The global district heating market size is expected to reach around US$ 295.35 billion by 2030 from US$ 181.15 billion in 2021 and is expected to grow at an impressive double-digit rate of 5.9% from 2022 to 2030.
The study includes drivers and restraints of this market. The study provides an analysis of the global district heating market for the period 2017-2030, wherein 2022 to 2030 is the forecast period and 2021 is considered as the base year.
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Report Scope of the District Heating Market
| Report Coverage | Details |
| Market Size by 2030 | USD 295.35 Billion |
| Growth Rate from 2022 to 2030 | CAGR of 5.9% |
| Largest Market | Europe |
| Fastest Growing Market | Asia Pacific |
| Base Year | 2021 |
| Forecast Period | 2022 to 2030 |
Key Highlights
District heating provides a method of delivering thermal energy to buildings (homes and commercial space) in the form of hot water through a distribution network of highly insulated pipelines. Whereas the potential for increased use of industrial district heating is limited. This is so because conversions of industrial processes to district heating involve varying heat loads amongst types of industries and processes.
However, the conversion to district heating serves as an 11% reduction in the use of electricity, a 40% reduction in the use of fossil fuels, along with total energy end-use saving of 6% among industries.
Converting the industrial processes, it has led to a potential reduction of global carbon dioxide emissions by 112,000 tons per year. However, the residential and commercial markets are expected to hold a significant share of the market.
Currently, approximately 60 million EU citizens are served by district heating, with an additional 140 million people living in cities with at least one district heating system. According to reports by the EU and the IEA, DH currently meets around 11-12% of the EU’s heat demand via 6,000 district heating and cooling networks.
With Machine Learning, the idea is to predict heat loads from customer data and operational data along with weather forecasts, national holidays, weekdays, etc., to optimize and plan the heat production, thereby lowering heat loss and handling peak loads. The potential is extended to use intelligent algorithms in fault detection, such as to identify leakages, inefficient heating systems, or errors stemming from failure related to single components.
In October 2019, the smart district heating service of Tampere Power Utility was developed by Enermax Oy to balance peak district heating outputs, optimize heating in buildings, and reduce heating costs. The deployment was able to cut down energy consumption by 5% to 10%.
In response to the challenges of the COVID-19 pandemic, International District Energy Association (IDEA) has convened a Working Group to help its members and other affected individuals to get essential resources and information required to help and navigate this unprecedented event. However, most of the district heating projects are on hold due to the scarcity of workforce and countrywide lockdown. Moreover, European companies like Statkraft are carefully prioritizing resources to safeguard the plants’ safe and stable district heating operation.
Research Methodology
A unique research methodology has been utilized to conduct comprehensive research on the growth of the global district heating market and arrive at conclusions on the future growth prospects of the market. This research methodology is a combination of primary and secondary research, which helps analysts warrant the accuracy and reliability of the draw conclusions. Secondary sources referred to by analysts during the production of the global market report include statistics from company annual reports, SEC filings, company websites, World Bank database, investor presentations, regulatory databases, government publications, and industry white papers. Analysts have also interviewed senior managers, product portfolio managers, CEOs, VPs, and market intelligence managers, who contributed to the production of our study on the market as a primary source.
These primary and secondary sources provided exclusive information during interviews, which serves as a validation from mattress topper industry leaders. Access to an extensive internal repository and external proprietary databases allows this report to address specific details and questions about the global district heating market with accuracy. The study also uses the top-down approach to assess the numbers for each segment and the bottom-up approach to counter-validate them. This has helped to estimates the future prospects of the global market more reliable and accurate.
Why should you invest in this report?
If you are aiming to enter the global district heating market, this report is a comprehensive guide that provides crystal clear insights into this niche market. All the major application areas for district heating are covered in this report and information is given on the important regions of the world where this market is likely to boom during the forecast period of 2022-2030, so that you can plan your strategies to enter this market accordingly.
Besides, through this report, you can have a complete grasp of the level of competition you will be facing in this hugely competitive market and if you are an established player in this market already, this report will help you gauge the strategies that your competitors have adopted to stay as market leaders in this market. For new entrants to this market, the voluminous data provided in this report is invaluable.
Some of the prominent players in the global district heating market include:
- Shinryo Corporation
- Ramboll
- Danfoss Group
- E. on Energy Services
- FVB Energy Inc.
- Dall Energy
- Statkraft
- Kelvion
- NRG Energy
- NextGen Heating
Market Segmentation:
By Heat Source
- Coal
- Natural Gas
- Renewables
- Oil & Petroleum Products
- Others
By Plant Type
- Boiler
- Combined Heat and Power (CHP)
- Heat Exchangers
- Heat Meter
- Others
By Application
- Residential
- Commercial
- Industrial
Regional Analysis:
The geographical analysis of the global district heating market has been done for North America, Europe, Asia-Pacific, and the Rest of the World.
