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市场调查报告书

商用热源供给 (CHP)系统:全球市场 2022年

Commercial Combined Heat and Power (CHP): Global Markets to 2022

出版商 BCC Research 商品编码 584362
出版日期 内容信息 英文 150 Pages
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商用热源供给 (CHP)系统:全球市场 2022年 Commercial Combined Heat and Power (CHP): Global Markets to 2022
出版日期: 2017年11月27日 内容信息: 英文 150 Pages
简介

全球商用热源供给 (CHP)系统市场,预计从2017到2022年以5.2%的年复合成长率发展,预计从2017年的202亿美元到2022年以261亿美元的规模成长。

本报告提供全球商用热源供给 (CHP)系统市场相关调查,市场概要,市场趋势与年复合成长率预测,各应用、技术、燃料、设备、地区的市场分析,市场动态的详细分析,市场策略、产品销售、M&A相关信息,及主要企业简介等汇整。

第1章 简介

第2章 摘要、亮点

第3章 市场、技术背景

  • 美国的天然气的丰富的供给、低价格
  • 能源部门分析

第4章 市场分析:各终端用户部门

  • 产业
  • 商业
  • 地区能源CHP

第5章 市场分析:各技术

  • 复合循环技术
  • 往复式引擎技术
  • 蒸汽轮机技术
  • 燃气涡轮机技术
  • 其他
    • 微CHP技术

第6章 市场分析:各设备

  • 天然气、蒸汽轮机
  • 发电机
  • 储能系统
  • 蒸汽锅炉
  • 燃料供给系统
  • 废气控制
  • 控制系统

第7章 市场分析:各种燃料

  • 石油
  • 天然气
  • 煤炭
  • 生物质
  • 其他

第8章 市场分析:各地区

  • 北美
  • 欧洲
  • 亚太地区
  • 其他

第9章 企业简介

关于BCC Research

目录
Product Code: EGY141A

Report Highlights

The global market for commercial combined heat and power (CHP) systems should reach $26.1 billion by 2022 from $20.2 billion in 2017 at a compound annual growth rate (CAGR) of 5.2%, from 2017 to 2022.

Report Includes:

  • An overview of the global commercial combined heat and power (CHP) market
  • Analyses of global market trends, with data from 2016, estimates for 2017, and projections of compound annual growth rates (CAGRs) through 2022
  • Breakdown of the market by application, technology, fuel, equipment, and geography
  • Detailed analysis pertaining to the market's dynamics, including growth driving factors, restraints, challenges, and opportunities
  • Information regarding market strategies, product launches, and mergers and acquisitions
  • Profiles of major players in the industry

Report Scope

The CHP system reduces the cost of electricity and heat production by increasing the thermal efficiency of the system. The CHP systems are used in industrial, commercial and residential applications. The report segments the market on the basis of end-use sector, fuel type, technology and equipment. The key technologies used in CHP systems are also covered at length. The report focuses on energy conservation technologies as well.

All major markets are further segmented on geography basis. The major geography covered in the report are North America, Europe, Asia-Pacific (APAC) and the Rest of World (RoW). Furthermore, a country specific breakdown of the CHP system market is also included in the report. Values were estimated on the basis of cumulative CHP installed capacity, annual CHP installed capacity, various application markets, average cost of technology and revenue generated from the sale of various equipment and services. The study covers the global commercial CHP market irrespective of the included countries. Countries were included mainly on the basis of total revenue generated. Major countries included in the report are the U.S., Canada, Germany, the U.K., Spain, Italy, France, China, Japan and India.

Estimated values used are based on manufacturers' total revenues and forecasted revenue values are in constant U.S. dollars, unadjusted for inflation. Unit volumes of energy production as well as revenue generated from the sale of CHP systems and services were tracked in order to estimate the market. A large number of manufacturers as well as end users are profiled in the report for a better understanding of the market.

This report on the commercial CHP market provides a market overview, assesses application markets, provides an end user analysis, and evaluates the CHP market by technology, fuel type and geographical region. The major companies are profiled, and includes a detailed introduction, product portfolios and recent developments for each.

Analyst Credentials

Mohammed Javed has a master's degree in marketing management and more than four years of experience performing market research and consulting in various domains, such as chemical, biotechnology, medical devices, healthcare IT, energy, food and beverages, cloud and big data, and advanced materials.

