India : Energy-Efficient Street Lighting--Implementation and Financing Solutions

There has been a clear need for energy-efficient (EE) technologies that can be applicable in the municipal street lighting sector. The objective of this manual is to support the preparation and implementation of street lighting projects in India, u...

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Main Author:	World Bank
Format:	Report
Language:	English en_US
Published:	Washington, DC 2015
Subjects:	PUBLIC UTILITIES UTILITY BILL CARBON DIOXIDE ESP KILOWATT-HOUR QUALITY ENERGY GREENHOUSE GAS EMISSIONS ELECTRICITY TARIFF BUILDING MATERIALS TRAFFIC DENSITY VEHICLES ACTIVITIES ENERGY COST SAVINGS GENERATION COLLECTION SYSTEM LOCAL TRAFFIC WIND CLEAN ENERGY EMISSIONS COLLECTION METHODS ENERGY PRODUCTS ROADWAY GAS RENEWABLE ENERGY PRODUCTS COMPACT FLUORESCENT LAMPS TRAFFIC SAFETY STANDARDS PRICE EFFICIENCY IMPROVEMENT PEAK DEMAND RESIDENTIAL APPLICATIONS VOLTAGE ROUTES AIRPORTS DISTRIBUTION OF ELECTRICITY RENEWABLE ENERGY PRODUCT CONSUMPTION OF POWER GREENHOUSE GAS ELECTRICITY CONSUMPTION DRIVERS ELECTRIC UTILITY STREET LIGHTING PETROLEUM ENERGY POLICIES OIL PRICES ROAD EFFICIENCY IMPROVEMENTS COSTS PEDESTRIAN TRAFFIC OIL TRAINING EFFICIENT LIGHTING TRANSPORT ENERGY SOURCES SUSTAINABLE ENERGY POWER SECTOR ENERGY REQUIREMENTS RAW MATERIALS PETROLEUM EXPORTING COUNTRIES ENERGY SUPPLY PHOTOVOLTAIC APPLICATIONS PEAK HOURS OPTIONS WATER ROAD USERS ENERGY RESOURCES ENERGY AUDIT ELECTRICITY SUPPLY HIGH ENERGY POLLUTION APPLIANCE STANDARDS GAS EMISSIONS MODAL SHIFT CARBON EMISSIONS INFRASTRUCTURE EMISSIONS REDUCTIONS ENERGY SAVINGS TRAFFIC CONTROL ENERGY CONSUMPTION EMISSION INITIATIVES MINOR STREETS CONVENTIONAL LIGHTING HEAT POLICIES CLIMATE CHANGE BALANCE UTILITIES FLUORESCENT LAMPS POWER ELECTRICITY ENVIRONMENTAL IMPACTS ARTERIAL ROADS UTILITY PAYMENTS CITY STREETS HEAT RESISTANT PUBLIC TRANSPORT ELECTRICITY TARIFFS VEHICULAR TRAFFIC VALUE OF ENERGY SIGNALS ENERGY BILLS ENERGY USE ELECTRIC BILLS STREETS PILOT PROJECTS OM ROADS ENERGY EFFICIENCY ENERGY DEMAND ENERGY SYSTEMS RAILWAYS CARBON DIOXIDE EMISSION POWER CONSUMPTION ENERGY CONSERVATION INVESTMENT SOLAR LANTERNS ENERGY DEVELOPMENT ACCIDENTS PEAK VALUE PEDESTRIAN TARIFF ENERGY MANAGEMENT FATALITIES FUEL CARBON FINANCING AVAILABILITY FACILITIES URBAN STREET INVESTMENTS PEAK TRAFFIC PEDESTRIANS SODIUM RENEWABLE ENERGY ELECTRICITY DISTRIBUTION NOISE ROAD TRANSPORT SAFETY ENERGY USAGE ENERGY COSTS FUEL COST PRICES APPROACH ELECTRICAL POWER AMBIENT TEMPERATURE STREETLIGHTS OPEN CIRCUIT VOLTAGE ROAD TRAFFIC ENERGY
Online Access:	http://documents.worldbank.org/curated/en/2015/06/24724149/india-energy-efficient-street-lighting-implementation-financing-solutions http://hdl.handle.net/10986/22275

id	okr-10986-22275
recordtype	oai_dc
repository_type	Digital Repository
institution_category	Foreign Institution
