recommendations of the conference will be published in the form of proceedings, submitted to the concerned authorities and disseminated to wider public. CONVENORS: Dr. Vishnu Prasad Pandey, M: 9841318939 (vishnu.pandey@gmail.com) Mr. MadhuSudan Gautam, M: 9841364694 (gautammadhusudan@hotmail.com) Mr. Mohan Raj Joshi, M: 9851011259 (mrjoshi@gmail.com) EDITORIAL: Dr. Vishnu Prasad Pandey (AITM) Mr. Madhu Sudan Gautam (IFS) Dr. ShankerDhakal (GHEaSES& Uni. of Melbourne) Mr. Prachanda Man Pradhan (KU) SECRETARIAT: Mr. KshitzKhanal, M: 9841857952 (kshitiz@gheases.com.np) ONLINE FACILITATOR Dr. Shanker Dhakal (sdhakal@gheases.com.np) PARTICIPATION FEE: Individual: Rs 500 and Institutional: Rs3000 CONFERENCE DATE & VENUE Date: October 22, 2014 Time: 9:00 – 17:30 Venue: Asian Institute of Technology and Management (AITM), Lalitpur, Nepal ORGANIZING COMMITTEE Dr. Shanker Dhakal (GHEaSES, TNUN & NRNA Aust. SKI) Dr. Vishnu Pradad Pandey (AITM) Mr. Madhu Sudan Gautam (IFS& TNUN) Mr. Sunil KC (AIDIA) Mr. Prachanda Man Pradhan (KU) Mr. Guna Raj Dhakal (GRID Nepal, WECAN,Urja News) Mr. Mohan Raj Joshi (Nabil Bank) Mr. Sadam Bala (TNUN &GHEaSES) Mr. Kshitiz Khanal (GHEaSES) Mr. Rabin Dhakal (GHEaSES) Mr. Santosh Pandey (CB, TNUN &Clean Up Nepal) Mr. Sagun Raj Lage (TNUN, CB) Ms. Laxmi Adhikari (HAMS)) Mr. Om Raut (Freelance Intl. Consultant) Mr. Sujan Ghimire (SMEC Intl & TNUN) Mr. Prashidha Kharel (GHEaSES) Mr. Susheel Sharma (SIDRI & GHEaSES) Mr. Ganesh Sinkemana (Practical Action) Mr. Sampad Jamarkattel (AEPC) Mr. Bidur Gautam (Nepal Eng. College) Mr. Shyam Sundar Khadka (KU, SEI) Mr. Ramesh Pokhrel (IOE Pulchowk Campus) Mr. RamHari Dhakal (SMEC-Shah Consultants) Mr. Santosh Timilsina (Braindigit& TNUN) Mr. Madhukar Basnet (NEA) Mr. Narayan Neupane (Hydropower Engineer) Mr. Jayandra Shrestha (Hydropower Engineer) Mr. Sunil Ghaju (Hydropower Engineer) Mr. Bishnu Raj Dhakal (Trimurty International Trade) Mr. Bishnu Gautam (Uni. of Toronto, Canada) Dr. Dhruba Panthi (Uni. of Tokyo &GHEaSES) Dr. Rajendra Rijal (UTS, Australia) Mr. Sagar Parajuli (Uni. of Texas at Austin, USA) Mr. Bishnu Baral (Queen Mary Uni., UK) Mr. Chhatra Basnet (NTNU, Norway) Mr. Tilak Pokhrel (Uni. of Melbourne &GHEaSES) Mr. Hem Motra (Bauhaus-Uni. Weimar Germany) Mr. Paras Kharel(Uni. of Melbourne, Australia) Mr. Bishnu Basnet (New Zealand) Ms. Sweta Acharya (ETC Australia) National Conference on Energy Economics and Sustainable Development, October 22, 2014 ORGANIZERS GHEaSES GHEaSES International Pvt. Ltd. is an international and collaborative R&D private company of infrastructure engineering and environment, currently registered and active in Nepal. Established in later 2012, the company has a prestigious and inclusive board and exceptionally rich network, having been led by Dr. Shanker Dhakal since its inception, which engages specialists from all across the world. The company identifies and solves engineering, economic and social problems related to civil infrastructure and disaster management. The company has now both full and part time staff including research interns in its Kathmandu office. The company is aimed at achieving commercialization of innovative ideas and research, and produce cadres of research engineers, business analysts and R&D entrepreneurs under a greater umbrella of the proposed G Infrastructure Entrepreneurs (GIE), GHEaSES is well known for its historic rockfall protection study at Siddhababa area along Siddhartha Highway in 2012, slope hazard risk modelling research project of 2013, investigation of building structures built on hill slopes of Nepal in 2014, in addition to a number of research and consulting projects related to road survey, building design and energy efficient mechanical system experimentation conducted over the last couple of years. GHEaSES has as an excellent track record of sponsoring, organizing and participating seminars, workshop and conferences in Nepal, the CEESDev 2014 being the largest one. Contact: Er. Dr. Shanker Dhakal, Email: sdhakal@gheases.com.np; http://gheases.com.np/about/introduction/ AITM The Asian Institute of Technology & Management (AITM) was registered on 20 June 2012 to offer highquality national and international programs in Nepal. Managed by experienced educationists and professionals, with more than three decades of proven track record and with both national and international experience, AITM wishes to be a positive agent of change, within the country, regionally and internationally, by collaborating with AIT in Thailand, IMI University Center in Switzerland, and other internationally reputed academic