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市场调查报告书
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1198203
住宅空气-水热泵市场 - 增长、趋势、COVID-19 影响和预测 (2023-2028)Residential Air To Water Heat Pump Market - Growth, Trends, and Forecasts (2023 - 2028) |
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在预测期内,全球住宅空气对水热泵市场预计将以 9% 的复合年增长率增长。
有利的监管框架,加上鼓励采暖、通风和空调 (HVAC) 装置的清洁供暖计划,可能会对住宅空对水供热的市场份额产生积极影响泵。奖品。 持续批准和部署可持续系统以减少对环境的负面影响,预计将进一步加速产品的回归。 越来越多地转向可持续解决方案以减少能源消耗是推动采用住宅空气对水热泵的主要因素之一。 各地区政府在降低能源消耗方面发挥着重要作用。
此外,由于城市人口的增加,住宅部门的发展也是影响市场增长的一个因素。 据 FMI Corporation 称,儘管受到 COVID-19 大流行的影响,2020 年美国的新房建设仍增加了 150 亿美元。 这种增长在市场上创造了新的机会。
根据国际能源署 (IEA) 的数据,全球安装的热泵数量预计将从 2020 年的 1.8 亿台增加到未来几年的约 6 亿台。 热泵的效率至少是传统化石燃料锅炉的三倍,预计在未来几年内,单个建筑安装的热泵将从每月 150 万台增长到约 500 万台。 热泵甚至成为许多国家新建住宅最普遍的技术,但仅满足全球5.0%的建筑供暖需求,为市场创造了新的机遇。
COVID-19 大流行影响了对节能技术的投资。 根据国际能源署 (IEA) 的《2020 年世界能源投资》,经济衰退之后,2020 年对节能技术的投资有所下降。 大流行还对供应链产生了影响,主要製造商关闭了运营并降低了开工率。 大金、富士通等公司因供应链中断而经历回程。
住宅空气-水热泵的市场趋势
热泵技术对减少二氧化碳排放量的贡献推动了市场
- 能源是公司、医院、家庭、学校等日常生活所必需的。 然而,能源生产会导致温室气体排放。 根据EIA,2021年美国能源消耗二氧化碳(GtCO2)排放量为48.7亿吨,比2020年增长6.5%。 由于 COVID-19 爆发,排放量在 2020 年暴跌了 11%,这极大地扰乱了工业和旅游业。
- 二氧化碳 (CO2) 是一种温室气体,主要通过燃烧煤炭、石油和天然气等化石燃料排放。 许多国家已采取政策限制环境中的温室气体排放,以减少因二氧化碳排放量增加而导致的一次能源需求。 住宅空气-水热泵提供节能供暖,并正在推动市场增长。
- 通过使用空气对水热泵系统而不是基于化石燃料的方法,可以显着减少与发电相关的能源消耗和碳排放。 为此,越来越多的公寓楼正在安装节能热泵。
- 与此类似,2021 年 6 月,美国环境保护署 (EPA) 宣布其能源之星计划取得进展,到 2030 年将排放量减少 50% 以上。 该机构已经升级了住宅热水器以及推进创新热泵技术的加热和冷却设备的能源之星标准。
- 升级后的标准将作为减少碳污染以及降低能源和供暖成本的关键因素。 据估计,如果在美国销售的所有中央空调、热泵和电热水器都符合新的能源之星标准,每年将节省110亿美元。 它还有可能每年避免排放 2550 亿磅温室气体,相当于美国家庭和公寓直接排放的所有温室气体的三分之一。
美国主导市场
- 空气对水热泵已在美国大部分地区使用多年,但长期处于零下温度的地区除外。 然而,在过去几年中,空气对水热泵技术取得了进步,现在即使在寒冷气候下也可以用作合法的空间供暖替代方案。
- 美国市场正在逐渐赶上中国和日本等其他地区。 建筑商已经接受了性能係数 (COP) 竞赛,以开发节能和环保的加热和冷却技术。