institution	Digital Repositories
building	World Bank Open Knowledge Repository
collection	World Bank
language	English en_US
topic	PUBLIC UTILITIES UTILITY BILL CARBON DIOXIDE ESP KILOWATT-HOUR QUALITY ENERGY GREENHOUSE GAS EMISSIONS ELECTRICITY TARIFF BUILDING MATERIALS TRAFFIC DENSITY VEHICLES ACTIVITIES ENERGY COST SAVINGS GENERATION COLLECTION SYSTEM LOCAL TRAFFIC WIND CLEAN ENERGY EMISSIONS COLLECTION METHODS ENERGY PRODUCTS ROADWAY GAS RENEWABLE ENERGY PRODUCTS COMPACT FLUORESCENT LAMPS TRAFFIC SAFETY STANDARDS PRICE EFFICIENCY IMPROVEMENT PEAK DEMAND RESIDENTIAL APPLICATIONS VOLTAGE ROUTES AIRPORTS DISTRIBUTION OF ELECTRICITY RENEWABLE ENERGY PRODUCT CONSUMPTION OF POWER GREENHOUSE GAS ELECTRICITY CONSUMPTION DRIVERS ELECTRIC UTILITY STREET LIGHTING PETROLEUM ENERGY POLICIES OIL PRICES ROAD EFFICIENCY IMPROVEMENTS COSTS PEDESTRIAN TRAFFIC OIL TRAINING EFFICIENT LIGHTING TRANSPORT ENERGY SOURCES SUSTAINABLE ENERGY POWER SECTOR ENERGY REQUIREMENTS RAW MATERIALS PETROLEUM EXPORTING COUNTRIES ENERGY SUPPLY PHOTOVOLTAIC APPLICATIONS PEAK HOURS OPTIONS WATER ROAD USERS ENERGY RESOURCES ENERGY AUDIT ELECTRICITY SUPPLY HIGH ENERGY POLLUTION APPLIANCE STANDARDS GAS EMISSIONS MODAL SHIFT CARBON EMISSIONS INFRASTRUCTURE EMISSIONS REDUCTIONS ENERGY SAVINGS TRAFFIC CONTROL ENERGY CONSUMPTION EMISSION INITIATIVES MINOR STREETS CONVENTIONAL LIGHTING HEAT POLICIES CLIMATE CHANGE BALANCE UTILITIES FLUORESCENT LAMPS POWER ELECTRICITY ENVIRONMENTAL IMPACTS ARTERIAL ROADS UTILITY PAYMENTS CITY STREETS HEAT RESISTANT PUBLIC TRANSPORT ELECTRICITY TARIFFS VEHICULAR TRAFFIC VALUE OF ENERGY SIGNALS ENERGY BILLS ENERGY USE ELECTRIC BILLS STREETS PILOT PROJECTS OM ROADS ENERGY EFFICIENCY ENERGY DEMAND ENERGY SYSTEMS RAILWAYS CARBON DIOXIDE EMISSION POWER CONSUMPTION ENERGY CONSERVATION INVESTMENT SOLAR LANTERNS ENERGY DEVELOPMENT ACCIDENTS PEAK VALUE PEDESTRIAN TARIFF ENERGY MANAGEMENT FATALITIES FUEL CARBON FINANCING AVAILABILITY FACILITIES URBAN STREET INVESTMENTS PEAK TRAFFIC PEDESTRIANS SODIUM RENEWABLE ENERGY ELECTRICITY DISTRIBUTION NOISE ROAD TRANSPORT SAFETY ENERGY USAGE ENERGY COSTS FUEL COST PRICES APPROACH ELECTRICAL POWER AMBIENT TEMPERATURE STREETLIGHTS OPEN CIRCUIT VOLTAGE ROAD TRAFFIC ENERGY
spellingShingle	PUBLIC UTILITIES UTILITY BILL CARBON DIOXIDE ESP KILOWATT-HOUR QUALITY ENERGY GREENHOUSE GAS EMISSIONS ELECTRICITY TARIFF BUILDING MATERIALS TRAFFIC DENSITY VEHICLES ACTIVITIES ENERGY COST SAVINGS GENERATION COLLECTION SYSTEM LOCAL TRAFFIC WIND CLEAN ENERGY EMISSIONS COLLECTION METHODS ENERGY PRODUCTS ROADWAY GAS RENEWABLE ENERGY PRODUCTS COMPACT FLUORESCENT LAMPS TRAFFIC SAFETY STANDARDS PRICE EFFICIENCY IMPROVEMENT PEAK DEMAND RESIDENTIAL APPLICATIONS VOLTAGE ROUTES AIRPORTS DISTRIBUTION OF ELECTRICITY RENEWABLE ENERGY PRODUCT CONSUMPTION OF POWER GREENHOUSE GAS ELECTRICITY CONSUMPTION DRIVERS ELECTRIC UTILITY STREET LIGHTING PETROLEUM ENERGY POLICIES OIL