DOCSLIB.ORG

From the Bottom up How Small Power Producers and Mini-Grids Can Deliver Electrification and Renewable Energy in Africa

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
From the Bottom up How Small Power Producers and Mini-Grids Can Deliver Electrification and Renewable Energy in Africa DIRECTIONS IN DEVELOPMENT Energy and Mining From the Bottom Up How Small Power Producers and Mini-Grids Can Deliver Electrification and Renewable Energy in Africa Bernard Tenenbaum, Chris Greacen, Tilak Siyambalapitiya, and James Knuckles From the Bottom Up DIRECTIONS IN DEVELOPMENT Energy and Mining From the Bottom Up How Small Power Producers and Mini-Grids Can Deliver Electrification and Renewable Energy in Africa Bernard Tenenbaum, Chris Greacen, Tilak Siyambalapitiya, and James Knuckles © 2014 International Bank for Reconstruction and Development / The World Bank 1818 H Street NW, Washington DC 20433 Telephone: 202-473-1000; Internet: www.worldbank.org Some rights reserved 1 2 3 4 17 16 15 14 This work is a product of the staff of The World Bank with external contributions. Note that The World Bank does not necessarily own each component of the content included in the work. The World Bank therefore does not warrant that the use of the content contained in the work will not infringe on the rights of third parties. The risk of claims resulting from such infringement rests solely with you. The findings, interpretations, and conclusions expressed in this work do not necessarily reflect the views of The World Bank, its Board of Executive Directors, or the governments they represent. The World Bank does not guarantee the accuracy of the data included in this work. The boundaries, colors, denominations, and other information shown on any map in this work do not imply any judgment on the part of The World Bank concerning the legal status of any territory or the endorsement or acceptance of such boundaries. Nothing herein shall constitute or be considered to be a limitation upon or waiver of the privileges and immunities of The World Bank, all of which are specifically reserved. Rights and Permissions This work is available under the Creative Commons Attribution 3.0 Unported license (CC BY 3.0) http:// creativecommons.org/licenses/by/3.0. Under the Creative Commons Attribution license, you are free to copy, distribute, transmit, and adapt this work, including for commercial purposes, under the following conditions: Attribution—Please cite the work as follows: Tenenbaum, Bernard, Chris Greacen, Tilak Siyambalapitiya, and James Knuckles. 2014. From the Bottom Up: How Small Power Producers and Mini-Grids Can Deliver Electrification and Renewable Energy in Africa. Directions in Development. Washington, DC: World Bank. doi: 10.1596/978-1-4648-0093-1. License: Creative Commons Attribution CC BY 3.0 Translations—If you create a translation of this work, please add the following disclaimer along with the attribution: This translation was not created by The World Bank and should not be considered an official World Bank translation. The World Bank shall not be liable for any content or error in this translation. All queries on rights and licenses should be addressed to World Bank Publications, The World Bank Group, 1818 H Street NW, Washington, DC 20433, USA; fax: 202-522-2625; e-mail: [email protected]. ISBN (paper): 978-1-4648-0093-1 ISBN (electronic): 978-1-4648-0111-2 DOI: 10.1596/978-1-4648-0093-1 Cover image: NASA Earth Observatory image by Robert Simmon, using Suomi NPP VIIRS data provided courtesy of Chris Elvidge (NOAA National Geophysical Data Center). Suomi NPP is the result of a part- nership between NASA, NOAA, and the Department of Defense. Image retrieved from NASA’s “Visible Earth” website: http://visibleearth.nasa.gov/view.php?id=79765. Cover design: Debra Naylor, Naylor Design, Inc. Library of Congress Cataloging-in-Publication Data Tenenbaum, Bernard William, author. From the bottom up : how small power producers and mini-grids can deliver electrification and renewable energy in Africa / Bernard Tenenbaum, Chris Greacen, Tilak Siyambalapitiya, and James Knuckles. pages cm. – (Directions in development) ISBN 978-1-4648-0093-1 (alk. paper) – ISBN 978-1-4648-0111-2 1. Rural electrification—Africa. 