Incorporating Energy from Renewable Resources into Power System Planning

Incorporating Energy from Renewable Resources into Power System Planning

Incorporating energy from renewable resources into power system planning is an important issue. As countries generate more energy from renewable sources, that energy must become part of the power-system planning process. In 2004, investments in all forms of clean energy represented about 20 percent of total global investment in generation capacity. By 2011, that share had topped 40 percent. This paper explains the various reasons behind the push for renewable sources, chief among them being reducing climate-altering emissions. The paper answers the following questions giving a brief synopsis of each: What is the key challenge? What solutions are available? What are the key lessons learned. A few case studies are also used throughout to illustrate key points.

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Bibliographic Details
Main Authors: Madrigal, Marcellino, Jordan, Rhonda Lenai
Format: Brief biblioteca
Language:English
en_US
Published: World Bank, Washington, DC 2014-12
Subjects:APPROACH, BIOMASS, BORDER TRADE, BOTTOM LINE, CAPACITY EXPANSION, CARBON, CARBON EMISSIONS, CLEAN ENERGY, CLIMATE, ECONOMIC IMPACTS, ELECTRICAL POWER, ELECTRICITY, ELECTRICITY SYSTEM, ELECTRICITY TECHNOLOGY, ENERGY PLANNING, ENERGY PRODUCTION, ENERGY RESOURCES, ENERGY SOURCES, ENERGY SYSTEMS, FEASIBILITY, FOSSIL, FOSSIL FUELS, FUEL, FUEL COSTS, FUTURE DEMAND, GENERATING CAPACITY, GENERATION, GENERATION CAPACITY, GENERATION EXPANSION, GENERATORS, HYDRO POWER, HYDROPOWER, HYDROPOWER PLANT, INVESTMENT PLANNING, LOAD PATTERN, MAINTENANCE COSTS, PEAK DEMAND, PEAK DEMAND PERIODS, PHOTOVOLTAICS, POWER, POWER GRID, POWER PRODUCTION, POWER SECTOR, POWER SECTOR PLANNING, POWER SOURCES, POWER SYSTEM, POWER SYSTEM PLANNING, POWER SYSTEMS, PP, RENEWABLE ENERGY, RENEWABLE ENERGY SOURCES, RENEWABLE POWER, RENEWABLE PRODUCTION, RENEWABLE RESOURCE, RENEWABLE RESOURCES, RENEWABLE SOURCES, RESERVE MARGIN, RESERVE REQUIREMENTS, SIMULATION, SOLAR POWER, SOLAR RESOURCES, THERMAL PLANTS, THERMAL POWER, THERMAL POWER PLANTS, THERMAL UNIT, UTILITIES, WIND, WIND BLOWS, WIND ENERGY, WIND GENERATION, WIND POWER, WIND POWER GENERATION, WINDS,
Online Access:http://documents.worldbank.org/curated/en/2014/12/24084923/incorporating-energy-renewable-resources-power-system-planning
http://hdl.handle.net/10986/21575
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spelling dig-okr-10986215752021-04-23T14:04:03Z Incorporating Energy from Renewable Resources into Power System Planning Madrigal, Marcellino Jordan, Rhonda Lenai APPROACH BIOMASS BORDER TRADE BOTTOM LINE CAPACITY EXPANSION CARBON CARBON EMISSIONS CLEAN ENERGY CLIMATE ECONOMIC IMPACTS ELECTRICAL POWER ELECTRICITY ELECTRICITY SYSTEM ELECTRICITY TECHNOLOGY ENERGY PLANNING ENERGY PRODUCTION ENERGY RESOURCES ENERGY SOURCES ENERGY SYSTEMS FEASIBILITY FOSSIL FOSSIL FUELS FUEL FUEL COSTS FUTURE DEMAND GENERATING CAPACITY GENERATION GENERATION CAPACITY GENERATION EXPANSION GENERATORS HYDRO POWER HYDROPOWER HYDROPOWER