Table of Contents

Chapter 1: Introduction

  • Study Goals and Objectives
  • Reasons for Doing This Study
  • Scope of Report
  • Information Sources
  • Methodology
  • Geographic Breakdown
  • Analyst's Credentials
  • Related BCC Research Reports

    Chapter 2: Summary and Highlights

Chapter 3: Market and Technology Background

  • Abundant Supply and Low Price of Natural Gas in the U.S
    • Progressive Government Policies
  • Energy Sector Analysis
    • Renewable Sources
    • Nonrenewable Sources of Energy

Chapter 4: Market Breakdown by End-use Sector

  • Industrial
  • Commercial
  • District Energy CHP

Chapter 5: Market Breakdown by Technology

  • Combined Cycle Technology
  • Reciprocating Engine Technology
  • Steam Turbine Technology
  • Gas Turbine Technology
  • Others
    • Micro-CHP Technology

Chapter 6: Market Breakdown by Equipment

  • Gas and Steam Turbines
  • Generator Sets
  • Energy Storage Systems
  • Steam Boilers
  • Fuel Feed Systems
  • Emission Controls
  • Control Systems

Chapter 7: Market Breakdown by Fuel

  • Oil
  • Natural Gas
  • Coal
  • Biomass
  • Others

Chapter 8: Market Breakdown by Region

  • North America
    • United States
    • Canada
  • Europe
    • Germany
    • France
    • United Kingdom
  • Asia-Pacific
    • Renewable Energy
    • Japan
    • China
    • India
  • Rest of the World
    • ROW CO2 Emissions
    • District Cooling in the Middle East
    • Brazil
    • South Africa