2. Rural electrification–Economic aspects—Africa. 3. Small power production facilities—Africa. 4. Distributed generation of electric power—Africa. 5. Remote area power supply systems—Africa. I. Greacen, Chris. II. Siyambalapitiya, Tilak. III. Knuckles, James. IV. World Bank. V. Title. VI. Series: Directions in development (Washington, D.C.) HD9688.A352T46 2014 333.7932096—dc23 2013043831 From the Bottom Up • http://dx.doi.org/10.1596/978-1-4648-0093-1 Contents Foreword xiii Acknowledgments xv About the Authors xix Abbreviations xxi Overview 1 The Centralized and Decentralized Tracks to Electrification 1 What Are Small Power Producers and Distributors? 2 Regulating SPPs 3 Regulating Main-Grid-Connected SPPs 6 Regulating SPPs and Mini-Grids That Sell to Retail Customers 10 Preparing for the Arrival of the Main Grid 13 From Broad Strategy to Ground-Level Implementation 16 Chapter 1 Introduction 19 Abstract 19 Africa’s Two-Track Approach to Rural Electrification 19 Our Purpose and Approach 20 What Are the Typical Starting Conditions in Africa? 21 Whose Regulatory Decisions? 22 Acknowledging Controversies and Understanding Different Vocabularies 23 Regulation: The Problem or One Part of the Solution? 24 Two Other Important Success Factors 25 Organization of the Guide 26 Chapter Highlights 28 Notes 28 References 30 Chapter 2 Small Power Producers, Small Power Distributors, and Electrification: Concepts and Examples 31 Abstract 31 What Are Small Power Producers? 31 From the Bottom Up • http://dx.doi.org/10.1596/978-1-4648-0093-1 v vi Contents The Four Main Types of Grid and Off-Grid SPPs in Africa 35 Combinations of Cases 39 Purchases As Well As Sales 40 Mini-Grids and SPPs: A Clarification 43 Which Types of SPPs Are Likely to Achieve Commercial Viability? Some Early Evidence from Tanzania 45 What Are SPDs? 50 Electrification: What Is It and How Can It Be Measured? 52 Defining Electrification as Connections 52 Defining Electrification as Needs Served 53 The Traditional Electrification Ladder Approach and Its Weaknesses 53 Measuring Electrification by Its Attributes 55 Measuring Electrification: From Theory to Practice 57 Notes 60 References 62 Chapter 3 The Regulation of Small Power Producers and Mini-Grids: An Overview 65 Abstract 65 What Is Regulation? 65 Three Types of Regulatory Decisions That Affect SPPs 66 The Importance of Regulatory Process 67 Light-Handed Regulation: When It Works and When It Doesn’t 69 To Regulate or Deregulate? A Specific Example 72 Who Should Regulate SPPs and Mini-Grids? 75 Notes 81 References 82 Chapter 4 Regulatory Processes and Approvals: Who Approves What, When, and How? 85 Abstract 85 The Key Approvals Required: Electricity Sector–Specific versus General Approvals 86 A Successful Example: The Regulatory Process in Sri Lanka 88 Should Resale of Provisional Approvals, Final Permits, or Licenses Be Allowed? 97 Licensing: Does the SPP Have a Legal Right to Exist? 101 Recommended Characteristics of a Good Regulatory Review and Approval System 104 Notes 114 References 116 From the Bottom Up • http://dx.doi.org/10.1596/978-1-4648-0093-1 Contents vii Chapter 5 The Regulatory Treatment of Subsidies, Carbon Credits, and Advance Payments 119 Abstract 119 Types and Sources of Subsidies Available to SPPs and Their Customers 119 Regulating Subsidies: The Key Recommendation 121 Subsidies for Connection Charges and Costs 122 Cross-Subsidies in Tariffs 137 Revenues Earned from Carbon Credits through the Clean Development Mechanism or Other Carbon Credit Programs 141 Advance Payments to Close the Equity Gap 147 Notes 149 References 152 Chapter 6 Regulatory Decisions for Grid-Connected Small Power Producers 155 Abstract 155 Comparing the Purchase Agreements of SPPs and Independent Producers 156 Should the Power-Purchase Agreement Include a “Deemed Energy” Clause? 