PLANT INVESTMENT PLANNING LOAD PATTERN MAINTENANCE COSTS PEAK DEMAND PEAK DEMAND PERIODS PHOTOVOLTAICS POWER POWER GRID POWER PRODUCTION POWER SECTOR POWER SECTOR PLANNING POWER SOURCES POWER SYSTEM POWER SYSTEM PLANNING POWER SYSTEMS PP RENEWABLE ENERGY RENEWABLE ENERGY SOURCES RENEWABLE POWER RENEWABLE PRODUCTION RENEWABLE RESOURCE RENEWABLE RESOURCES RENEWABLE SOURCES RESERVE MARGIN RESERVE REQUIREMENTS SIMULATION SOLAR POWER SOLAR RESOURCES THERMAL PLANTS THERMAL POWER THERMAL POWER PLANTS THERMAL UNIT UTILITIES WIND WIND BLOWS WIND ENERGY WIND GENERATION WIND POWER WIND POWER GENERATION WINDS Incorporating energy from renewable resources into power system planning is an important issue. As countries generate more energy from renewable sources, that energy must become part of the power-system planning process. In 2004, investments in all forms of clean energy represented about 20 percent of total global investment in generation capacity. By 2011, that share had topped 40 percent. This paper explains the various reasons behind the push for renewable sources, chief among them being reducing climate-altering emissions. The paper answers the following questions giving a brief synopsis of each: What is the key challenge? What solutions are available? What are the key lessons learned. A few case studies are also used throughout to illustrate key points. 2015-03-10T21:29:52Z 2015-03-10T21:29:52Z 2014-12 Brief http://documents.worldbank.org/curated/en/2014/12/24084923/incorporating-energy-renewable-resources-power-system-planning http://hdl.handle.net/10986/21575 English en_US Live Wire, 2014/17 CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo/ World Bank, Washington, DC Publications & Research Publications & Research :: Brief
institution Banco Mundial
collection DSpace
country Estados Unidos
countrycode US
component Bibliográfico
access En linea
databasecode dig-okr
tag biblioteca
region America del Norte
libraryname Biblioteca del Banco Mundial
language English
en_US
topic APPROACH
BIOMASS
BORDER TRADE
BOTTOM LINE
CAPACITY EXPANSION
CARBON
CARBON EMISSIONS
CLEAN ENERGY
CLIMATE
ECONOMIC IMPACTS
ELECTRICAL POWER
ELECTRICITY
ELECTRICITY SYSTEM
ELECTRICITY TECHNOLOGY
ENERGY PLANNING
ENERGY PRODUCTION
ENERGY RESOURCES
ENERGY SOURCES
ENERGY SYSTEMS
FEASIBILITY
FOSSIL
FOSSIL FUELS
FUEL
FUEL COSTS
FUTURE DEMAND
GENERATING CAPACITY
GENERATION
GENERATION CAPACITY
GENERATION EXPANSION
GENERATORS
HYDRO POWER
HYDROPOWER
HYDROPOWER PLANT
INVESTMENT PLANNING
LOAD PATTERN
MAINTENANCE COSTS
PEAK DEMAND
PEAK DEMAND PERIODS
PHOTOVOLTAICS
POWER
POWER GRID
POWER PRODUCTION
POWER SECTOR
POWER SECTOR PLANNING
POWER SOURCES
POWER SYSTEM
POWER SYSTEM PLANNING
POWER SYSTEMS
PP
RENEWABLE ENERGY
RENEWABLE ENERGY SOURCES
RENEWABLE POWER
RENEWABLE PRODUCTION
RENEWABLE RESOURCE
RENEWABLE RESOURCES
RENEWABLE SOURCES
RESERVE MARGIN
RESERVE REQUIREMENTS
SIMULATION
SOLAR POWER
SOLAR RESOURCES
THERMAL PLANTS
THERMAL POWER
THERMAL POWER PLANTS
THERMAL UNIT
UTILITIES
WIND
WIND BLOWS
WIND ENERGY
WIND GENERATION
WIND POWER
WIND POWER GENERATION
WINDS
APPROACH
BIOMASS
BORDER TRADE
BOTTOM LINE
CAPACITY EXPANSION
