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世界のスマートシティのスマートエネルギー市場の分析と予測:分散エネルギー源統合のためのスマートグリッドと高度エネルギー技術

Smart Energy for Smart Cities

Smart Grid and Advanced Energy Technologies for Distributed Energy Resources Integration: Global Market Analysis and Forecasts

 

出版社 出版年月電子版価格 ページ数図表数
Guidehouse (旧Navigant Research)
ガイドハウス
2015年11月US$4,600
1-5ユーザライセンス
82 32

サマリー

米国調査会社ナビガントリサーチ(Navigant Research)の調査レポート「世界のスマートシティのスマートエネルギー市場の分析と予測:分散エネルギー源統合のためのスマートグリッドと高度エネルギー技術」は、世界のスマートシティのスマートエネルギー市場について、スマートグリッドと高度エネルギー技術に注目しつつ調査しています。スマートシティ技術のスマートエネルギーに関連する主要な市場促進要因と阻害要因、市場動向についても調査しています。2024年までの世界市場の収益をセグメント毎、用途毎、地域毎に予測し、スマートシティ市場のスマートエネルギの主要技術と市場の競争環境についても記載しています。

目次(抜粋)

  • スマートシティ技術のスマートエネルギー市場
  • スマートシティのスマートエネルギー技術とスマートグリッド
  • スマートシティのスマートエネルギーの市場
  • スマートシティのスマートエネルギーの市場動向
  • スマートシティのスマートエネルギーの地域毎の市場
  • 主要技術と主要企業
  • 世界の市場予測

As national governments release their plans to decrease carbon dependency and mitigate and adapt to climate change, city energy policies represent one of the most effective vehicles for meeting these goals. City leaders are assuming a more proactive role in the process of creating energy policies by developing comprehensive energy efficiency and carbon reduction goals. The result has been a number of ambitious energy projects supported by innovations in smart grid technology, demand management, alternative and renewable generation, and distributed energy resources (DER).

For cities and utilities, developing an effective cross-agency smart energy/smart city strategy enables the optimal use of energy resources and reduces redundant investments in infrastructure. Such a strategy also improves the quality of services offered to residential, public sector, and commercial energy users. However, the smart energy for smart cities vision has several economic and technical barriers that inhibit its current development. Alignment between stakeholders is not easily achieved due to the varying business models of cities, utilities, and private stakeholders. Moreover, technology and standards for interoperability are lagging behind the conceptual goals of the smart city. According to Navigant Research, global smart energy for smart cities technology revenue is expected to grow from $7.3 billion in 2015 to $20.9 billion in 2024.

This Navigant Research report analyzes the global smart energy for smart cities market, with a focus on two segments: smart grid and advanced energy technologies. The study investigates the key market drivers, barriers, dynamics, and regional trends related to smart energy for smart cities technology. Global market forecasts for revenue, broken out by segment, application, and region, extend through 2024. The report also examines the key technologies that constitute the smart energy for smart cities market, as well as the competitive landscape.

Key Questions Addressed:
  • Which technologies and business strategies support a smart energy project for smart cities?
  • What is the global market demand for smart energy in the context of smart cities?
  • How do cities, utilities, and private stakeholders approach the smart energy for smart cities market collaboratively?
  • What are some successful examples of smart city developments in smart energy?
  • How do advanced energy projects demand smart grid investments?
Who needs this report?
  • Software vendors
  • Communications vendors
  • Grid transmission and distribution (T&D) vendors
  • Smart grid services vendors
  • Smart city developers
  • Utilities
  • Municipalities
  • Investor community