162 Tariffs for Backup Power Purchased by the SPP 170 Should the SPP Have the Option of Not Entering a Backup Capacity Contract? 176 Notes 177 References 178 Chapter 7 Grid-Connected SPPs: Creating Workable Feed-In Tariffs 179 Abstract 179 What Are Feed-In Tariffs? 179 The Two Principal Methods for Setting FITs in Developing Countries 180 Local Currency versus Hard Currency 187 Major FIT Implementation Questions and Issues 188 Who Should Pay the Extra Costs of FITs? 198 Donor Top-Ups of FITs 201 Walking Up the Renewable Energy Supply Curve: A Recommended Strategy 202 Notes 207 References 209 Chapter 8 The Technical and Economic Rules Governing Grid-Integration Interconnections and Operations 213 Abstract 213 Basic Terms and Concepts 213 From the Bottom Up • http://dx.doi.org/10.1596/978-1-4648-0093-1 viii Contents Standardizing the Process for SPPs to Interconnect to a National or Regional Grid 214 Scope of the Engineering Standards for Interconnection 216 Paying for Interconnection Costs 217 Successful Integration of SPPs into the Grid: Technical and Commercial Requirements 223 Factors to Consider When Connecting to an Isolated Mini-Grid with Existing Diesel Generators 229 Notes 235 References 237 Chapter 9 Regulatory Decisions for Small Power Producers Serving Retail Customers: Tariffs and Quality of Service 239 Abstract 239 Setting Retail Tariff Levels: Concepts and Cases 240 Cost-Reflective Tariffs for Isolated SPPs: How Can the Cost-Revenue Gap Be Closed? 245 What Can a Regulator Do to Promote the Commercial Viability of Isolated Mini-Grids? 255 Tariff Levels for Community-Owned SPPs 259 Setting Tariff Structures: Concepts and Cases 262 Should Tariffs Be Prepaid or Postpaid? 269 Alternatives to Setting Retail Tariffs on a Case-by-Case Basis 271
Load more

Recommended publications
  • How to Leverage Climate Finance to Reach Your Investment Goals
    GEOTHERMAL • WIND • CONCENTRATED SOLAR POWER • SOLAR PHOTOVOLTAICS • BIOMASS • HYDROPOWER HOW TO LEVERAGE CLIMATE FINANCE TO REACH YOUR INVESTMENT GOALS Renewable energy opportunities in emerging economies and developing countries are huge. Low-cost climate financing can help turn your vision into action. Hear how industry players are leveraging concessional financing from the Climate Investment Funds (CIF)—currently the largest source of international finance for renewable energy—to catalyze success in sustainable energy in Thailand, Turkey, Mexico, and Morocco. BARBARA BUCHNER SENIOR DIRECTOR, CLIMATE FINANCE, CLIMATE POLICY INITIATIVE (CPI) 12:00–13:00 Panel Moderator Main Conference Area MAFALDA DUARTE Level 3, Room 6 MANAGER, CLIMATE INVESTMENT FUNDS Carbon Expo 2015 Overview of CIF private sector engagement in renewable energy and energy efficiency WANDEE KHUNCHORNYAKONG “When I started to develop my first solar CHAIRPERSON AND CEO OF SOLAR POWER COMPANY GROUP (SPCG) project in Thailand, no bank here would Scaling up solar power in Thailand: SPCG’s experience in promoting solar farms finance the project until the International Finance Corporation agreed to invest in it. With ENRIQUE NIETO ITUARTE the CIF, banks believed in the project, financing DIRECTOR OF SUSTAINABLE PROJECTS, NACIONAL FINANCIERA (NAFINSA), MEXICO it with a better interest rate.” The promise of an innovative risk sharing facility for geothermal investments: WANDEE KHUNCHORNYAKONG Example from Mexico “CIF funds have been able to mobilize a SIMTEN ÖZTÜRK bigger pool of liquidity and, thus, make MANAGER, LEVERAGE FINANCE, PROJECT AND AQUISITION FINANCE, GARANTI BANK, TURKEY available larger amounts of funds permitting Leveraging CIF resources for financial intermediation in promoting energy efficiency a higher leverage for a longer tenor and at a lower risk premium.