CARBON
CARBON EMISSIONS
CLEAN ENERGY
CLIMATE
ECONOMIC IMPACTS
ELECTRICAL POWER
ELECTRICITY
ELECTRICITY SYSTEM
ELECTRICITY TECHNOLOGY
ENERGY PLANNING
ENERGY PRODUCTION
ENERGY RESOURCES
ENERGY SOURCES
ENERGY SYSTEMS
FEASIBILITY
FOSSIL
FOSSIL FUELS
FUEL
FUEL COSTS
FUTURE DEMAND
GENERATING CAPACITY
GENERATION
GENERATION CAPACITY
GENERATION EXPANSION
GENERATORS
HYDRO POWER
HYDROPOWER
HYDROPOWER PLANT
INVESTMENT PLANNING
LOAD PATTERN
MAINTENANCE COSTS
PEAK DEMAND
PEAK DEMAND PERIODS
PHOTOVOLTAICS
POWER
POWER GRID
POWER PRODUCTION
POWER SECTOR
POWER SECTOR PLANNING
POWER SOURCES
POWER SYSTEM
POWER SYSTEM PLANNING
POWER SYSTEMS
PP
RENEWABLE ENERGY
RENEWABLE ENERGY SOURCES
RENEWABLE POWER
RENEWABLE PRODUCTION
RENEWABLE RESOURCE
RENEWABLE RESOURCES
RENEWABLE SOURCES
RESERVE MARGIN
RESERVE REQUIREMENTS
SIMULATION
SOLAR POWER
SOLAR RESOURCES
THERMAL PLANTS
THERMAL POWER
THERMAL POWER PLANTS
THERMAL UNIT
UTILITIES
WIND
WIND BLOWS
WIND ENERGY
WIND GENERATION
WIND POWER
WIND POWER GENERATION
WINDS
spellingShingle APPROACH
BIOMASS
BORDER TRADE
BOTTOM LINE
CAPACITY EXPANSION
CARBON
CARBON EMISSIONS
CLEAN ENERGY
CLIMATE
ECONOMIC IMPACTS
ELECTRICAL POWER
ELECTRICITY
ELECTRICITY SYSTEM
ELECTRICITY TECHNOLOGY
ENERGY PLANNING
ENERGY PRODUCTION
ENERGY RESOURCES
ENERGY SOURCES
ENERGY SYSTEMS
FEASIBILITY
FOSSIL
FOSSIL FUELS
FUEL
FUEL COSTS
FUTURE DEMAND
GENERATING CAPACITY
GENERATION
GENERATION CAPACITY
GENERATION EXPANSION
GENERATORS
HYDRO POWER
HYDROPOWER
HYDROPOWER PLANT
INVESTMENT PLANNING
LOAD PATTERN
MAINTENANCE COSTS
PEAK DEMAND
PEAK DEMAND PERIODS
PHOTOVOLTAICS
POWER
POWER GRID
POWER PRODUCTION
POWER SECTOR
POWER SECTOR PLANNING
POWER SOURCES
POWER SYSTEM
POWER SYSTEM PLANNING
POWER SYSTEMS
PP
RENEWABLE ENERGY
RENEWABLE ENERGY SOURCES
RENEWABLE POWER
RENEWABLE PRODUCTION
RENEWABLE RESOURCE
RENEWABLE RESOURCES
RENEWABLE SOURCES
RESERVE MARGIN
RESERVE REQUIREMENTS
SIMULATION
SOLAR POWER
SOLAR RESOURCES
THERMAL PLANTS
THERMAL POWER
THERMAL POWER PLANTS
THERMAL UNIT
UTILITIES
WIND
WIND BLOWS
WIND ENERGY
WIND GENERATION
WIND POWER
WIND POWER GENERATION
WINDS
APPROACH
BIOMASS
BORDER TRADE
BOTTOM LINE
CAPACITY EXPANSION
CARBON
CARBON EMISSIONS
CLEAN ENERGY
CLIMATE
ECONOMIC IMPACTS
ELECTRICAL POWER
ELECTRICITY
ELECTRICITY SYSTEM
ELECTRICITY TECHNOLOGY
ENERGY PLANNING
ENERGY PRODUCTION
ENERGY RESOURCES
ENERGY SOURCES
ENERGY SYSTEMS
FEASIBILITY
FOSSIL
FOSSIL FUELS
FUEL
FUEL COSTS
FUTURE DEMAND
GENERATING CAPACITY
GENERATION
GENERATION CAPACITY
GENERATION EXPANSION
GENERATORS
HYDRO POWER
HYDROPOWER
HYDROPOWER PLANT
INVESTMENT PLANNING
LOAD PATTERN
MAINTENANCE COSTS
PEAK DEMAND
PEAK DEMAND PERIODS
PHOTOVOLTAICS
POWER
POWER GRID
POWER PRODUCTION
POWER SECTOR
POWER SECTOR PLANNING
POWER SOURCES
POWER SYSTEM
POWER SYSTEM PLANNING
POWER SYSTEMS
PP
RENEWABLE ENERGY
RENEWABLE ENERGY SOURCES
RENEWABLE POWER
RENEWABLE PRODUCTION
RENEWABLE RESOURCE
RENEWABLE RESOURCES
RENEWABLE SOURCES
RESERVE MARGIN
RESERVE REQUIREMENTS
SIMULATION
SOLAR POWER
SOLAR RESOURCES
THERMAL PLANTS
THERMAL POWER
THERMAL POWER PLANTS
THERMAL UNIT
UTILITIES
WIND
WIND BLOWS
WIND ENERGY
WIND GENERATION
WIND POWER
WIND POWER GENERATION