institutions so as to draw upon their vast experience and track record in operating in multi-national and multicultural academic settings. In offering international programs in Nepal, the main aim will be to transform Nepalese institutions of higher education into outstanding seats of learning, equipped to foster highquality education, scholarship and research, to produce enlightened citizens with strong moral and ethical values. AITM has joined hands with two privately owned and managed colleges, namely Little Angels’ College (LAC) and Xavier Academy (XA) to form Nepal Education Foundation – Consortium of Colleges, Nepal, now known by its acronym NEF-CCN. The main objective of forming this consortium was to create an entity that could become a national university by virtue of its physical facilities, academic programs and excellent academic track record. NEF-CCN’s long-term objective is to become a truly international university, with international programs, international faculty and students by 2020. In order to be different and unique, NEF-CCN is building strategic alliances with reputable academic institutions in Asia and beyond to offer international academic programs, which can attract not only students from within the country but from Asia and beyond. NEFCCN is fully committed be truly a center of academic excellence in Asia. AITM is currently offering 3 international and 9 national programs. The total student enrollment is over 1,100. Contact: http://aitm.edu.np/ TNUN TNUN is a young and novel integrated and interdisciplinary professional association of intelligent and specialist Nepalese people from research and academia, industry, government and community, both inside Nepal and abroad. Founded in later 2014 (after an interim and test phase of more than a year having been coordinated by Er. Dr. Shanker Dhakal, TNUN stands upon a clear message of transforming Nepal by uniting the intelligent cohort of Nepalese irrespective. TNUN calls such a process as "Intelligent Development Transformation" (IDTrans). The three stars in the logo of TNUN represent its three keywords, namely Nepal, Unite and Transform. Bringing like-minded and supporting people, institutes and institutions National Conference on Energy Economics and Sustainable Development, October 22, 2014 in organizing intelligent "satsang" like seminar and conferences, driving publications including policy documents, plans, guidelines, codes and innovative models or technologies, formulating and executing integrated development projects, and managing grants, investment, awards and appreciation are part of TNUN’s core objectives and routine activities. TNUN facilitates and engages its partner organizations in projects of their interests and relevance. TNUN organized its first collaborative seminar on "New Generation Nepalese: Dreams and Realities" in FNCCI Hall, Bhaktapur in June 2014. The historic CEESDev 2014 conference on energy economics and sustainable development in November of 2014 in AITM Hall, Lalitpur is the second significant collaborative activity of TNUN. Contact: Er. Dr. Shanker Dhakal, Email: shankeronly@gmail.com IFS Institute for Frontier Studies (IFS) is an emerging think tank located in Lalitpur, Nepal. With the aim to bridge gap on research for generating knowledge through qualitative and quantitative framework with the latest applications of Econometrics and IT, IFS is committed to help and support think tanks, academia, media, researchers, professionals, development partners and corporate sectors. It envisions to design and deliver high quality research, teaching and professional services of National/International need. In collaboration with a number of partners in public and private sectors at home and abroad, it is currently undertaking Research, Monitoring and Evaluation, Surveys, Project/Program Assessments, Trainings, Capacity Building, Institutional Building, Policy Analysis, Policy Formulation, Teaching and Consultancy services in multidisciplinary areas. It enhances the capacity of utilizing and maximizing the art of knowledge connecting local to global. It has been internalized that in a very short span of time IFS has added value in this regard to different sectors to understand and deal with the complexities by unfolding social, political, business, economic, environmental and other emerging development issues. Contact: Mr. Madhu Sudan Gautam, Email: gautammadhusudan@hotmail.com, www.ifsnepal.org KU Department of Civil and Geomatics Engineering (DCGE) is one of the several engineering departments under School of Engineering, Kathmandu University. The