目次

Table of Contents

1. Executive Summary

1.1  Smart Energy Key to Smart Cities

1.2  Smart Energy for Smart Cities Technology Market

2. Market Issues                   

2.1  Introduction

2.2  The Energy Cloud: Technology and Paradigm Shifts for Cities and Energy

2.3  Smart Energy Technologies and Smart Grids for  Smart Cities

2.3.1  Smart Grid

2.3.2  Advanced Energy Technologies

2.3.3  Smart City Infrastructure

2.4  Market Drivers

2.4.1  Integrating DER

2.4.2  Improving City and Grid Resilience

2.4.3  Supporting City and Citizen Agendas

2.4.4  Expanding Utility Businesses in Clean Energy

2.4.5  Addressing Energy Poverty

2.4.6  Regenerating Cities

2.4.7  Providing Better Access and Support for Clean and Renewable Energy

2.4.8  Encouraging Remunicipalization

2.5  Market Barriers

2.5.1  Financial and Business Risk

2.5.2  Regulatory Hurdles

2.5.3  City and Utility Silos

2.5.4  Limited Access to Data

2.6  Market Dynamics

2.6.1  Utility and City Dynamics

2.6.2  Vendor Dynamics

3. Regional Trends  

3.1  Introduction

3.2  North America

3.2.1  Energy and Sustainability Policy & Objectives

3.2.1.1  United States

3.2.1.2  Canada

3.2.2  Growth of DER

3.2.3  EV Charging Infrastructure and Vehicle Grid Integration

3.2.4  Smart Grids and Smart Cities: Overview and Projects

3.2.4.1  Charlotte, North Carolina

3.2.4.2  San Diego, California

3.2.4.3  Chicago, Illinois

3.2.4.4  New York, New York

3.3  Europe

3.3.1  Energy and Sustainability Policy & Objectives

3.3.2  EVs a Major Market to Drive Grid Investments

3.3.3  Renewables and DG Key to Evolving Energy Policy

3.3.4  Smart Grids and Smart Cities

3.3.5  Country-Level Analysis and Projects

3.3.5.1  United Kingdom

3.3.5.2  Germany

3.3.5.3  France

3.3.5.4  Netherlands

3.4  Asia Pacific

3.4.1  Urbanization and Development of Basic Infrastructure

3.4.2  Country-Level Analysis and Projects

3.4.2.1  Japan

3.4.2.2  South Korea

3.4.2.3  China

3.4.2.4  India

3.4.2.4.1.  100 Smart Cities Program

3.4.2.5  Australia and New Zealand

3.5  Latin America

3.5.1  Urbanization

3.5.2  Energy and Sustainability Policy & Objectives

3.5.3  Smart Grids and Smart Cities: Overview and Case Studies

3.5.3.1  Mexico

3.5.3.2  Brazil

3.6  Middle East

3.6.1  Energy and Sustainability Policy & Objectives

3.6.2  Country-Level Activity

3.6.2.1  UAE

3.6.2.2  Saudi Arabia

3.6.2.3  Qatar

3.7  Africa

4. Technology Issues

4.1  Introduction

4.2  Information and Communications Technologies

4.2.1  Constructing the Energy Cloud

4.2.2  Networking and Communications Technologies

4.2.2.1  Public Cellular for Wide-Area Networks

4.2.2.2  AMI for Wide-Area Networks

4.2.2.3  Wi-Fi and Ethernet for Local Area Networks

4.2.3  Information Technologies

4.2.3.1  Data Management

4.2.3.2  Analytics

4.2.4  Standards and Interoperability

5. Key Industry Players

5.1  Smart Energy for Smart Cities Players

5.1.1  ABB

5.1.2  Accenture

5.1.3  AT&T

5.1.4  Cisco Systems

5.1.5  Hitachi

5.1.6  Huawei

5.1.7  Itron

5.1.8  Oracle

5.1.9  S&C Electric Company

5.1.10  SAP

5.1.11  Schneider Electric

5.1.12  Siemens

5.1.13  SSN

5.1.14  Toshiba

5.2  Utilities and Electric Service Providers

5.2.1  ComEd (Exelon)

5.2.2  Duke Energy

5.2.3  Electric Power Board of Chattanooga

5.2.4  E.ON

5.2.5  Tennessee Valley Authority

5.2.6  TEPCO

6. Market Forecasts

6.1  Forecast Methodology

6.2  Global Market Forecast

6.2.1  North America

6.2.2  Europe

6.2.3  Asia Pacific

6.2.4  Latin America

6.2.5  Middle East & Africa

6.3  Conclusions and Recommendations

7. Company Directory
8. Acronym and Abbreviation List
9. Table of Contents
10. Table of Charts and Figures
11. Scope of Study, Sources and Methodology, Notes

List of Charts and Figures

  • Annual Smart Energy for Smart Cities Technology Revenue by Region, World Markets: 2015-2024    
  • Annual Smart Energy for Smart Cities Technology Revenue by Segment, North America: 2015-2024
  • Annual Smart Energy for Smart Cities Technology Revenue by Segment, Europe: 2015-2024
  • Annual Smart Energy for Smart Cities Technology Revenue by Segment, Asia Pacific: 2015-2024
  • Annual Smart Energy for Smart Cities Technology Revenue by Segment, Latin America: 2015-2024
  • Annual Smart Energy for Smart Cities Technology Revenue by Segment, Middle East & Africa: 2015-2024
  • Annual Smart Grid for Smart Cities Technology Revenue by Region, World Markets: 2015-2024
  • Annual Advanced Energy Technologies for Smart Cities Revenue by Region, World Markets: 2015-2024
  • Smart Energy for Smart Cities Value Applications
  • Smart Energy for Smart Cities Integrated Value Network
  • Billion-Dollar Disaster Event Types by Year, United States: 1980-2014
  • Framework for IoT Integration