WINDS
Madrigal, Marcellino
Jordan, Rhonda Lenai
Incorporating Energy from Renewable Resources into Power System Planning
description Incorporating energy from renewable resources into power system planning is an important issue. As countries generate more energy from renewable sources, that energy must become part of the power-system planning process. In 2004, investments in all forms of clean energy represented about 20 percent of total global investment in generation capacity. By 2011, that share had topped 40 percent. This paper explains the various reasons behind the push for renewable sources, chief among them being reducing climate-altering emissions. The paper answers the following questions giving a brief synopsis of each: What is the key challenge? What solutions are available? What are the key lessons learned. A few case studies are also used throughout to illustrate key points.
format Brief
topic_facet APPROACH
BIOMASS
BORDER TRADE
BOTTOM LINE
CAPACITY EXPANSION
CARBON
CARBON EMISSIONS
CLEAN ENERGY
CLIMATE
ECONOMIC IMPACTS
ELECTRICAL POWER
ELECTRICITY
ELECTRICITY SYSTEM
ELECTRICITY TECHNOLOGY
ENERGY PLANNING
ENERGY PRODUCTION
ENERGY RESOURCES
ENERGY SOURCES
ENERGY SYSTEMS
FEASIBILITY
FOSSIL
FOSSIL FUELS
FUEL
FUEL COSTS
FUTURE DEMAND
GENERATING CAPACITY
GENERATION
GENERATION CAPACITY
GENERATION EXPANSION
GENERATORS
HYDRO POWER
HYDROPOWER
HYDROPOWER PLANT
INVESTMENT PLANNING
LOAD PATTERN
MAINTENANCE COSTS
PEAK DEMAND
PEAK DEMAND PERIODS
PHOTOVOLTAICS
POWER
POWER GRID
POWER PRODUCTION
POWER SECTOR
POWER SECTOR PLANNING
POWER SOURCES
POWER SYSTEM
POWER SYSTEM PLANNING
POWER SYSTEMS
PP
RENEWABLE ENERGY
RENEWABLE ENERGY SOURCES
RENEWABLE POWER
RENEWABLE PRODUCTION
RENEWABLE RESOURCE
RENEWABLE RESOURCES
RENEWABLE SOURCES
RESERVE MARGIN
RESERVE REQUIREMENTS
SIMULATION
SOLAR POWER
SOLAR RESOURCES
THERMAL PLANTS
THERMAL POWER
THERMAL POWER PLANTS
THERMAL UNIT
UTILITIES
WIND
WIND BLOWS
WIND ENERGY
WIND GENERATION
WIND POWER
WIND POWER GENERATION
WINDS
author Madrigal, Marcellino
Jordan, Rhonda Lenai
author_facet Madrigal, Marcellino
Jordan, Rhonda Lenai
author_sort Madrigal, Marcellino
title Incorporating Energy from Renewable Resources into Power System Planning
title_short Incorporating Energy from Renewable Resources into Power System Planning
title_full Incorporating Energy from Renewable Resources into Power System Planning
title_fullStr Incorporating Energy from Renewable Resources into Power System Planning
title_full_unstemmed Incorporating Energy from Renewable Resources into Power System Planning
title_sort incorporating energy from renewable resources into power system planning
publisher World Bank, Washington, DC
publishDate 2014-12
url http://documents.worldbank.org/curated/en/2014/12/24084923/incorporating-energy-renewable-resources-power-system-planning
http://hdl.handle.net/10986/21575
work_keys_str_mv AT madrigalmarcellino incorporatingenergyfromrenewableresourcesintopowersystemplanning
AT jordanrhondalenai incorporatingenergyfromrenewableresourcesintopowersystemplanning
_version_ 1756573953024851968

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