PRICES ROAD EFFICIENCY IMPROVEMENTS COSTS PEDESTRIAN TRAFFIC OIL TRAINING EFFICIENT LIGHTING TRANSPORT ENERGY SOURCES SUSTAINABLE ENERGY POWER SECTOR ENERGY REQUIREMENTS RAW MATERIALS PETROLEUM EXPORTING COUNTRIES ENERGY SUPPLY PHOTOVOLTAIC APPLICATIONS PEAK HOURS OPTIONS WATER ROAD USERS ENERGY RESOURCES ENERGY AUDIT ELECTRICITY SUPPLY HIGH ENERGY POLLUTION APPLIANCE STANDARDS GAS EMISSIONS MODAL SHIFT CARBON EMISSIONS INFRASTRUCTURE EMISSIONS REDUCTIONS ENERGY SAVINGS TRAFFIC CONTROL ENERGY CONSUMPTION EMISSION INITIATIVES MINOR STREETS CONVENTIONAL LIGHTING HEAT POLICIES CLIMATE CHANGE BALANCE UTILITIES FLUORESCENT LAMPS POWER ELECTRICITY ENVIRONMENTAL IMPACTS ARTERIAL ROADS UTILITY PAYMENTS CITY STREETS HEAT RESISTANT PUBLIC TRANSPORT ELECTRICITY TARIFFS VEHICULAR TRAFFIC VALUE OF ENERGY SIGNALS ENERGY BILLS ENERGY USE ELECTRIC BILLS STREETS PILOT PROJECTS OM ROADS ENERGY EFFICIENCY ENERGY DEMAND ENERGY SYSTEMS RAILWAYS CARBON DIOXIDE EMISSION POWER CONSUMPTION ENERGY CONSERVATION INVESTMENT SOLAR LANTERNS ENERGY DEVELOPMENT ACCIDENTS PEAK VALUE PEDESTRIAN TARIFF ENERGY MANAGEMENT FATALITIES FUEL CARBON FINANCING AVAILABILITY FACILITIES URBAN STREET INVESTMENTS PEAK TRAFFIC PEDESTRIANS SODIUM RENEWABLE ENERGY ELECTRICITY DISTRIBUTION NOISE ROAD TRANSPORT SAFETY ENERGY USAGE ENERGY COSTS FUEL COST PRICES APPROACH ELECTRICAL POWER AMBIENT TEMPERATURE STREETLIGHTS OPEN CIRCUIT VOLTAGE ROAD TRAFFIC ENERGY World Bank India : Energy-Efficient Street Lighting--Implementation and Financing Solutions
geographic_facet	South Asia India
description	There has been a clear need for energy-efficient (EE) technologies that can be applicable in the municipal street lighting sector. The objective of this manual is to support the preparation and implementation of street lighting projects in India, using performance contracting and other public private partnership-based delivery approaches. This manual draws upon global best practices, including practices that have been tried and presented within India and South Asia; and draws from their failures and successes to document the major lessons learned. The manual provides a brief overall background of EE in India, the kind of barriers faced in the implementation of EE projects, and the kind of prevalent policy environment for EE in the country. The manual is divided into eight sections. Section one provides an overview of EE street lighting, its components, Indian standards for outdoor lighting, the key lamp technologies, and the potential for intelligent street lighting systems. Section two highlights the financial models for implementation of street lighting projects. Section three describes the essentials of undertaking a detailed energy audit to develop robust baselines. Section four focuses on procurement and contracting. Section five describes methodologies for developing monitoring and verification (M and V) protocols for EE Street lighting projects. Section six brings together the useful tools and matrices in implementation of street lighting projects. Section seven lists the key stakeholders involved in India in such projects and their potential role. Section eight provides details on international and Indian case studies on implementing EE in street lighting and key lessons from these case examples.
