Canada Combined Heat and Power Market Outlook to 2023 - Market Analysis by End User, Grid Connectivity, Application, Technology, Competitive Landscape, Key Company Information - Growth, Trends, COVID-19 Impact, and Forecasts (2022 - 2027)

Looking to buy the report?

About seven per cent of electricity generation in Canada is through cogeneration. Alberta has 2.3 GW of cogeneration capacity, which is the largest in Canada. Ontario is second to Alberta, with 2.1 GW. These two provinces account for 67 per cent of the cogeneration capacity in Canada. Canadian utilities account for the most cogeneration capacity, at 45 per cent when classified by systems operator. This is followed by paper manufacturing, at 23 per cent.

Combined heat and power (CHP) is an efficient and clean approach to generating electric power and useful thermal energy from a single fuel source. Instead of purchasing electricity from the distribution grid and burning fuel in an on-site furnace or boiler to produce thermal energy, an industrial or commercial facility can use CHP to provide both energy services in one energy-efficient step.

While CHP has been in use in some form or another for more than 100 years, it remains an underutilized resource today. Nevertheless, the outlook for increased use of CHP is bright €” policymakers at the federal and state level are beginning to recognize the potential benefits of CHP and the role it could play in providing clean, reliable, cost-effective energy services to industry and businesses.

CHP is being looked at as a productive investment by some companies facing significant costs to upgrade outdated coal and oil-fired boilers. In addition, CHP can provide a cost-effective source of highly-efficient new generating capacity. Finally, the economics of CHP are improving as a result of the changing outlook in the long-term supply and price of North American natural gas €” a preferred fuel for many CHP applications.

As an efficiency technology, CHP helps makes businesses more competitive by lowering their energy costs, reducing demand on the electricity delivery system, reducing strain on the electric grid, and reducing greenhouse gas (GHG) and other harmful emissions. Already used by many industrial facilities and a growing number of commercial and institutional entities, CHP is a commercially available clean energy resource that is immediately deployable, and that can help address current and future global energy needs.

What the Report Offers

· Market Definition for the specified topic along with identification of key drivers and restraints for the market.

· Market analysis for the Canada combined heat and power Market, with region specific assessments and competition analysis on a global and regional scale.

· Identification of factors instrumental in changing the market scenarios, rising prospective opportunities and identification of key companies which can influence the market on a global and regional scale.

· Extensively researched competitive landscape section with profiles of major companies along with their share of markets.

· Identification and analysis of the Macro and Micro factors that affect the Canada combined heat and power market on both global and regional scale.

· A comprehensive list of key market players along with the analysis of their current strategic interests and key financial information.

1. Introduction

1.1 Report Guidance

1.2 Markets Covered

1.3 Key Points Noted

  2. Executive Summary  

3. Market Overview

3.1 Introduction

3.2 Major Technologies in CHP Market

3.3 R & D Activities

  4. Drivers, Constraints and Opportunities

4.1 Drivers

4.1.1 Local Utility Rates

4.1.2 High Generation Efficiency

4.1.3 Emergency Power Capability

4.1.4 Improving Power Quality

4.2 Constraints

4.2.1 Demand Charges (Dollar per Kilowatt)

4.2.2 CHP System Capital Costs

4.2.3 Reliability/Availability

4.3 Opportunities

4.3.1 Utility Partnerships to Advance CHP

  5. Global CHP Market Analysis by End-User

5.1 Industrial CHP

5.1.1 Overview

5.1.2 Market Demand to 2020

5.1.3 Recent Trends and Opportunities

5.2 CHP With District Heating (Teleheating)

5.2.1 Overview

5.2.2 Market Demand to 2020

5.2.3 Recent Trends and Opportunities

5.3 Combined Cooling, Heating & Power (CCHP Or Trigeneration)

5.3.1 Packaged & Mini CHP Overview Market Demand to 2020 Recent Trends and Opportunities

5.3.2 Micro CHP Overview Market Demand to 2020 Recent Trends and Opportunities

5.4 Market Share Analysis, by End-User

  6. Global CHP Market Analysis, by Grid Connectivity

6.1 On-Grid CHP Systems 

6.1.1 Overview

6.1.2 Market Demand to 2020

6.1.3 Recent Trends and Opportunities

6.2 Off-Grid CHP Systems

6.2.1 Overview

6.2.2 Market Demand to 2020

6.2.3 Recent Trends and Opportunities

  7. Global CHP Market Analysis, by Application

7.1 Residential

7.1.1 Overview

7.1.2 Market Demand to 2020

7.1.3 Recent Trends and Opportunities

7.2 Commercial

7.2.1 Overview

7.2.2 Market Demand to 2020

7.2.3 Recent Trends and Opportunities

  8. Global CHP Market Analysis, by Technology

8.1 External Combustion Engine

8.1.1 Stirling Engine Overview Market Demand to 2020 Recent Trends and Opportunities

8.1.2 Organic Rankine Cycle Engine Overview Market Demand to 2020 Recent Trends and Opportunities

8.2 Internal Combustion Engine

8.2.1 Overview

8.2.2 Market Demand to 2020

8.2.3 Recent Trends and Opportunities

8.3 Microturbines

8.3.1 Overview

8.3.2 Market Demand to 2020

8.3.3 Recent Trends and Opportunities

8.4 Fuel Cell

8.4.1 Overview

8.4.2 Market Demand to 2020

8.4.3 Recent Trends and Opportunities

8.5 Advanced Technologies

8.5.1 Thermo-Photovoltaic Overview Market Demand to 2020 Recent Trends and Opportunities

8.5.2 Thermo-Ionic Overview Market Demand to 2020 Recent Trends and Opportunities

8.6 Other Technologies

8.6.1 Energy Storage Electrical Storage Thermal Storage 

8.6.2 Load Management 

8.6.3 Smart Grid

  9. Canada CHP Market Analysis

9.1 Introduction

9.2 Market Demand to 2020

9.3 Policies and Regulations

9.4 Recent Trends and Opportunities

  10. Competition

10.1 Overview

10.2 Market Share of Key Companies, by Geography

10.3 Market Share of Key Companies, by Equipment

  11. Company Profiles

11.1 Bdr Thermea Group 

11.2 Dantherm Power

11.3 Microgen Engine Corporation Holding B.V.

11.4 Qnergy 

11.5 Senertec Kraft-Warme-Energiesysteme Gmbh (Senertec)

11.6 The Viessmann Group

11.7 Whisper Tech Limited 

11.8 Cogen Microsystems 

11.9 Ceres Power Holdings PLC

11.10 Yanmar Co. Ltd.

  12. Competitive Landscape

12.1 Deal Summary

12.1.1 Acquisition

12.1.2 Private Equity

12.1.3 Equity Offerings

12.1.4 Debt Offerings

12.1.5 Partnerships

12.1.6 Asset Transactions

12.2 Recent Developments

12.2.1 New Technology Inventions

12.2.2 New Contract Announcements

  13. Appendix

13.1 Sources

13.2 Abbreviations

13.3 Market Definition

13.3.1 Methodology

13.3.2 Coverage

13.3.3 Secondary Research

13.3.4 Primary Research

13.3.5 Expert Panel Validation

13.4 Contact Us

13.5 Disclaimer


Looking to buy the report?

Need a report that reflects how COVID-19 has impacted this market and its growth?

Looking to customize report?



By submitting, you confirm that you agree to our privacy policy