Chapter 9: Company Profiles

About BCC Research

  • About BCC Research
  • BCC Membership
  • BCC Custom Research

List of Tables

  • Summary Table: Global Market for CHP Systems, by End-use Sector, Through 2022 ($ Millions)
    • Table 1: Advantages and Benefits of CHP Systems
    • Table 2: Asia-Pacific Primary CHP Demand, by Region, 2010-2035 (Million Mtoe)
    • Table 3: Comparison of Primary Energy Consumption over the Past 10 Years, by Type, 2005-2015 (%)
    • Table 4: Top Coal Producing Countries, 2014 and 2015 (Million Mt)
    • Table 5: Global Oil Demand, by Region, 2014-2020 (Million Barrels)
    • Table 6: Global Natural Gas Data, by Region, 2015
    • Table 7: Top Global Uranium Producers, by Country, 2014 (tU)
    • Table 8: Successful Implementation of CHP Systems in Industrial Facilities
    • Table 9: Properties of Industrial CHP
    • Table 10: Case Study
    • Table 11: Global Market for Industrial CHP, by Region, Through 2022 ($ Millions)
    • Table 12: Successful Implementation of CHP Systems in Commercial Facilities
    • Table 13: Properties of Commercial CHP
    • Table 14: Case Study
    • Table 15: Global Market for Commercial CHP, by Region, Through 2022 ($ Millions)
    • Table 16: Successful Implementation of CHP Systems in District Energy Facilities
    • Table 17: Properties of a District Energy CHP System
    • Table 18: Case Study
    • Table 19: Global Market for District Energy CHP, by Region, Through 2022 ($ Millions)
    • Table 20: Global Market for Combined Cycle Technology, by Region, Through 2022 ($ Millions)
    • Table 21: Features of Reciprocating Engine Technology
    • Table 22: Global Market for Reciprocating Engine Technology, by Region, Through 2022 ($ Millions)
    • Table 23: Design Characteristics of Steam Turbines
    • Table 24: Global Market for Steam Turbines, by Region, Through 2022 ($ Millions)
    • Table 25: Design Characteristics of Gas Turbine Technology
    • Table 26: Global Market for Gas Turbine Technology, by Region, Through 2022 ($ Millions)
    • Table 27: Global Market for Gas Turbines, by Capacity, Through 2022 (MW)
    • Table 28: Global Market for 3-6 MW Gas Turbines, by Region, Through 2022 (MW)
    • Table 29: Performance Characteristics of Micro-CHP Systems and Fuel Cell Technology
    • Table 30: Comparative Analysis of Steam and Gas Turbines
    • Table 31: Global Market for Steam and Gas Turbines, by Region, Through 2022 ($ Millions)
    • Table 32: Global Market for Generator Sets, by Region, Through 2022 ($ Millions)
    • Table 33: Global Market for Energy Storage Systems, by Region, Through 2022 ($ Millions)
    • Table 34: Global Market for Steam Boilers, by Region, Through 2022 ($ Millions)
    • Table 35: Global Market for Fuel Feed Systems, by Region, Through 2022 ($ Millions)
    • Table 36: Global Market for Emission Control Systems, by Region, Through 2022 ($ Millions)
    • Table 37: Global Market for Control Systems, by Region, Through 2022 ($ Millions)
    • Table 38: Global Market for Oil-based CHP, by Region, Through 2022 ($ Millions)
    • Table 39: Global Market for Natural Gas-based CHP, by Region, Through 2022 ($ Millions)
    • Table 40: Global Market for Coal-based CHP, by Region, Through 2022 ($ Millions)
    • Table 41: Global Market for Biomass-based CHP, by Region, Through 2022 ($ Millions)
    • Table 42: Global Market for Other Fuel-based CHP, by Region, Through 2022 ($ Millions)
    • Table 43: North American CHP Market, by End-use Sector, Through 2022 ($ Millions)
    • Table 44: North American CHP Market, by Technology, Through 2022 ($ Millions)
    • Table 45: North American CHP Market, by Country, Through 2022 ($ Millions)
    • Table 46: Installed CHP Capacity in the U.S.
    • Table 47: Energy Saving Potential by End-use Application (%/Pj)
    • Table 48: European CHP Market, by End-use Sector, Through 2022 ($ Millions)
    • Table 49: European CHP Market, by Technology, Through 2022 ($ Millions)
    • Table 50: European CHP Market, by Country, Through 2022 ($ Millions)