format	Report
author	World Bank
author_facet	World Bank
author_sort	World Bank
title	India : Energy-Efficient Street Lighting--Implementation and Financing Solutions
title_short	India : Energy-Efficient Street Lighting--Implementation and Financing Solutions
title_full	India : Energy-Efficient Street Lighting--Implementation and Financing Solutions
title_fullStr	India : Energy-Efficient Street Lighting--Implementation and Financing Solutions
title_full_unstemmed	India : Energy-Efficient Street Lighting--Implementation and Financing Solutions
title_sort	india : energy-efficient street lighting--implementation and financing solutions
publisher	Washington, DC
publishDate	2015
url	http://documents.worldbank.org/curated/en/2015/06/24724149/india-energy-efficient-street-lighting-implementation-financing-solutions http://hdl.handle.net/10986/22275
_version_	1764450681834438656
spelling	okr-10986-222752021-04-23T14:04:08Z India : Energy-Efficient Street Lighting--Implementation and Financing Solutions World Bank PUBLIC UTILITIES UTILITY BILL CARBON DIOXIDE ESP KILOWATT-HOUR QUALITY ENERGY GREENHOUSE GAS EMISSIONS ELECTRICITY TARIFF BUILDING MATERIALS TRAFFIC DENSITY VEHICLES ACTIVITIES ENERGY COST SAVINGS GENERATION COLLECTION SYSTEM LOCAL TRAFFIC WIND CLEAN ENERGY EMISSIONS COLLECTION METHODS ENERGY PRODUCTS ROADWAY GAS RENEWABLE ENERGY PRODUCTS COMPACT FLUORESCENT LAMPS TRAFFIC SAFETY STANDARDS PRICE EFFICIENCY IMPROVEMENT PEAK DEMAND RESIDENTIAL APPLICATIONS VOLTAGE ROUTES AIRPORTS DISTRIBUTION OF ELECTRICITY RENEWABLE ENERGY PRODUCT CONSUMPTION OF POWER GREENHOUSE GAS ELECTRICITY CONSUMPTION DRIVERS ELECTRIC UTILITY STREET LIGHTING PETROLEUM ENERGY POLICIES OIL PRICES ROAD EFFICIENCY IMPROVEMENTS COSTS PEDESTRIAN TRAFFIC OIL TRAINING EFFICIENT LIGHTING TRANSPORT ENERGY SOURCES SUSTAINABLE ENERGY POWER SECTOR ENERGY REQUIREMENTS RAW MATERIALS PETROLEUM EXPORTING COUNTRIES ENERGY SUPPLY PHOTOVOLTAIC APPLICATIONS PEAK HOURS OPTIONS WATER ROAD USERS ENERGY RESOURCES ENERGY AUDIT ELECTRICITY SUPPLY HIGH ENERGY POLLUTION APPLIANCE STANDARDS GAS EMISSIONS MODAL SHIFT CARBON EMISSIONS INFRASTRUCTURE EMISSIONS REDUCTIONS ENERGY SAVINGS TRAFFIC CONTROL ENERGY CONSUMPTION EMISSION INITIATIVES MINOR STREETS CONVENTIONAL LIGHTING HEAT POLICIES CLIMATE CHANGE BALANCE UTILITIES FLUORESCENT LAMPS POWER ELECTRICITY ENVIRONMENTAL IMPACTS ARTERIAL ROADS UTILITY PAYMENTS CITY STREETS HEAT RESISTANT PUBLIC TRANSPORT ELECTRICITY TARIFFS VEHICULAR TRAFFIC VALUE OF ENERGY