- 此外,由于对控制碳足蹟的兴趣增加以及政府推动安装以支持住宅空气-水热泵机组的采用,预计美国市场将出现显着增长。. EIA 估计,到 2050 年,美国商业部门将因石油使用排放 6200 万吨二氧化碳。
- 根据美国人口普查局和美国住房和城市发展部的数据,2021 年 8 月经季节性调整的私人住房开工年率为 161.5 万套,比 2021 年 7 月修正后的 155.4 万套预测低 3.9%。17.45%高于 2020 年 8 月的 1,376,000。 建筑活动的增加创造了对空气对水热泵的新需求。
- 对水和空间供暖的需求不断增长,加上美国建筑业的快速復苏,将补充维修和翻新活动,并推动住宅领域对技术先进的紧凑型供暖解决方案的需求。预测。 例如,据 BEA 称,建筑业增值占美国国内生产总值的 4.1%。 还预计到 2023 年将有 1.449 万亿美元的新建筑。
家用空气-水热泵市场竞争对手分析
住宅空气对水热泵市场竞争激烈,由几家主要参与者组成。 住宅空气-水热泵市场的竞争对手随着大金工业有限公司、三菱电机欧洲有限公司、阿里斯顿热能公司、Ferroli S.p.A、Baxi Heating UK Ltd 等几家主要参与者的存在,公司之间的竞争格局为中等。在某种程度上。 这些公司的优势在于不断创新他们的产品,使他们在市场上比其他公司更具竞争优势。 这些参与者正在通过併购和研发活动增加他们的市场占有率。
2022 年 9 月,松下计划投资约 1.45 亿欧元(约合 1.448 亿美元),到 2026 年 3 月底将其捷克工厂的热泵产量提高到 500,000 台。 2018 年,松下在比尔森的电视工厂开始在一条生产线上生产空气对水室内机。 松下去年决定停止工厂的电视生产,理由是需求下降,释放出热泵生产能力。 2021 年 9 月,日本空调製造商大金根据白色家电生产相关激励 (PLI) 计划为新工厂购买了土地。 一家跨国公司在印度的实体大金印度公司已完成收购斯里城(安得拉邦)一块 75 英亩土地的交易,以分阶段建设大型空调 (AC) 製造厂。 据内部估算,大金一期需要投资1000印度卢比。
其他好处
- Excel 格式的市场预测 (ME) 表
- 三个月的分析师支持
内容
第1章介绍
- 研究假设和市场定义
- 调查范围
第2章研究方法论
第 3 章执行摘要
第 4 章市场洞察
- 市场概览
- 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
- 竞争公司之间的敌对关係
- 替代品的威胁
- COVID-19 对热泵行业的影响
第 5 章市场动态
- 市场驱动因素
- 对节能係统的需求不断增加
- 减少碳足蹟的有利措施
- 市场挑战
- 初始成本高
- 低绩效係数 (COP) 水平
第 6 章市场细分
- 按地区
- 美国
- 中国
- 法国
- 意大利
- 世界其他地方
第7章竞争格局
- 公司简介
- Daikin Industries Ltd
- Mitsubishi Electric Europe B.V
- Ariston Thermo SpA
- Ferroli S.p.A
- Baxi Heating UK Ltd(BDR Thermia Group)
- Aermec SpA
- Clivet S.p.A
- Tecnocasa climatizzazione s.r.l.
- Toshiba Corporation
- Panasonic Corporation
- Vaillant Group
- Swegon Group AB
- NIBE Industrier AB
第8章 投资分析
第9章 市场机会与将来动向
The Global Residential Air-to-Water Heat Pump Market is expected to register a CAGR of 9% over the forecast period.