    • Table 51: Energy Consumption, by Industry Sector, 2010-2015 (Ktoe)
    • Table 52: Asia-Pacific CHP Market, by End-use Sector, Through 2022 ($ Millions)
    • Table 53: Asia-Pacific CHP Market, by Technology, Through 2022 ($ Millions)
    • Table 54: Asia-Pacific CHP Market, by Country, Through 2022 ($ Millions)
    • Table 55: CHP Potential in India in Select Industry Sectors (MW)
    • Table 56: Electricity Demand in India, by Application Sector, 2000-2040 (TWh)
    • Table 57: Rest of the World CHP Market, by End-use Sector, Through 2022 ($ Millions)
    • Table 58: Rest of the World CHP Market, by Technology, Through 2022 ($ Millions)
    • Table 59: Forecast of CO2 Emissions in the ROW, by Application Sector, 2030 (Million Mt)
    • Table 60: 2G Energy's Product Portfolio
    • Table 61: 2G Energy's Recent Activities
    • Table 62: ABB's Product Portfolio
    • Table 63: ABB's Recent Activities
    • Table 64: Aegis' Energy Product Portfolio
    • Table 65: Aegis' Energy Recent Activities
    • Table 66: Aisin Seiki's Product Portfolio
    • Table 67: Ameresco's Product Portfolio
    • Table 68: Ameresco's Recent Activities
    • Table 69: Ballard Power Systems' Product Portfolio
    • Table 70: Ballard Power Systems' Recent Activities
    • Table 71: BDR Thermea's Product Portfolio
    • Table 72: Bosch Thermotechnik's Product Portfolio
    • Table 73: Bosch Thermotechnik's Recent Activities
    • Table 74: Capstone Turbine's Product Portfolio
    • Table 75: Capstone Turbine's Recent Activities
    • Table 76: Caterpillar Energy Solutions' Product Portfolio
    • Table 77: Ceres Power's Product Portfolio
    • Table 78: Ceres Power's Recent Activities
    • Table 79: Centrax Product's Portfolio
    • Table 80: Clarke Energy's Product Portfolio
    • Table 81: Clarke Energy's Recent Activities
    • Table 82: Constellation Energy's Product Portfolio
    • Table 83: Constellation Energy's Recent Activities
    • Table 84: Cummins Power's Generation Product Portfolio
    • Table 85: Doosan Fuel Cell America's Product Portfolio
    • Table 86: Doosan Fuel Cell America's Recent Activities
    • Table 87: Dresser-Rand Group's Product Portfolio
    • Table 88: Dresser-Rand Group's Recent Activities
    • Table 89: E.ON's Product Portfolio
    • Table 90: E.ON's Recent Activities
    • Table 91: Edina's Product Portfolio
    • Table 92: Elite Energy Systems' Product Portfolio
    • Table 93: ENER-G's Product Portfolio
    • Table 94: ENER-G's Recent Activities
    • Table 95: FG Wilson's Product Portfolio
    • Table 96: Flexenergy Energy Systems' Product Portfolio
    • Table 97: Flexenergy Energy Systems' Recent Activities
    • Table 98: FuelCell Energy's Product Portfolio
    • Table 99: General Electric's Product Portfolio
    • Table 100: Helen's Product Portfolio
    • Table 101: Honda Power's Product Portfolio
    • Table 102: Honeywell's International Product Portfolio
    • Table 103: Intelligent Power's Product Portfolio
    • Table 104: Mitsubishi Hitachi Power Systems' Product Portfolio
    • Table 105: Mitsubishi Hitachi Power Systems' Recent Activities
    • Table 106: MTU Onsite Energy's Product Portfolio
    • Table 107: MWM's Product Portfolio
    • Table 108: MWM's Recent Activities
    • Table 109: NTTC's Product Portfolio
    • Table 110: Qnergy's Product Portfolio
    • Table 111: Qnergy's Recent Activities
    • Table 112: Siemens' Product Portfolio
    • Table 113: Siemens' Recent Activities
    • Table 114: Solid Power's Product Portfolio
    • Table 115: Solid Power's Recent Activities
    • Table 116: Tecogen's Product Portfolio
    • Table 117: Tecogen's Recent Activities
    • Table 118: Tedom's Product Portfolio
    • Table 119: Vaillant Group's Product Portfolio
    • Table 120: Veolia's Recent Activities
    • Table 121: Wartsila's Product Portfolio
    • Table 122: Wartsila's Recent Activities
    • Table 123: Yanmar's Product Portfolio
    • Table 124: Yanmar's Recent Activities