    [Show full text]
  • Iea Pvps Annual Report 2019 Photovoltaic Power Systems Programme
    Cover photo THE INTERNATIONAL OLYMPIC COMMITTEE’S (IOC) NEW HEADQUARTERS’ PV ROOFTOP, BUILT BY SOLSTIS, LAUSANNE SWITZERLAND One of the most sustainable buildings in the world, featuring a PV rooftop system built by Solstis, Lausanne, Switzerland. At the time of its certification in June 2019, the new IOC Headquarters in Lausanne, Switzerland, received the highest rating of any of the LEED v4-certified new construction project. This was only possible thanks to the PV system consisting of 614 mono-Si modules, amounting to 179 kWp and covering 999 m2 of the roof’s surface. The approximately 200 MWh solar power generated per year are used in-house for heat pumps, HVAC systems, lighting and general building operations. Photo: Solstis © IOC/Adam Mork COLOPHON Cover Photograph Solstis © IOC/Adam Mork Task Status Reports PVPS Operating Agents National Status Reports PVPS Executive Committee Members and Task 1 Experts Editor Mary Jo Brunisholz Layout Autrement dit Background Pages Normaset Puro blanc naturel Type set in Colaborate ISBN 978-3-906042-95-4 3 / IEA PVPS ANNUAL REPORT 2019 PHOTOVOLTAIC POWER SYSTEMS PROGRAMME PHOTOVOLTAIC POWER SYSTEMS PROGRAMME ANNUAL REPORT 2019 4 / IEA PVPS ANNUAL REPORT 2019 CHAIRMAN'S MESSAGE CHAIRMAN'S MESSAGE A warm welcome to the 2019 annual report of the International Energy Agency Photovoltaic Power Systems Technology Collaboration Programme, the IEA PVPS TCP! We are pleased to provide you with highlights and the latest results from our global collaborative work, as well as relevant developments in PV research and technology, applications and markets in our growing number of member countries and organizations worldwide.
    [Show full text]
  • Thin Film Cdte Photovoltaics and the U.S. Energy Transition in 2020
    Thin Film CdTe Photovoltaics and the U.S. Energy Transition in 2020 QESST Engineering Research Center Arizona State University Massachusetts Institute of Technology Clark A. Miller, Ian Marius Peters, Shivam Zaveri TABLE OF CONTENTS Executive Summary .............................................................................................. 9 I - The Place of Solar Energy in a Low-Carbon Energy Transition ...................... 12 A - The Contribution of Photovoltaic Solar Energy to the Energy Transition .. 14 B - Transition Scenarios .................................................................................. 16 I.B.1 - Decarbonizing California ................................................................... 16 I.B.2 - 100% Renewables in Australia ......................................................... 17 II - PV Performance ............................................................................................. 20 A - Technology Roadmap ................................................................................. 21 II.A.1 - Efficiency ........................................................................................... 22 II.A.2 - Module Cost ...................................................................................... 27 II.A.3 - Levelized Cost of Energy (LCOE) ....................................................... 29 II.A.4 - Energy Payback Time ........................................................................ 32 B - Hot and Humid Climates ...........................................................................
    [Show full text]
  • Agrophotovoltaic Systems: Applications, Challenges, and Opportunities. a Review
    Agrophotovoltaic systems: applications, challenges, and opportunities. A review Axel Weselek, Andrea Ehmann, Sabine Zikeli, Iris Lewandowski, Stephan Schindele, Petra Högy To cite this version: Axel Weselek, Andrea Ehmann, Sabine Zikeli, Iris Lewandowski, Stephan Schindele, et al.. Agropho- tovoltaic systems: applications, challenges, and opportunities. A review. Agronomy for Sustainable Development, Springer Verlag/EDP Sciences/INRA, 2019, 39 (4), pp.35. 10.1007/s13593-019-0581-3. hal-02877032 HAL Id: hal-02877032 https://hal.archives-ouvertes.fr/hal-02877032 Submitted on 22 Jun 2020 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Agronomy for Sustainable Development (2019) 39: 35 https://doi.org/10.1007/s13593-019-0581-3 REVIEW ARTICLE Agrophotovoltaic systems: applications, challenges, and opportunities. A review Axel Weselek1 & Andrea Ehmann1,2 & Sabine Zikeli3 & Iris Lewandowski2 & Stephan Schindele4 & Petra Högy1 Accepted: 17 May 2019 /Published online: 19 June 2019 # INRA and Springer-Verlag France SAS, part of Springer Nature 2019 Abstract The expansion of renewable energies aims at meeting the global energy demand while replacing fossil fuels. However, it requires large areas of land. At the same time, food security is threatened by the impacts of climate change and a growing world population.
