A Guide to Operational Impact Analysis of Variable Renewables : Application to the Philippines
This document serves as a guide for those wishing to investigate the impacts of variable renewable energy (VRE) on the operation of power systems, particularly in the Philippines. The work was commissioned by the World Bank in 2011 to enhance the...
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Format: | ESMAP Paper |
Language: | English en_US |
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Washington, DC
2014
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Online Access: | http://documents.worldbank.org/curated/en/2013/05/20382376/guide-operational-impact-analysis-variable-renewables-application-philippines http://hdl.handle.net/10986/20774 |
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Digital Repository |
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Foreign Institution |
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World Bank Open Knowledge Repository |
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World Bank |
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English en_US |
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ALTERNATING CURRENT APPROACH AVAILABILITY BALANCE BIOMASS CAPACITY LEVELS CAPITAL COSTS CARBON CARBON PRICE CLIMATE CLIMATE CHANGE COAL COAL OIL COLORS CONGESTION CONTRACT CONDITIONS CONTRACTUAL AGREEMENTS CONVENTIONAL GENERATION CONVENTIONAL POWER PLANTS DIRECT CURRENT ECONOMIC GROWTH ELECTRIC POWER ELECTRIC POWER SYSTEM ELECTRIC TRANSMISSION ELECTRICITY ELECTRICITY GENERATION ELECTRICITY MARKET ELECTRICITY PRODUCTION ELECTRICITY SYSTEM ENERGY DEPARTMENT ENERGY MANAGEMENT ENERGY MIX ENERGY REGULATORY COMMISSION ENERGY SECTOR ENERGY SOLUTIONS ENERGY SOURCE ENERGY SOURCES FOSSIL FOSSIL FUEL FOSSIL FUEL PRICES FUTURE DEMAND GENERATION ASSETS GENERATION CAPACITY GENERATORS GOVERNMENT PLANS GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSIONS GRID CODE GRID COMPANY GRID ELECTRICITY GRID FREQUENCY GRID INTEGRATION GRID SYSTEMS HYDRO POWER INDUCTION INFRASTRUCTURE DEVELOPMENT INVERTERS IRRADIATION LOAD SHEDDING METEOROLOGY MODERN WIND TURBINES NATIONAL GRID NATURAL GAS NATURAL RESOURCES NATURAL-GAS NETWORK ELEMENTS OFFSHORE WIND OFFSHORE WIND FARMS OIL PEAK DEMAND PEAK DEMAND PERIODS PHOTOVOLTAIC POWER PLANT OUTPUT PLANT PERFORMANCE POWER POWER AVAILABILITY POWER CAPACITY POWER DEMAND POWER FLOWS POWER GENERATION POWER PLANT POWER PLANTS POWER SUPPLY POWER SYSTEM POWER SYSTEMS PP RELIABILITY OF SUPPLY RENEWABLE ENERGY RENEWABLE ENERGY CAPACITY RENEWABLE ENERGY DEVELOPMENT RENEWABLE ENERGY FUTURE RENEWABLE ENERGY PROGRAM RENEWABLE ENERGY RESOURCES RENEWABLE ENERGY SOURCES RENEWABLE GENERATION RENEWABLE PORTFOLIO STANDARD RENEWABLE RESOURCES SERVICE CONTRACTS SOLAR POWER SOLAR RADIATION SOLAR RADIATION DATA SPOT MARKET STORMS SUBSTATION EQUIPMENT SUMMER PEAK SUSTAINABLE ENERGY SYNCHRONOUS GENERATORS TRANSMISSION CAPACITY TRANSMISSION FACILITIES TRANSMISSION GRID TRANSMISSION INFRASTRUCTURE TRANSMISSION LINE TRANSMISSION LINES TRANSMISSION OWNERS TRANSMISSION SYSTEM TURBINE GENERATOR VOLTAGE WHOLESALE ELECTRICITY WIND WIND CAPACITY WIND DATA WIND ENERGY WIND FARMS WIND GENERATION WIND POWER WIND POWER DEVELOPMENT WIND POWER GENERATION WIND POWER PLANTS WIND POWER PRODUCTION WIND POWER RESOURCES WIND SPEED WIND SPEED MEASUREMENT WIND TURBINE WIND VARIABILITY |
spellingShingle |
ALTERNATING CURRENT APPROACH AVAILABILITY BALANCE BIOMASS CAPACITY LEVELS CAPITAL COSTS CARBON CARBON PRICE CLIMATE CLIMATE CHANGE COAL COAL OIL COLORS CONGESTION CONTRACT CONDITIONS CONTRACTUAL AGREEMENTS CONVENTIONAL GENERATION CONVENTIONAL POWER PLANTS DIRECT CURRENT ECONOMIC GROWTH ELECTRIC POWER ELECTRIC POWER SYSTEM ELECTRIC TRANSMISSION ELECTRICITY ELECTRICITY GENERATION ELECTRICITY MARKET ELECTRICITY PRODUCTION ELECTRICITY SYSTEM ENERGY DEPARTMENT ENERGY MANAGEMENT ENERGY MIX ENERGY REGULATORY COMMISSION ENERGY SECTOR ENERGY SOLUTIONS ENERGY SOURCE ENERGY SOURCES FOSSIL FOSSIL FUEL FOSSIL FUEL PRICES FUTURE DEMAND GENERATION ASSETS GENERATION CAPACITY GENERATORS GOVERNMENT PLANS GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSIONS GRID CODE GRID COMPANY GRID ELECTRICITY GRID FREQUENCY GRID INTEGRATION GRID SYSTEMS HYDRO