A favorable regulatory framework, coupled with clean cooling & heating programs to promote the enactment of heating, ventilation, and air conditioning (HVAC) units, will positively influence the residential air-to-water heat pump market share. Continuous approval and deployment of sustainable systems to lessen the adverse environmental influence are expected to further accelerate product regression. The growing shift toward sustainable solutions to reduce energy consumption is one of the major factors that is driving the adoption of air-to-water heat pumps for residential use. Governments across all regions play a major role in reducing energy consumption.
The development in the residential sector in line with the growing urban population is also a factor influencing the market's growth. According to FMI Corporation, in 2020, new residential construction in the United States increased by USD 15.0 billion, despite the impact of the COVID-19 pandemic. Such growth creates new opportunities for the market.
According to International Energy Agency, the number of heat pumps installed globally is expected to rise from 180.0 million in 2020 to around 600.0 million in the next few years. At least three times more efficient than traditional fossil fuel boilers, the installation of heat pumps in individual buildings is expected to rise from 1.5 million per month currently to around 5.0 million in the next few years. Although heat pumps have even become the most common technology in newly built houses in many countries, they meet only 5.0% of the global building heating demand, thus creating new opportunities for the market.
The COVID-19 pandemic affected investments in energy-efficient technologies. According to International Energy Agency (IEA) World Energy Investment 2020, investment in energy-efficient technologies in 2020 fell due to the economic downturn. In addition, the pandemic led to an effect on the supply chain of the major players in the market owing to the lockdowns and restrictions on working capacity. Companies, such as Daikin and Fujitsu, among others, experienced backhauls due to supply chain disruptions.
Residential Air to Water Heat Pump Market Trends
Meaningful Contribution of Heat Pumping Technology in Reduction of CO2 Emissions Drives Market
- Energy is necessary for daily life as it fuels businesses, hospitals, powered homes, and schools. However, energy generation leads to the discharge of greenhouse gases. As per EIA, energy consumption in the United States produced 4.87 billion metric tons of carbon dioxide (GtCO2) in 2021, an increase of 6.5% from 2020 levels. In 2020, emissions plummeted by 11% as a result of the outbreak of COVID-19, which heavily disrupted industry and travel.
- Carbon dioxide (CO2), which is one of the greenhouse gases, is released substantially through the burning of fossil fuels, such as coal, oil, and natural gas. Many countries aim to reduce their primary energy demand due to rising CO2 emissions and implement policies to limit greenhouse gases in the environment. The Residential Air to Water Heat Pump offers an energy-efficient way to provide space heating, thus fueling the market's growth.
- Carbon emissions associated with energy consumption and generation can be decreased considerably when air-to-water heat pump systems are utilized instead of fossil-fueled methods. This is driving a rise in the number of residential complexes with energy-efficient heat pump installations.
- On similar lines, in June 2021, the United States Environmental Protection Agency (EPA) announced advancements to the Energy Star program to reduce emissions by more than 50% by 2030. The authority upgraded the Energy Star standards for residential water heaters and heating/cooling equipment that advance innovative heat pump technology.
- The upgraded standards will be used as a key component to reduce carbon pollution and reduce energy and heating costs. It is estimated that if all central air conditioners, heat pumps, and electric water heaters sold in the United States met the new Energy Star standards, the savings are expected to increase to USD 11.0 billion a year. It may also avoid 255.0 billion pounds of greenhouse gases per year, which equals one-third of all direct greenhouse gas emissions from homes and apartments in the United States.
United States to Dominate the Market
- Air-to-water heat pumps have been utilized for many years in almost all parts of the United States except those that experienced extended periods of subfreezing temperatures. However, air-to-water heat pump technology has advanced in the last few years, which now offers a legitimate space heating alternative in colder regions.
- The US market is gradually catching up with other regions, such as China and Japan, as contractors embrace the coefficient of performance (COP) race, developing energy savings and environmentally friendly heating and cooling technology.