    [Show full text]
  • Renewable Energy Developments and Potential In
    Renewable Energy Developments and Potential for the Greater Mekong Subregion This report was produced under the technical assistance project Promoting Renewable Energy, Clean Fuels, and Energy Efficiency in the Greater Mekong Subregion (TA 7679). It focused on renewable energy developments and potential in five countries in the Greater Mekong Subregion (GMS): Cambodia, the Lao People’s Democratic Republic, Myanmar, Thailand, and Viet Nam. It assessed the potential of solar, wind, biomass, and biogas as sources of renewable energy. Technical considerations include the degree and SUBREGION MEKONG IN THE GREATER AND POTENTIAL DEVELOPMENTS ENERGY RENEWABLE intensity of solar irradiation, average wind speeds, backup capacity of grid systems, availability and quality of agricultural land for biofuel crops, and animal manure concentrations for biogas digester systems. Most GMS governments have established plans for reaching these targets and have implemented policy, regulatory, and program measures to boost solar, wind, biomass, and biogas forms of renewable energy. Incentives for private sector investment in renewable energy are increasingly emphasized. About the Asian Development Bank ADB’s vision is an Asia and Pacific region free of poverty. Its mission is to help its developing member countries reduce poverty and improve the quality of life of their people. Despite the region’s many successes, it remains home to the majority of the world’s poor. ADB is committed to reducing poverty through inclusive economic growth, environmentally sustainable growth, and regional integration. Based in Manila, ADB is owned by 67 members, including 48 from the region. Its main instruments for helping its developing member countries are policy dialogue, loans, equity investments, guarantees, grants, and technical assistance.
    [Show full text]
  • Planning for the Energy Transition: Solar Photovoltaics in Arizona By
    Planning for the Energy Transition: Solar Photovoltaics in Arizona by Debaleena Majumdar A Dissertation Presented in Partial Fulfillment of the Requirements for the Degree Doctor of Philosophy Approved November 2018 by the Graduate Supervisory Committee: Martin J. Pasqualetti, Chair David Pijawka Randall Cerveny Meagan Ehlenz ARIZONA STATE UNIVERSITY December 2018 ABSTRACT Arizona’s population has been increasing quickly in recent decades and is expected to rise an additional 40%-80% by 2050. In response, the total annual energy demand would increase by an additional 30-60 TWh (terawatt-hours). Development of solar photovoltaic (PV) can sustainably contribute to meet this growing energy demand. This dissertation focuses on solar PV development at three different spatial planning levels: the state level (state of Arizona); the metropolitan level (Phoenix Metropolitan Statistical Area); and the city level. At the State level, this thesis answers how much suitable land is available for utility-scale PV development and how future land cover changes may affect the availability of this land. Less than two percent of Arizona's land is considered Excellent for PV development, most of which is private or state trust land. If this suitable land is not set-aside, Arizona would then have to depend on less suitable lands, look for multi-purpose land use options and distributed PV deployments to meet its future energy need. At the Metropolitan Level, ‘agrivoltaic’ system development is proposed within Phoenix Metropolitan Statistical Area. The study finds that private agricultural lands in the APS (Arizona Public Service) service territory can generate 3.4 times the current total energy requirements of the MSA.
    [Show full text]
  • Country Guide: Thailand June 2020
    Country Guide: Thailand June 2020 Country Guide: Thailand Thailand is a multi-ethnic nation with a population of 69.8 million, located in the heart of mainland Southeast Asia. Thailand is a country of mountains, hills, plains and a long coastline along the Gulf of Thailand and the Andaman Sea. It shares borders with the Laos People's Democratic Republic (Laos PDR) to the north/east, Cambodia to the southeast, Malaysia to the south, and Myanmar to the west. Thailand’s climate ranges from the subtropical to zones with three distinct seasons: a hot and dry season from February to May, a monsoon season from June to October, and a cooler, dry season from November to January. Average seasonal temperatures vary between 23.0 degrees Celsius (ºC) and 32.2 °C. The majority of Thais (over 90%) are Buddhists, although other major religions are practiced. These include Christianity, Hinduism, Islam, and Sikhism. Thailand is a parliamentary (bi-cameral) democracy with a constitutional monarchy, with the military playing a significant role in Thai politics. Figure 1: Map of Thailand. Source: d-maps Economy Thailand is Southeast Asia’s second-largest economy with a nominal gross domestic product (GDP) of around USD $500 billion. The Thai economy is well integrated into the global marketplace, with exports accounting for over 70% of the country’s GDP. Thailand also has a strong industrial sector (40% of GDP) and a robust and growing services sector centered on the tourism and financial services industries (50% of GDP). Energy Catalyst Country Guide: Thailand 1 While accounting for over 30% of the country’s employment and utilizing over 40% of the country's land, the agricultural sector accounts for only approximately 10% of the country’s GDP.