SIGNALS ENERGY BILLS ENERGY USE ELECTRIC BILLS STREETS PILOT PROJECTS OM ROADS ENERGY EFFICIENCY ENERGY DEMAND ENERGY SYSTEMS RAILWAYS CARBON DIOXIDE EMISSION POWER CONSUMPTION ENERGY CONSERVATION INVESTMENT SOLAR LANTERNS ENERGY DEVELOPMENT ACCIDENTS PEAK VALUE PEDESTRIAN TARIFF ENERGY MANAGEMENT FATALITIES FUEL CARBON FINANCING AVAILABILITY FACILITIES URBAN STREET INVESTMENTS PEAK TRAFFIC PEDESTRIANS SODIUM RENEWABLE ENERGY ELECTRICITY DISTRIBUTION NOISE ROAD TRANSPORT SAFETY ENERGY USAGE ENERGY COSTS FUEL COST PRICES APPROACH ELECTRICAL POWER AMBIENT TEMPERATURE STREETLIGHTS OPEN CIRCUIT VOLTAGE ROAD TRAFFIC ENERGY There has been a clear need for energy-efficient (EE) technologies that can be applicable in the municipal street lighting sector. The objective of this manual is to support the preparation and implementation of street lighting projects in India, using performance contracting and other public private partnership-based delivery approaches. This manual draws upon global best practices, including practices that have been tried and presented within India and South Asia; and draws from their failures and successes to document the major lessons learned. The manual provides a brief overall background of EE in India, the kind of barriers faced in the implementation of EE projects, and the kind of prevalent policy environment for EE in the country. The manual is divided into eight sections. Section one provides an overview of EE street lighting, its components, Indian standards for outdoor lighting, the key lamp technologies, and the potential for intelligent street lighting systems. Section two highlights the financial models for implementation of street lighting projects. Section three describes the essentials of undertaking a detailed energy audit to develop robust baselines. Section four focuses on procurement and contracting. Section five describes methodologies for developing monitoring and verification (M and V) protocols for EE Street lighting projects. Section six brings together the useful tools and matrices in implementation of street lighting projects. Section seven lists the key stakeholders involved in India in such projects and their potential role. Section eight provides details on international and Indian case studies on implementing EE in street lighting and key lessons from these case examples. 2015-07-21T22:10:29Z 2015-07-21T22:10:29Z 2015-06 Report http://documents.worldbank.org/curated/en/2015/06/24724149/india-energy-efficient-street-lighting-implementation-financing-solutions http://hdl.handle.net/10986/22275 English en_US CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo/ World Bank Washington, DC Economic & Sector Work Economic & Sector Work :: Energy Study South Asia India

India : Energy-Efficient Street Lighting--Implementation and Financing Solutions

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