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区域供暖 - 市场份额分析、行业趋势与统计、成长预测（2024 - 2029）

District Heating - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2024 - 2029)

出版日期: 2024年02月15日 | 出版商:

Mordor Intelligence | 英文 120 Pages | 商品交期: 2-3个工作天内

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简介目录

2024年区域供热市场规模估计为526.2亿美元，预计到2029年将达到569.4亿美元，在预测期内（2024-2029年）CAGR为1.59%。

在全球经济制定的积极气候目标的支持下，区域能源是全球快速成长的产业。根据初步评估，这些区域供热和冷冻公司已被认为可以透过替代控股结构产生更非凡的成长和价值潜力。透过在区域供热中纳入电动热泵，可以将更高水准的再生能源用于供热目的，从而实现能源系统之间的整合和平衡。随着全球风力涡轮机容量的迅速增长，大型热泵将在全球绿色能源持续发展和到2050年逐步淘汰化石燃料方面发挥有意义的作用。

主要亮点

区域供暖提供了一种透过高度绝缘的管道分配网路以热水的形式向建筑物（住宅和商业空间）提供热能的方法。增加工业区域供热使用的潜力是有限的，因为工业製程向区域供热的转换涉及不同类型的工业和製程的热负荷。
然而，改用区域暖气后，电力使用量可减少 11%，化石燃料使用量可减少 40%，各产业最终能源使用总量可节省 6%。
工业流程的转变可能导致全球二氧化碳排放量每年减少 112,000 吨。然而，住宅和商业市场预计将占据相当大的份额。
约 6,000 万欧盟公民享有区域供暖服务，另有 1.4 亿人居住在至少拥有一个区域供热系统的城市。根据欧盟和国际能源总署的报告，DH 透过 6,000 个区域供热和冷冻网路满足欧盟约 11-12% 的供热需求。
透过机器学习，其想法是根据客户资料和营运资料以及天气预报、国家假期、工作日等来预测热负荷，以优化和规划热生产，从而降低热损失并处理尖峰负荷。这种潜力也扩展到故障检测中的智慧演算法，以识别洩漏、低效加热系统或与单一组件相关的故障所导致的错误。
2019 年 10 月，Enermax Oy 开发了坦佩雷电力公司的智慧区域供热服务，以平衡区域供热尖峰输出、优化建筑物供暖并降低供热成本。该部署可以减少 5-10% 的能源消耗。
为了应对 COVID-19 大流行，国际区域能源协会 (IDEA) 召集了一个工作小组，以帮助其成员和其他受影响的个人获得必要的资源和信息，以帮助应对这一史无前例的事件。然而，由于劳动力短缺和全国范围内的封锁，大多数区域供暖项目都被搁置。此外，Statkraft等欧洲公司优先考虑资源以保障工厂安全稳定的区域供热运作。

区域供热市场趋势

住宅见证成长

区域供暖在全世界工业化国家普遍使用。与单独的建筑设备相比，它具有多种优势，包括更高的安全性和可靠性、更低的排放以及更大的燃料灵活性，特别是在使用生物质或垃圾等替代燃料时。
区域供暖广泛应用于单户住宅、多户住宅、高层建筑和大型城镇。需要区域供暖的主要家庭用途是空间供暖和热水供暖。区域供热市场在丹麦、冰岛、德国、美国、其他欧盟国家和加拿大等一些寒冷气候国家已经成熟。
然而，由再生能源供电的区域供热网路可以显着减少排放，并帮助政府实现其减排目标。各国政府制定了法定责任和激励措施，例如赠款、补贴和能源税，以提高再生能源在供热中的比例。
此外，区域供热以前主要由发电厂、垃圾发电设施和工业活动的副产品提供动力。然而，瑞典现在正在将更多的再生能源纳入其中。由于竞争，这种本土化的电力已上升为全国家庭暖气产业的佼佼者。

亚太地区在区域供热市场中占有重要份额

推动中国市场成长的主要原因是可支配收入的增加、对二氧化碳排放的担忧增加以及暖气和冷气系统的高使用率。此外，经合组织预计，到 2060 年，印度和中国的人均 GDP 可能会成长七倍。
亚太地区各国政府也正在与当地企业合作开发国内市场。例如，北京集中供热集团是中国一家主要的供热公司。该公司为北京市中央政府和军队、中国大使馆、重要企业和组织以及一般民众提供暖气解决方案。在其他省份也拥有大量项目。
现代区域供暖系统对于东南亚国家尤其重要，这些国家的空气污染造成长期经济损失和数十万人过早死亡。东南亚製冷的未来调查了 2040 年能源消耗、尖峰电力需求和二氧化碳排放的预期成长。
印度和澳洲是该地区最大的两个市场。由于对区域供热和製冷解决方案的投资增加以及政府推广这些解决方案的活动增多，区域市场正在不断增长。
为了应对能源危机和气候变化，韩国政府制定了推广零能耗建筑的国家计划，并近年来制定了多项针对新建和现有建筑的能源效率政策来实现这些计划。