- Additionally, the US market is anticipated to witness substantial growth due to the growing concerns about controlling carbon footprints, coupled with the installation of government drives to support the adoption of residential air-to-water heat pump units. According to the EIA, it is estimated that 62.0 million metric tons of CO2 emissions will be produced using petroleum in the commercial sector in the United States by 2050.
- According to the United States Census Bureau and the US Department of Housing and Urban Development, privately owned housing started in August 2021 at a seasonally adjusted annual rate of 1,615,000, 3.9% above the revised July 2021 estimate of 1,554,000 and was 17.45% above the August 2020 rate of 1,376,000. The increase in construction activities creates new demand for air-to-water heat pumps.
- Growing demand for water and space heating, coupled with a rapidly recovering construction industry in the United States and complemented with repair and renovation activities, is projected to drive the demand for technologically advanced and compact heating solutions in the residential sector. For instance, according to BEA, the value-added construction industry contributed to 4.1% of the gross domestic product in the United States. It is anticipated that new construction put in place will total USD 1,449 billion by 2023.
Residential Air to Water Heat Pump Market Competitor Analysis
The Residential Air to Water Heat Pump Market is moderately competitive and consists of several major players. The competitive rivalry in the residential air-to-water heat pump market is moderately high due to the presence of some major players, such as Daikin Industries Ltd, Mitsubishi Electric Europe BV, Ariston Thermo SpA, Ferroli S.p.A, and Baxi Heating UK Ltd, among others. Their strength to continually innovate their offerings has given them a competitive advantage over other players in the market. These players have increased their market footprint through mergers and acquisitions and research and development activities.
In September 2022, Panasonic stated that it plans to invest approximately EUR 145.0 million (around USD 144.8 million) to increase heat pump production at its Czech Republic factory to 500,000 units by the end of March 2026. In 2018, Panasonic began production of air-to-water indoor units with a single line at its TV factory in Plzen. Panasonic's decision to discontinue TV production at the plant last year due to the falling demand created extra capacity for heat pump production. In September 2021, under the production-linked incentive (PLI) plan for white goods, Daikin, a Japanese air conditioning company, purchased land for a new factory. Daikin India, the multinational's India unit, completed the acquisition deal for a 75-acre site in Sri City (Andhra Pradesh) to build a huge air-conditioning (AC) manufacturing plant in phases. According to internal estimations, Daikin will have to invest INR 1,000 crore in the first phase.
Additional Benefits:
- The market estimate (ME) sheet in Excel format
- 3 months of analyst support
TABLE OF CONTENTS
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 Intensity of Competitive Rivalry
- 4.2.5 Threat of Substitute Products
- 4.3 Impact of COVID-19 on the Heat Pump Industry
5 MARKET DYNAMICS
- 5.1 Market Drivers
- 5.1.1 Increasing Demand for Energy-efficient Systems
- 5.1.2 Favorable Measures to Reduce Carbon Footprints
- 5.2 Market Challenges
- 5.2.1 High Upfront Costs
- 5.2.2 Low Co-efficient of Performance (COP) Levels
6 MARKET SEGMENTATION
- 6.1 Geography
- 6.1.1 United States
- 6.1.2 China
- 6.1.3 France
- 6.1.4 Italy
- 6.1.5 Rest of the World
7 COMPETITIVE LANDSCAPE
- 7.1 Company Profiles
- 7.1.1 Daikin Industries Ltd
- 7.1.2 Mitsubishi Electric Europe B.V
- 7.1.3 Ariston Thermo SpA
- 7.1.4 Ferroli S.p.A
- 7.1.5 Baxi Heating UK Ltd (BDR Thermia Group)
- 7.1.6 Aermec SpA
- 7.1.7 Clivet S.p.A
- 7.1.8 Tecnocasa climatizzazione s.r.l.
- 7.1.9 Toshiba Corporation
- 7.1.10 Panasonic Corporation
- 7.1.11 Vaillant Group
- 7.1.12 Swegon Group AB
- 7.1.13 NIBE Industrier AB