    [Show full text]
  • Designing Renewable Energy Incentives and Auctions: Lessons for Asean
    DESIGNING RENEWABLE ENERGY INCENTIVES AND AUCTIONS: LESSONS FOR ASEAN USAID CLEAN POWER ASIA September 4, 2017 This publication was produced for review by the United States Agency for International Development by Abt Associates Inc. and can be downloaded at the following location: http://www.usaidcleanpowerasia.com/publications.html DESIGNING RENEWABLE ENERGY INCENTIVES AND AUCTIONS: LESSONS FOR ASEAN USAID CLEAN POWER ASIA Contract No.: AID-486-C-16-00001 Prepared by: Abt Associates Inc. Submitted to: U.S. Agency for International Development Regional Development Mission for Asia Submitted on: September 4, 2017 Authors: Dr. Sopitsuda Tongsopit Dr. Wathanyu Amatayakul Phoebe Grace Saculsan Vu Hoang Nghia Chomsiri Tirapornvitoon Rémy Favre Ana Amazo Silvana Tiedemann Angélica Afanador DISCLAIMER The authors’ views expressed in this publication do not necessarily reflect the views of the United States Agency for International Development (USAID) or the United States government. CONTENTS Acronyms ................................................................................................................................... 8 Acknowledgments.................................................................................................................... 12 Executive Summary .................................................................................................................. 13 Chapter 1: Introduction ........................................................................................................... 18 1.1 USAID Clean
    [Show full text]
  • Sustainable Solar Energy Development in Thailand Kitiluk Thanomboonchai Clemson University, [email protected]
    Clemson University TigerPrints All Dissertations Dissertations August 2017 Sustainable Solar Energy Development in Thailand Kitiluk Thanomboonchai Clemson University, [email protected] Follow this and additional works at: https://tigerprints.clemson.edu/all_dissertations Recommended Citation Thanomboonchai, Kitiluk, "Sustainable Solar Energy Development in Thailand" (2017). All Dissertations. 2322. https://tigerprints.clemson.edu/all_dissertations/2322 This Dissertation is brought to you for free and open access by the Dissertations at TigerPrints. It has been accepted for inclusion in All Dissertations by an authorized administrator of TigerPrints. For more information, please contact [email protected]. SUSTAINABLE SOLAR ENERGY DEVELOPMENT IN THAILAND A Thesis Presented to the Graduate School of Clemson University In Partial Fulfillment of the Requirements for the Degree Doctor of Philosophy Civil Engineering by Kitiluk Thanomboonchai August 2017 Accepted by: Dr. Amy E. Landis, Committee Chair Dr. Michael Carbajales-Dale Dr. Claire L. A. Dancz Dr. Jeffery M. Plumblee ABSTRACT Energy independence and energy security have become important topics for Thailand. Thailand depends on natural gas as the primary fuel for electricity generation while Thailand’s Ministry of Energy projected the depletion of available natural gas by 2032. As such, the Thai government established The Alternative Energy Development Plan (AEDP), which set a goal of producing approximately 20% of electricity by 2036 from renewable sources; 6,000 MW of which would come from solar power. This thesis aims to provide guidance on policy and solar siting issues that will aid Thailand in achieving their solar energy goals. There are four objectives of this dissertation. First, abandoned lands were evaluated for their potential to develop solar to meet Thailand’s electricity demands of 326,199 GWh, expected by the year 2036, based on Power Development Plan 2015.