区域供热产业概况

区域供热市场竞争适中，拥有许多全球和区域参与者。这些公司正在努力扩大其全球消费者基础。为了在预测期内获得竞争优势，他们还优先考虑开发创新解决方案、策略合作以及其他有机和无机成长策略的研发支出。

2023 年5 月，Vattenfall AB 和可口可乐宣布在瑞典合作，并製定了雄心勃勃的气候目标，到2040 年在整个价值链上实现净零排放。两家公司启动了一个拥有三个充电站的试点项目，以满足电力需求电力运输。

2023 年3 月，NRG Energy Inc 完成了对Vivint Smart Home, Inc. 的收购，加速了NRG 以消费者为中心的成长策略，并为消费者提供简单、互联的体验，以智慧地为家庭供电、保护和管理。 NRG 处于能源和家庭服务的交叉点，拥有独特的端到端智慧家庭生态系统，并以我们卓越的客户体验为基础。

额外的好处：

Excel 格式的市场估算 (ME) 表
3 个月的分析师支持

市场概况
产业吸引力－波特五力分析
- 供应商的议价能力
- 消费者的议价能力
- 新进入者的威胁
- 替代产品的威胁
- 竞争激烈程度
产业价值链分析
COVID-19 对市场的影响
政府关于区域供暖转型的措施和计划
区域供暖的主要趋势和创新

第 5 章：市场动态

市场驱动因素
- 对节能和经济高效的供暖系统的需求增加
- 都市化和工业化不断发展
市场限制
- 基础设施成本高

第 6 章：市场细分

按植物类型
- 锅炉
- 热电联产 (CHP)
按热源分类
- 煤炭
- 天然气
- 再生能源
- 石油和石油产品
按应用
- 住宅
- 商业和工业
按地理
- 北美洲
- 欧洲
- 亚太
- 世界其他地区

第 7 章：竞争格局

公司简介
- Vattenfall AB
- SP Group
- Danfoss Group
- Engie
- NRG Energy Inc.
- Statkraft AS
- Logstor AS
- Shinryo Corporation
- Vital Energi Ltd
- Gteborg Energi
- Alfa Laval AB
- Ramboll Group AS
- Keppel Corporation Limited
- FVB Energy

第 8 章：投资分析

第 9 章：未来的机会

简介目录

Product Code: 68160

The District Heating Market size is estimated at USD 52.62 billion in 2024, and is expected to reach USD 56.94 billion by 2029, growing at a CAGR of 1.59% during the forecast period (2024-2029).

District energy is a quick-growing industry globally, supported by the aggressive climate objectives set by the global economies. Based on initial assessments, these district heating and cooling companies have been recognized as operations that could produce more extraordinary growth and value potential with an alternative holding structure. By including electrically powered heat pumps in the district heating supply, higher renewable energy levels can be used for thermal purposes, generating integration and balance between energy systems. With a burgeoning global wind turbine capacity, big heat pumps will play a meaningful role in the sustained global green energy development and phasing out fossil fuels by 2050.

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. The potential for increased use of industrial district heating is limited 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 an 11% reduction in the use of electricity and a 40% reduction in the use of fossil fuels, with a total energy end-use saving of 6% among industries.
Converting the industrial processes 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.
Approximately 60 million EU citizens are served by district heating, and an additional 140 million people live in cities with at least one district heating system. According to reports by the EU and the IEA, DH 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 heat production, thereby lowering heat loss and handling peak loads. The potential is extended to intelligent algorithms in fault detection to identify leakages, inefficient heating systems, or errors 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 could cut down energy consumption by 5-10%.
In response to the COVID-19 pandemic, the International District Energy Association (IDEA) convened a Working Group to help its members and other affected individuals get the essential resources and information required to help navigate this unprecedented event. However, most district heating projects are on hold due to the scarcity of workforce and countrywide lockdowns. Moreover, European companies like Statkraft prioritize resources to safeguard the plants' safe and stable district heating operation.

District Heating Market Trends

Residential to Witness the Growth

District heating is commonly used in industrialized nations worldwide. It has several advantages over individual building equipment, including improved safety and dependability, lower emissions, and greater fuel flexibility, particularly when utilizing alternative fuels such as biomass or garbage.
District heating is widely utilized in single-family houses, multi-family dwellings, high-rise buildings, and mega townships. The primary home uses that require district heating are space and water heating. District heating markets are well-established in several cold-climate nations, such as Denmark, Iceland, Germany, the United States, other EU countries, and Canada.
However, the District heating networks powered by renewable energy sources may significantly reduce emissions and help governments meet their emission reduction objectives. Various governments have established statutory responsibilities and incentives, such as grants, subsidies, and energy taxes, to boost the percentage of renewables in heat generation.
Moreover, District heating was previously primarily powered by byproducts of power plants, waste-to-energy facilities, and industrial activities. However, Sweden is now incorporating more renewable energy sources into the mix. Due to competition, this localized kind of electricity has risen to the national top home-heating industry.