POWER INDUCTION INFRASTRUCTURE DEVELOPMENT INVERTERS IRRADIATION LOAD SHEDDING METEOROLOGY MODERN WIND TURBINES NATIONAL GRID NATURAL GAS NATURAL RESOURCES NATURAL-GAS NETWORK ELEMENTS OFFSHORE WIND OFFSHORE WIND FARMS OIL PEAK DEMAND PEAK DEMAND PERIODS PHOTOVOLTAIC POWER PLANT OUTPUT PLANT PERFORMANCE POWER POWER AVAILABILITY POWER CAPACITY POWER DEMAND POWER FLOWS POWER GENERATION POWER PLANT POWER PLANTS POWER SUPPLY POWER SYSTEM POWER SYSTEMS PP RELIABILITY OF SUPPLY RENEWABLE ENERGY RENEWABLE ENERGY CAPACITY RENEWABLE ENERGY DEVELOPMENT RENEWABLE ENERGY FUTURE RENEWABLE ENERGY PROGRAM RENEWABLE ENERGY RESOURCES RENEWABLE ENERGY SOURCES RENEWABLE GENERATION RENEWABLE PORTFOLIO STANDARD RENEWABLE RESOURCES SERVICE CONTRACTS SOLAR POWER SOLAR RADIATION SOLAR RADIATION DATA SPOT MARKET STORMS SUBSTATION EQUIPMENT SUMMER PEAK SUSTAINABLE ENERGY SYNCHRONOUS GENERATORS TRANSMISSION CAPACITY TRANSMISSION FACILITIES TRANSMISSION GRID TRANSMISSION INFRASTRUCTURE TRANSMISSION LINE TRANSMISSION LINES TRANSMISSION OWNERS TRANSMISSION SYSTEM TURBINE GENERATOR VOLTAGE WHOLESALE ELECTRICITY WIND WIND CAPACITY WIND DATA WIND ENERGY WIND FARMS WIND GENERATION WIND POWER WIND POWER DEVELOPMENT WIND POWER GENERATION WIND POWER PLANTS WIND POWER PRODUCTION WIND POWER RESOURCES WIND SPEED WIND SPEED MEASUREMENT WIND TURBINE WIND VARIABILITY World Bank A Guide to Operational Impact Analysis of Variable Renewables : Application to the Philippines |
geographic_facet |
East Asia and Pacific Philippines |
description |
This document serves as a guide for
those wishing to investigate the impacts of variable
renewable energy (VRE) on the operation of power systems,
particularly in the Philippines. The work was commissioned
by the World Bank in 2011 to enhance the understanding of
power system operation issues most affected by the
integration of VRE, based on international experience. The
objective is to build capacity in the Philippines for
determining the important issues for the national grid and
to enable the Philippines to design, carry out, and
interpret the results of appropriate and effective studies.
The approaches presented in this guide are based on
state-of-the-art international practices, adapted to suit
local conditions in the Philippines. The guide was
developed through a survey of international VRE integration
studies, charting the relevance to the Philippines of key
elements such as the physical structure of the power system,
the energy mix, expected level of VRE penetration, market
structure, and operation practices and standards. The study
guide shows how to estimate the amount of VRE that can be
integrated into the power system if no changes are made to
its present configuration; however, more important, it shows
how to determine the potential operational impacts if a
certain percentage of renewable energy resources are to be
integrated. The main modeling approaches, data
requirements, and scenarios that need to be analyzed to
assess different types of impacts are described, and are
supported by summaries of relevant international experience
and key reference studies. |
format |
Publications & Research :: ESMAP Paper |
author |
World Bank |
author_facet |
World Bank |
author_sort |
World Bank |
title |
A Guide to Operational Impact Analysis of Variable Renewables : Application to the Philippines |
title_short |
A Guide to Operational Impact Analysis of Variable Renewables : Application to the Philippines |
title_full |
A Guide to Operational Impact Analysis of Variable Renewables : Application to the Philippines |
title_fullStr |
A Guide to Operational Impact Analysis of Variable Renewables : Application to the Philippines |
title_full_unstemmed |
A Guide to Operational Impact Analysis of Variable Renewables : Application to the Philippines |
title_sort |
guide to operational impact analysis of variable renewables : application to the philippines |
publisher |
Washington, DC |
publishDate |
2014 |
url |
http://documents.worldbank.org/curated/en/2013/05/20382376/guide-operational-impact-analysis-variable-renewables-application-philippines http://hdl.handle.net/10986/20774 |
_version_ |
1764446704561553408 |
spelling |