    [Show full text]
  • Thailand Solar Power Project (Thailand)
    Extended Annual Review Report Project Number: 46934-014 Loan Numbers: 2992 and 8268 September 2017 Loan Central Thailand Solar Power Project (Thailand) This is the abbreviated version of the document that excludes commercially sensitive and confidential business information that is subject to exceptions to disclosure set forth in ADB’s Public Communications Policy 2011. CURRENCY EQUIVALENTS Currency unit – baht (B) At Appraisal At Project Completion 28 February 2013 31 December 2016 B1.00 – $0.03 $0.03 $1.00 – B29.84 B35.82 ABBREVIATIONS ADB – Asian Development Bank COD – commercial operation date CRS – community relations staff CSR – corporate social responsibility CTF – Clean Technology Fund EGAT – Electricity Generating Authority of Thailand EGCO – Electricity Generating Public Company EHS – environmental, health and safety EIRR – economic internal rate of return EPC – engineering, procurement, and construction EPPO – Energy Policy and Planning Office FIRR – financial internal rate of return GHG – greenhouse gas IEE – initial environmental examination LCL – local currency loan LTA – lender’s technical agent MEA – Metropolitan Electricity Authority NEPC – National Energy Policy Council O&M – operation and maintenance PEA – Provincial Electricity Authority PPA – power purchase agreement PV – photovoltaic RRP – report and recommendation of the President SPP – small power producer SPS – Safeguard Policy Statement tCO 2 – ton of carbon dioxide VSPP – very small power producer WACC – weighted average cost of capital WEIGHTS AND MEASURES kWh – kilowatt-hour MW – megawatt MWh – megawatt-hour NOTES (i) The fiscal year (FY) of Solaro Company Limited ends on 31 December. FY before a calendar year denotes the year in which the fiscal year ends, e.g., FY2000 ends on 31 December 2000.
    [Show full text]
  • Dual-Use Approaches for Solar Energy and Food Production International Experience and Potentials for Viet Nam
    DUAL-USE APPROACHES FOR SOLAR ENERGY AND FOOD PRODUCTION INTERNATIONAL EXPERIENCE AND POTENTIALS FOR VIET NAM TABLE OF CONTENTS TABLE OF CONTENTS ...................................................................................................................................3 ABBREVIATIONS .............................................................................................................................................5 EXECUTIVE SUMMARY .................................................................................................................................6 INTRODUCTION .............................................................................................................................................8 “Why Not Do Both?” – The Idea of Combining Agriculture and Energy Producton ........................9 Key Objectve of the Study ......................................................................................................................... 11 Key Approach and Methodology .............................................................................................................. 12 VIET NAM´S AGRICULTURAL SECTOR – OVERVIEW AND KEY CHALLENGES ........................ 13 The Agricultural Sector – Key Producton Systems ............................................................................... 13 Key challenges of the Vietnamese Agricultural Sector ......................................................................... 14 Climate Change Impact in the Vietnamese Agricultural Sector.........................................................
    [Show full text]
  • Evaluation Thailand
    CPS Final Thailand Review Validation of the Country Partnership Validation Strategy Final Review, 2013–2016 Independent Evaluation Raising development impact through evaluation Validation Report July 2019 Thailand: Validation of the Country Partnership Strategy Final Review, 2013–2016 This is a redacted version of the document, which excludes information that is subject to exceptions to disclosure set forth in ADB’s Access to Information Policy. Independent Evaluation: VR-35 NOTES (i) In this report, “$” refers to United States dollars. (ii) For an explanation of rating descriptions used in evaluation reports of the Asian Development Bank, see ADB. 2015. 2015 Guidelines for the Preparation of Country Assistance Program Evaluations and Country Partnership Strategy Final Review Validations. Manila. Director General Marvin Taylor-Dormond, Independent Evaluation Department (IED) Deputy Director General Veronique Salze-Lozac’h, IED Director Nathan Subramaniam, Sector and Project Division, IED Team leader Lauren Hauck, Senior Evaluation Specialist, IED Team member Ma. Celia Guzon, Evaluation Assistant, IED Irene Garganta, Evaluation Analyst, IED The guidelines formally adopted by the Independent Evaluation Department on avoiding conflict of interest in its independent evaluations were observed in the preparation of this report. To the knowledge of the management of the Independent Evaluation Department, there were no conflicts of interest of the persons preparing, reviewing, or approving this report. In preparing any evaluation report, or by
    [Show full text]