Asia-Pacific Holds a Significant Share in the District Heating Market

The primary reasons driving the market's growth in China are rising disposable income, increased worries about CO2 emissions, and high usage of heating and cooling systems. Moreover, OECD states that projections for India and China's per capita GDP might climb sevenfold by 2060.
Governments in the Asia-Pacific region are also collaborating with local businesses to develop the home market. For example, the Beijing District Heating Group is a major heating firm in China. The firm provided heating solutions to the central Beijing government and army, Chinese embassies, significant corporations and organizations, and the general people. It also has a large number of projects in other provinces.
Modern district heating systems are especially important for Southeast Asian countries, where air pollution causes long-term economic expenses and hundreds of thousands of premature fatalities. The Future of Cooling in Southeast Asia investigates the anticipated growth in energy consumption, peak power demand, and CO2 emissions by 2040.
India and Australia are two of the region's biggest marketplaces. The regional market is rising due to increased investment in district heating and cooling solutions and increased government activities to promote these solutions.
To respond to energy crises and climate change, the South Korean government established a national plan to promote zero energy buildings, and several energy efficiency policies for new and existing buildings in recent years have been developed to achieve these plans.

District Heating Industry Overview

The district heating market is moderately competitive and has many global and regional players. These companies are working hard to broaden their consumer base globally. To gain a competitive advantage during the predicted term, they also prioritize R&D expenditure in developing innovative solutions, strategic collaborations, and other organic and inorganic growth tactics.

In May 2023, Vattenfall AB and Coca-Cola announced the collaboration in Sweden and have set ambitious climate targets for net zero emissions across their entire value chains by 2040. The companies have initiated a pilot project with three charging stations to meet the need for powering electric transport.

In March 2023, NRG Energy Inc completed its acquisition of Vivint Smart Home, Inc. by accelerating NRG's consumer-focused growth strategy and offering consumers simple, connected experiences to power, protect, and manage their homes intelligently. NRG is at the intersection of energy and home services, with a unique end-to-end smart home ecosystem underpinned by our exceptional customer experience.

Additional Benefits:

The market estimate (ME) sheet in Excel format
3 months of analyst support

1 INTRODUCTION

1.1 Study Assumptions and Market Definition
1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

4.1 Market Overview
4.2 Industry Attractiveness - Porter's Five Forces Analysis
- 4.2.1 Bargaining Power of Suppliers
- 4.2.2 Bargaining Power of Consumers
- 4.2.3 Threat of New Entrants
- 4.2.4 Threat of Substitute Products
- 4.2.5 Intensity of Competitive Rivalry
4.3 Industry Value Chain Analysis
4.4 Impact of COVID-19 on the Market
4.5 Government Initiatives and Programs on District Heating Transition
4.6 Key Trends and Innovations in District Heating

5 MARKET DYNAMICS

5.1 Market Drivers
- 5.1.1 Augmented Demand for Energy-efficient and Cost-effective Heating Systems
- 5.1.2 Rising Urbanization and Industrialization
5.2 Market Restraints
- 5.2.1 High Infrastructure Cost

6 MARKET SEGMENTATION

6.1 By Plant Type
- 6.1.1 Boiler
- 6.1.2 Combined Heat and Power (CHP)
6.2 By Heat Source
- 6.2.1 Coal
- 6.2.2 Natural Gas
- 6.2.3 Renewables
- 6.2.4 Oil and Petroleum Products
6.3 By Application
- 6.3.1 Residential
- 6.3.2 Commercial and Industrial
6.4 By Geography
- 6.4.1 North America
- 6.4.2 Europe
- 6.4.3 Asia-Pacific
- 6.4.4 Rest of the World

7 COMPETITIVE LANDSCAPE

7.1 Company Profiles
- 7.1.1 Vattenfall AB
- 7.1.2 SP Group
- 7.1.3 Danfoss Group
- 7.1.4 Engie
- 7.1.5 NRG Energy Inc.
- 7.1.6 Statkraft AS
- 7.1.7 Logstor AS
- 7.1.8 Shinryo Corporation
- 7.1.9 Vital Energi Ltd
- 7.1.10 Gteborg Energi
- 7.1.11 Alfa Laval AB
- 7.1.12 Ramboll Group AS
- 7.1.13 Keppel Corporation Limited
- 7.1.14 FVB Energy