okr-10986-207742021-04-23T14:03:59Z A Guide to Operational Impact Analysis of Variable Renewables : Application to the Philippines World Bank ALTERNATING CURRENT APPROACH AVAILABILITY BALANCE BIOMASS CAPACITY LEVELS CAPITAL COSTS CARBON CARBON PRICE CLIMATE CLIMATE CHANGE COAL COAL OIL COLORS CONGESTION CONTRACT CONDITIONS CONTRACTUAL AGREEMENTS CONVENTIONAL GENERATION CONVENTIONAL POWER PLANTS DIRECT CURRENT ECONOMIC GROWTH ELECTRIC POWER ELECTRIC POWER SYSTEM ELECTRIC TRANSMISSION ELECTRICITY ELECTRICITY GENERATION ELECTRICITY MARKET ELECTRICITY PRODUCTION ELECTRICITY SYSTEM ENERGY DEPARTMENT ENERGY MANAGEMENT ENERGY MIX ENERGY REGULATORY COMMISSION ENERGY SECTOR ENERGY SOLUTIONS ENERGY SOURCE ENERGY SOURCES FOSSIL FOSSIL FUEL FOSSIL FUEL PRICES FUTURE DEMAND GENERATION ASSETS GENERATION CAPACITY GENERATORS GOVERNMENT PLANS GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS EMISSIONS GRID CODE GRID COMPANY GRID ELECTRICITY GRID FREQUENCY GRID INTEGRATION GRID SYSTEMS HYDRO POWER INDUCTION INFRASTRUCTURE DEVELOPMENT INVERTERS IRRADIATION LOAD SHEDDING METEOROLOGY MODERN WIND TURBINES NATIONAL GRID NATURAL GAS NATURAL RESOURCES NATURAL-GAS NETWORK ELEMENTS OFFSHORE WIND OFFSHORE WIND FARMS OIL PEAK DEMAND PEAK DEMAND PERIODS PHOTOVOLTAIC POWER PLANT OUTPUT PLANT PERFORMANCE POWER POWER AVAILABILITY POWER CAPACITY POWER DEMAND POWER FLOWS POWER GENERATION POWER PLANT POWER PLANTS POWER SUPPLY POWER SYSTEM POWER SYSTEMS PP RELIABILITY OF SUPPLY RENEWABLE ENERGY RENEWABLE ENERGY CAPACITY RENEWABLE ENERGY DEVELOPMENT RENEWABLE ENERGY FUTURE RENEWABLE ENERGY PROGRAM RENEWABLE ENERGY RESOURCES RENEWABLE ENERGY SOURCES RENEWABLE GENERATION RENEWABLE PORTFOLIO STANDARD RENEWABLE RESOURCES SERVICE CONTRACTS SOLAR POWER SOLAR RADIATION SOLAR RADIATION DATA SPOT MARKET STORMS SUBSTATION EQUIPMENT SUMMER PEAK SUSTAINABLE ENERGY SYNCHRONOUS GENERATORS TRANSMISSION CAPACITY TRANSMISSION FACILITIES TRANSMISSION GRID TRANSMISSION INFRASTRUCTURE TRANSMISSION LINE TRANSMISSION LINES TRANSMISSION OWNERS TRANSMISSION SYSTEM TURBINE GENERATOR VOLTAGE WHOLESALE ELECTRICITY WIND WIND CAPACITY WIND DATA WIND ENERGY WIND FARMS WIND GENERATION WIND POWER WIND POWER DEVELOPMENT WIND POWER GENERATION WIND POWER PLANTS WIND POWER PRODUCTION WIND POWER RESOURCES WIND SPEED WIND SPEED MEASUREMENT WIND TURBINE WIND VARIABILITY This document serves as a guide for those wishing to investigate the impacts of variable renewable energy (VRE) on the operation of power systems, particularly in the Philippines. The work was commissioned by the World Bank in 2011 to enhance the understanding of power system operation issues most affected by the integration of VRE, based on international experience. The objective is to build capacity in the Philippines for determining the important issues for the national grid and to enable the Philippines to design, carry out, and interpret the results of appropriate and effective studies. The approaches presented in this guide are based on state-of-the-art international practices, adapted to suit local conditions in the Philippines. The guide was developed through a survey of international VRE integration studies, charting the relevance to the Philippines of key elements such as the physical structure of the power system, the energy mix, expected level of VRE penetration, market structure, and operation practices and standards. The study guide shows how to estimate the amount of VRE that can be integrated into the power system if no changes are made to its present configuration; however, more important, it shows how to determine the potential operational impacts if a certain percentage of renewable energy resources are to be integrated. The main modeling approaches, data requirements, and scenarios that need to be analyzed to assess different types of impacts are described, and are supported by summaries of relevant international experience and key reference studies. 2014-12-17T21:53:45Z 2014-12-17T21:53:45Z 2013-05 http://documents.worldbank.org/curated/en/2013/05/20382376/guide-operational-impact-analysis-variable-renewables-application-philippines http://hdl.handle.net/10986/20774 English en_US CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo/ Washington, DC Publications & Research :: ESMAP Paper East Asia and Pacific Philippines |