List of Figures

  • Summary Figure: Global Market for CHP Systems, by End-use Sector, 2016-2022 ($ Millions)
    • Figure 1: U.S. Natural Gas Gross Withdrawal and Production, 2005-2016 (Million Cubic Feet)
    • Figure 2: U.S. Annual Average Natural Gas Price, 2004-2016 (Dollars per Million Btu)
    • Figure 3: Comparison of the Efficiency of a Traditional System vs a CHP System
    • Figure 4: Asia-Pacific Primary CHP Demand, by Region, 2010-2035 (Million Mtoe)
    • Figure 5: Global Distribution of Primary Energy Consumption, by Source, 2015 (%)
    • Figure 6: Types of Renewable Energy
    • Figure 7: Global Distribution of Installed Hydropower Capacity, by Region, 2015 (%)
    • Figure 8: Global Distribution of Installed Solar Power Capacity, by Region, 2015 (%)
    • Figure 9: Global Distribution of Installed Wind Power Capacity, by Region, 2015 (%)
    • Figure 10: Classification of Nonrenewable Energy Sources
    • Figure 11: Comparison of Primary Energy Consumption over the Past 10 Years, by Type (%)
    • Figure 12: Top Coal Producing Countries, 2014 and 2015 (Million Mt)
    • Figure 13: Coal Fired Power Generation, 2014 (TWh)
    • Figure 14: Number of Global Nuclear Reactors, by Country, 2017
    • Figure 15: Net Electricity Capacity, by Country, 2017 (MW)
    • Figure 16: Total Installed Capacity of Industrial CHP, 2016-2022 (GW)
    • Figure 17: Global Industrial CHP Installations, 2016-2022 (GW)
    • Figure 18: Total Installed Capacity of Commercial CHP, 2016-2022 (GW)
    • Figure 19: Global Commercial CHP Installations, 2016-2022 (GW)
    • Figure 20: Total Installed Capacity of District Energy CHP, 2016-2022 (GW)
    • Figure 21: Global District Energy CHP Installations, 2016-2022 (MW)
    • Figure 22: Total Installed Capacity of Combined Cycle Technology, 2016-2022 (GW)
    • Figure 23: Global Combined Cycle CHP Installations, 2016-2022 (GW)
    • Figure 24: Total Installed Capacity of Reciprocating Engine Technology, 2016-2022 (GW)
    • Figure 25: Global Reciprocating Engine CHP Installations, 2016-2022 (GW)
    • Figure 26: Total Installed Capacity of Steam Turbines, 2016-2022 (GW)
    • Figure 27: Global Steam Turbine CHP Installations, 2016-2022 (GW)
    • Figure 28: Total Installed Capacity of Gas Turbine Technology, 2016-2022 (GW)
    • Figure 29: Global Gas Turbine CHP Installations, 2016-2022 (GW)
    • Figure 30: Total Installed Capacity of Oil-based CHP, 2016-2022 (GW)
    • Figure 31: Oil-based CHP Installations, 2016-2022 (GW)
    • Figure 32: Total Installed Capacity of Natural Gas-based CHP, 2016-2022 (GW)
    • Figure 33: Global Natural Gas-based CHP Installations, 2016-2022 (GW)
    • Figure 34: Total Installed Capacity of Coal-based CHP, 2016-2022 (GW)
    • Figure 35: Global Coal-based CHP Installations, 2016-2022 (GW)
    • Figure 36: Total Installed Capacity of Biomass-based CHP, 2016-2022 (GW)
    • Figure 37: Global Biomass-based CHP Installations, 2016-2022 (GW)
    • Figure 38: Total Installed Capacity of Other Fuels-based CHP, 2016-2022 (GW)
    • Figure 39: Global Other Fuel-based CHP Installations, 2016-2022 (GW)
    • Figure 40: Electricity Production from Coal Sources, 2010-2014 (%)
    • Figure 41: Distribution of U.S. Energy Consumption, by Energy Source, 2016 (%)
    • Figure 42: Distribution of Existing CHP Capacity in the U.S., by Industry Sector, 2016 (%)
    • Figure 43: Distribution of Total Primary Energy Consumption in the U.S., by Industry Sector, 2016 (%)
    • Figure 44: Canadian CHP Capacity, 2005-2030 (GW)
    • Figure 45: Distribution of the Production of Canadian Energy, by Industry Sector, 2016 (%)
    • Figure 46: Canadian Greenhouse Gas Emissions, 2010-2015 (Megatonnes)
    • Figure 47: Distribution of European Energy Consumption, by Industry Sector, 2015 (% of Total, Based on Mtoe)
    • Figure 48: Energy Source and Relative Share of the Energy Generation Mix in Europe, 2015 (%)
    • Figure 49: Distribution of German Primary Energy Consumption, by Energy Source, 2016 (%)
    • Figure 50: Electricity Generation from CHP in Germany, 2010-2014 (Percentage of Gross Electricity Generation)
    • Figure 51: France's Energy Consumption 2012-2016 (GW per Hour)
    • Figure 52: Electricity Generation from CHP in France, 2010-2014 (Percentage of Gross Electricity Generation)
    • Figure 53: Coal Consumption in the U.K., 2010-2016 (Million Mt)
    • Figure 54: Distribution of Electricity Generation from CHP in the United Kingdom, 2010-2014 (Percentage of Gross Electricity Generation)
    • Figure 55: Energy Consumption, by Industry Sector, 2010-2015 (Ktoe)
    • Figure 56: Distribution of CHP Electrical Capacity, by Industry Sector, 2015
    • Figure 57: Distribution of Renewable Energy Consumption in Asia-Pacific, by Country, 2011-2014 (%)
    • Figure 58: Distribution of Electricity Production from Nuclear Sources, 2010-2015 (%)
    • Figure 59: Distribution of Industrial Applications of CHP in Japan, by Industry Sector, 2015 (%)
    • Figure 60: Distribution of Commercial Applications of CHP in Japan, by Type of Facility, 2015 (%)
    • Figure 61: CHP Installed Capacity in Japan, 2015, 2020 and 2030 (GW)
    • Figure 62: Japan's Total Energy Consumption, 2015 (%)
    • Figure 63: China CHP Technical Potential, 2030 (GW)
    • Figure 64: Distribution of Total Energy Consumption in China, by Fuel Type, 2015 (%)
    • Figure 65: Estimated Current and Projected Industrial Energy Consumption in India, by Application Sector, 2013 and 2040 (%)
    • Figure 66: Distribution of Renewable Power, by Type, 2016 (%)
    • Figure 67: Electricity Demand in India, by Application Sector, 2000-2040 (TWh)
    • Figure 68: Distribution of Electricity Production in the Middle East, by Energy Source, 2014 (GWh)
    • Figure 69: Energy Consumption in the Middle East, by Application Sector, 2014 (GWh)
    • Figure 70: Brazil's Investment in Energy with Private Participation, 2013-2016 ($ Billions)
    • Figure 71: Distribution of Primary Energy Consumption in South Africa, by Source, 2015 (%)
    • Figure 72: RoW Market for Combined Cycle CHP, 2016-2022 ($ Millions)
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