The North American Market is again segmented into the US, Canada, and Mexico. Coming to the European Market, it can be segmented further into the UK, Germany, France, Italy, Spain, and the rest. Coming to the Asia-Pacific, the global district heating Market is segmented into China, India, Japan, and Rest of Asia Pacific. Among others, the market is segmented into the Middle East and Africa, (GCC, North Africa, South Africa and Rest of the Middle East & Africa).
Key Questions Answered by the Report:
- What will be the size of the global district heating market in 2030?
- What is the expected CAGR for the district heating market between 2021 and 2030?
- Which are the top players active in this global market?
- What are the key drivers of this global market?
- How will the market situation change in the coming years?
- Which region held the highest market share in this global market?
- What are the common business tactics adopted by players?
- What is the growth outlook of the global district heating market?
TABLE OF CONTENT
Chapter 1. Introduction
1.1. Research Objective
1.2. Scope of the Study
1.3. Definition
Chapter 2. Research Methodology
2.1. Research Approach
2.2. Data Sources
2.3. Assumptions & Limitations
Chapter 3. Executive Summary
3.1. Market Snapshot
Chapter 4. Market Variables and Scope
4.1. Introduction
4.2. Market Classification and Scope
4.3. Industry Value Chain Analysis
4.3.1. Raw Material Procurement Analysis
4.3.2. Sales and Distribution Channel Analysis
4.3.3. Downstream Buyer Analysis
Chapter 5. COVID 19 Impact on District Heating Market
5.1. COVID-19 Landscape: District Heating Industry Impact
5.2. COVID 19 - Impact Assessment for the Industry
5.3. COVID 19 Impact: Global Major Government Policy
5.4. Market Trends and Opportunities in the COVID-19 Landscape
Chapter 6. Market Dynamics Analysis and Trends
6.1. Market Dynamics
6.1.1. Market Drivers
6.1.2. Market Restraints
6.1.3. Market Opportunities
6.2. Porter’s Five Forces Analysis
6.2.1. Bargaining power of suppliers
6.2.2. Bargaining power of buyers
6.2.3. Threat of substitute
6.2.4. Threat of new entrants
6.2.5. Degree of competition
Chapter 7. Competitive Landscape
7.1.1. Company Market Share/Positioning Analysis
7.1.2. Key Strategies Adopted by Players
7.1.3. Vendor Landscape
7.1.3.1. List of Suppliers
7.1.3.2. List of Buyers
Chapter 8. Global District Heating Market, By Heat Source
8.1. District Heating Market, by Heat Source Type, 2022-2030
8.1.1. Coal
8.1.1.1. Market Revenue and Forecast (2017-2030)
8.1.2. Natural Gas
8.1.2.1. Market Revenue and Forecast (2017-2030)
8.1.3. Renewable
8.1.3.1. Market Revenue and Forecast (2017-2030)
8.1.4. Oil & Petroleum Heat Sources
8.1.4.1. Market Revenue and Forecast (2017-2030)
8.1.5. Others
8.1.5.1. Market Revenue and Forecast (2017-2030)
Chapter 9. Global District Heating Market, By Application
9.1. District Heating Market, by Application, 2022-2030
9.1.1. Residential
9.1.1.1. Market Revenue and Forecast (2017-2030)
9.1.2. Industrial
9.1.2.1. Market Revenue and Forecast (2017-2030)
9.1.3. Commercial
9.1.3.1. Market Revenue and Forecast (2017-2030)
Chapter 10. Global District Heating Market, By Plant Type
10.1. District Heating Market, by Plant Type, 2022-2030
10.1.1. Boiler
10.1.1.1. Market Revenue and Forecast (2017-2030)
10.1.2. Combined Heat and Power (CHP)
10.1.2.1. Market Revenue and Forecast (2017-2030)
10.1.3. Heat Exchangers
10.1.3.1. Market Revenue and Forecast (2017-2030)
10.1.4. Heat Meter
10.1.4.1. Market Revenue and Forecast (2017-2030)
10.1.5. Others
10.1.5.1. Market Revenue and Forecast (2017-2030)
Chapter 11. Global District Heating Market, Regional Estimates and Trend Forecast
11.1. North America
11.1.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.1.2. Market Revenue and Forecast, by Application (2017-2030)
11.1.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.1.4. U.S.