department offers Bachelor of Engineering in Civil Engineering (Specialization in Hydropower) and Geomatics Engineering. It also offers graduate courses like Master in Land Administration and MS by Research programs. DCGE has focused in Research from the beginning of its establishment. Currently there are four research groups namely Hydropower, Engineering Structure, Tunneling and Geomatics research groups. Civil Engineering and Geomatics Engineering programs have extensive laboratory exercises. There are different labs for different purposes including, Survey Lab, Remote Sensing and GIS Lab, Soil and Rock Mechanics Lab, Construction Materials Lab, Structural Analysis Lab, Transportation Engineering Lab, Geology Lab, and Strength of Materials Lab. Other lab activities workshop lab, computer lab, electrical lab, science lab are conducted in cooperation with other department and schools. Contact:Acting HOD Asst. Prof. Prachand Man Pradhan; Email: prachand@ku.edu.np,http://www.ku.edu.np/ WECAN: Water and Energy Consultants' Association, Nepal founded in September 14, 2009 (BS 2066-05-29) and registered in District Administrative Office in Kathmandu. The need of such an organization was realized largely to address the issues and problems faced by the consultants in a unified way. The vision of WECAN is to become key player in the development of water and energy sectors by providing quality services at national and international level and the mission of WECAN is to maximize the role of Nepalese experts through the creation of consortium of consultants working in water and energy sectors. Contact: http://www.wecan.org.np/ National Conference on Energy Economics and Sustainable Development, October 22, 2014 AIDIA: Asian Institute of Diplomacy and International Affairs (AIDIA) is a research, consultation as well as study based organization in the field of diplomacy and international Affairs. It was established on March 09, 2014 headquartered in Kathmandu, Nepal. Its Council of Administration is composed of academicians, diplomats and bureau. Its vision is to create a globally competitive and recognized institution that will not only promote high quality of education in Nepal but also work for the betterment of the country's national interest and propel it towards great progress. AIDIA hopes to develop and maintain diplomatic relations with nation's which will benefit both parties and which will also help in bringing in a much broader global perspective. They also aim to provide Bachelor's degree and Master's degree by the year 2018. capitalized upon whenever Government of Nepal needs, for both consulting and peer review purposes in large and important development projects. Thanks to the activism of our member Er. Dr. Shanker Dhakal, it is a great pleasure for NRNA Australia SKI to be collaborating with like-minded colleagues and institutes in Nepal for the topical CEESDev 2014 conference in Nepal, in support of the sought goal of achieving so called “Intelligent Development Transformation” of Nepal which is in line with our own objectives. Contact: SKI Australia Coordinator: Dr. Binod Shrestha, Email: binod.shrestha@gmail.com; SKI ICC Coordinator: Dr. Raju Adhikari, Email: rajuorbis@yahoo.com NRNA Australia SKI: One of the flagship projects of NRNA ICC as well as NRNA Australia, SKI stands for Skill, Knowledge and Innovation transfer. SKI is a channel for the highly qualified and skilled NRNs from all around the world to contribute in development of our home country, Nepal. SKI team is working at policy level with the Government of Nepal, and is attempting to implement a few model research and educational projects, including the Open University. Under a coordination of Dr. Binod Shrestha, NRNA Australia SKI has become a leader in implementing the vision of SKI. Very recently, a project entitled “Transfer, evaluation and dissemination of an innovative fertilizer management tool (Nutrient Expert) for increasing crop yields and farmers’ income”, having been led by a Melbourne-based Scientist, Dr. JagadishTimilsina, has been endorsed by NRNA Australia committee led by Mr. MahendraOli, and piloted in the eastern region of Nepal. This was one of the attractive and transferable projects presented in NRN Australia SKI Workshop at Sydney in July 2014. Further information on this can be found in the NRN Australia website and the LinkedIn group of NRN Australia professionals/SKI. The SKI team has been currently working in preparing the Expert Database which can be National Conference on Energy Economics and Sustainable Development, October 22, 2014