List of Tables

  • Top 20 At-Risk Cities from Climate Change: 2005 and 2070
  • Annual Smart Energy for Smart Cities Technology Revenue by Region, World Markets: 2015-2024
  • Cumulative Smart Energy for Smart Cities Technology Revenue by Application, All Regions: 2015-2024
  • Annual Smart Grid for Smart Cities Technology Revenue by Region, World Markets: 2015-2024
  • Annual Advanced Energy Technologies for Smart Cities Revenue by Region, World Markets: 2015-2024
  • Annual Smart Energy for Smart Cities Technology Revenue by Segment, North America: 2015-2024
  • Annual Smart Grid for Smart Cities Technology Revenue by Application, North America: 2015-2024
  • Annual Advanced Energy Technologies for Smart Cities Revenue by Application, North America: 2015-2024
  • Annual Smart Energy for Smart Cities Technology Revenue by Segment, Europe: 2015-2024
  • Annual Smart Grid for Smart Cities Technology Revenue by Application, Europe: 2015-2024
  • Annual Advanced Energy Technologies for Smart Cities Revenue by Application, Europe: 2015-2024
  • Annual Smart Energy for Smart Cities Technology Revenue by Segment, Asia Pacific: 2015-2024
  • Annual Smart Grid for Smart Cities Technology Revenue by Application, Asia Pacific: 2015-2024
  • Annual Advanced Energy Technologies for Smart Cities Revenue by Application, Asia Pacific: 2015-2024
  • Annual Smart Energy for Smart Cities Technology Revenue by Segment, Latin America: 2015-2024
  • Annual Smart Grid for Smart Cities Technology Revenue by Application, Latin America: 2015-2024
  • Annual Advanced Energy Technologies for Smart Cities Revenue by Application, Latin America: 2015-2024
  • Annual Smart Energy for Smart Cities Technology Revenue by Segment, Middle East & Africa: 2015-2024
  • Annual Smart Grid for Smart Cities Technology Revenue by Application, Middle East & Africa: 2015-2024
  • Annual Advanced Energy Technologies for Smart Cities Revenue by Application, Middle East & Africa: 2015-2024

 

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プレスリリース

[プレスリリース原文]

The Global Smart Energy for Smart Cities Technology Market Is Expected to Total $136.9 Billion from 2015 to 2024

Smart energy/smart city strategies benefit utilities and cities by streamlining resources

July 15, 2016

A recent report from Navigant Research examines the smart energy for smart cities market, focusing on the smart grid and advanced energy technologies segments, with global market forecasts for revenue, through 2024.

The movement toward smart grids is increasingly focused on the ability to effectively manage distributed energy resources (DER) within a city. Smart grid technologies are enabling unprecedented energy efficiency improvements, as well as dynamic forms of demand management and integration of distributed renewable energy resources.  According to a recent report from Navigant Research, the smart cities technology market is expected to total $136.9 billion from 2015 to 2024.

“Smart cities are emerging as an important force in implementing the Energy Cloud philosophy across different sectors such as transportation, public and private institutions and buildings, and land use and development,” says Lauren Callaway, research analyst with Navigant Research. “For utilities, this creates myriad opportunities to test and deploy new technologies, services, and business models.”

For utilities and cities, developing an effective cross-agency smart energy/smart city strategy enables the optimal use of citizen and city-owned energy resources and reduces redundant investments in infrastructure, according to the report. Such a strategy also promotes customer engagement, thus improving quality of service and expanding the services offered to residential, public sector, and commercial energy users.

The report, Smart Energy for Smart Cities, analyzes the global smart energy for smart cities market, with a focus on two segments: smart grid and advanced energy technologies. The study investigates the key market drivers, barriers, dynamics, and regional trends related to smart energy for smart cities technology. Global market forecasts for revenue, broken out by segment, application, and region, extend through 2024. The report also examines the key technologies that constitute the smart energy for smart cities market, as well as the competitive landscape.

 

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