11.1.4.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.1.4.2. Market Revenue and Forecast, by Application (2017-2030)
11.1.4.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.1.5. Rest of North America
11.1.5.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.1.5.2. Market Revenue and Forecast, by Application (2017-2030)
11.1.5.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.2. Europe
11.2.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.2.2. Market Revenue and Forecast, by Application (2017-2030)
11.2.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.2.4. UK
11.2.4.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.2.4.2. Market Revenue and Forecast, by Application (2017-2030)
11.2.4.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.2.5. Germany
11.2.5.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.2.5.2. Market Revenue and Forecast, by Application (2017-2030)
11.2.5.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.2.6. France
11.2.6.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.2.6.2. Market Revenue and Forecast, by Application (2017-2030)
11.2.6.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.2.7. Rest of Europe
11.2.7.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.2.7.2. Market Revenue and Forecast, by Application (2017-2030)
11.2.7.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.3. APAC
11.3.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.3.2. Market Revenue and Forecast, by Application (2017-2030)
11.3.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.3.4. India
11.3.4.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.3.4.2. Market Revenue and Forecast, by Application (2017-2030)
11.3.4.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.3.5. China
11.3.5.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.3.5.2. Market Revenue and Forecast, by Application (2017-2030)
11.3.5.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.3.6. Japan
11.3.6.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.3.6.2. Market Revenue and Forecast, by Application (2017-2030)
11.3.6.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.3.7. Rest of APAC
11.3.7.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.3.7.2. Market Revenue and Forecast, by Application (2017-2030)
11.3.7.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.4. MEA
11.4.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.4.2. Market Revenue and Forecast, by Application (2017-2030)
11.4.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.4.4. GCC
11.4.4.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.4.4.2. Market Revenue and Forecast, by Application (2017-2030)
11.4.4.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.4.5. North Africa
11.4.5.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.4.5.2. Market Revenue and Forecast, by Application (2017-2030)
11.4.5.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.4.6. South Africa
11.4.6.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.4.6.2. Market Revenue and Forecast, by Application (2017-2030)
11.4.6.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.4.7. Rest of MEA
11.4.7.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.4.7.2. Market Revenue and Forecast, by Application (2017-2030)
11.4.7.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.5. Latin America
11.5.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.5.2. Market Revenue and Forecast, by Application (2017-2030)
11.5.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.5.4. Brazil
11.5.4.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.5.4.2. Market Revenue and Forecast, by Application (2017-2030)
11.5.4.3. Market Revenue and Forecast, by Plant Type (2017-2030)
11.5.5. Rest of LATAM
11.5.5.1. Market Revenue and Forecast, by Heat Source (2017-2030)
11.5.5.2. Market Revenue and Forecast, by Application (2017-2030)
11.5.5.3. Market Revenue and Forecast, by Plant Type (2017-2030)
Chapter 12. Company Profiles
12.1. Shinryo Corporation
12.1.1. Company Overview
12.1.2. Product Offerings
12.1.3. Financial Performance
12.1.4. Recent Initiatives
12.2. Ramboll
12.2.1. Company Overview
12.2.2. Product Offerings
12.2.3. Financial Performance
12.2.4. Recent Initiatives
12.3. Danfoss Group
12.3.1. Company Overview
12.3.2. Product Offerings
12.3.3. Financial Performance
12.3.4. Recent Initiatives
12.4. E. on Energy Services
12.4.1. Company Overview
12.4.2. Product Offerings
12.4.3. Financial Performance
12.4.4. Recent Initiatives
12.5. FVB Energy Inc.
12.5.1. Company Overview
12.5.2. Product Offerings
12.5.3. Financial Performance
12.5.4. Recent Initiatives
12.6. Dall Energy
12.6.1. Company Overview
12.6.2. Product Offerings
12.6.3. Financial Performance
12.6.4. Recent Initiatives
12.7. Statkraft
12.7.1. Company Overview
12.7.2. Product Offerings
12.7.3. Financial Performance
12.7.4. Recent Initiatives
12.8. Kelvion
12.8.1. Company Overview
12.8.2. Product Offerings
12.8.3. Financial Performance
12.8.4. Recent Initiatives
12.9. NRG Energy
12.9.1. Company Overview
12.9.2. Product Offerings
12.9.3. Financial Performance
12.9.4. Recent Initiatives
12.10. NextGen Heating
12.10.1. Company Overview
12.10.2. Product Offerings
12.10.3. Financial Performance
12.10.4. Recent Initiatives
Chapter 13. Research Methodology
13.1. Primary Research
13.2. Secondary Research
13.3. Assumptions
Chapter 14. Appendix
14.1. About Us
14.2. Glossary of Terms
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