市场调查报告书
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1403882
全球暖通空调感测器市场 - 预测2024-2031HVAC Sensors Market - Forecast(2024 - 2031) |
预计到 2023 年,亚太地区将占据 HVAC 感测器市场的主导地位,其价值份额约为 40%,其次是北美,其价值份额为 29%。
推动市场扩张的主要原因之一是全球城市化和工业化步伐的加速。由于国际上各种商业和住宅建筑的建设大幅增加,对作为供暖和製冷系统一部分的 HVAC 感测器的需求显着增加。由于这种尖端技术相对于目前使用的各种感测器具有显着优势,因此预计未来其采用将迅速增加。这一点对于市场扩张具有重要意义。
根据World Green Building Council的数据,建筑物估计占全球能源消耗的近三分之一以及与能源相关的碳排放量的近 40%。据 Iota Communications 称,一栋典型办公大楼每年的能源支出约为 3 万美元。暖通空调系统通常是商业建筑中最大的能源消耗者。美国能源部估计 HVAC 系统通常消耗建筑物能源的 35%。较旧的暖通空调系统消耗更多能源,故障更快,而且效率较低。BEMS 是一种监控和控制建筑物能源需求的先进方法。疫情期间,对具有空气净化功能的暖通空调系统的需求激增。现代化的通风系统透过过滤空气和减少空气中的污染物(例如含病毒颗粒)来提供重要的公共卫生功能。
智慧家庭使用连网设备来远端监控和管理家用电器和系统,例如暖气、冷气和照明。智慧家庭的优点是能源效率、客製化和易用性。智慧家庭科技将越来越依赖精确的感测。住宅、商业和工业建筑的总能耗、二氧化碳排放量和营运成本直接取决于暖通空调安装的品质及其与感测器网路的整合。据美国能源部称,智慧建筑技术可以将住宅建筑的能源消耗减少 60% 以上,商业建筑的能源消耗减少高达 59%。此外,透过投资提供良好室内空气品质标准的人工智慧智慧建筑技术,办公大楼已被证明可将员工生产力和认知功能提高10%以上。因此,智慧家庭的日益普及正在推动对暖通空调感测器的需求。
暖通空调系统是建筑物的重要组成部分,成本很高。根据澳洲Department of Climate Change, Energy, the Environment的数据,典型的 HVAC 系统约占建筑总能耗的 40% 和基本建筑能耗的 70%。建筑能源管理系统 (BEMS) 是一种基于电脑的自动化系统,用于监控和控制建筑物内所有与能源相关的系统,包括机械和电气设备。能源管理透过实现能源系统和供应的准确和自动化管理来保护企业免受不必要的能源支出。据Radiocrafts称,BEMS可节省目前能源消耗10%至30%。由于俄罗斯和乌克兰的战争,欧盟的能源价格飞涨。因此,BEMS 的日益普及是 HVAC 感测器市场的驱动因素。
该报告研究了全球 HVAC 感测器市场,并提供了市场份额、驱动因素、细分市场、区域和主要参与者的分析。
The report, "HVAC Sensor Market - Forecast (2023-2028)", by IndustryARC, covers an in-depth analysis of the following segments of the HVAC Sensor market.
By Type: Temperature Sensor, Humidity Sensor, CO & CO2 Sensor, Pressure Sensor, Occupancy Sensor, Flow Sensor, Combo Sensor and Others
By Application: Room Air Temperature, Solar Refrigerators, Solar Water Heaters, Boiler Controls, Duct Air Temperature, Duct Air Pressure, Commercial Chillers, Commercial Cooking Equipment, Compressors and Motors, Container Storage, Electronic Expansion Valves, Forced Air Furnaces, Heat Pumps, Ice Machine, Air Conditioner, Pool Heater Equipment, Refrigerator, Beverage Dispensing, Underfloor Heating and Ice Melting, Water Heaters, and Others
By End Use Industry: Residential, Commercial, Transportation & Logistics, Aerospace, Automotive, Chemical, Energy and Power, Food and Beverage, Medical, Metal Processing, Mining, Oil and Gas, Pharmaceutical, Plastic, Rubber, Water & Wastewater, and Others
By Geography: North America, South America, Europe, APAC, and RoW
The APAC region is anticipated to dominate the HVAC sensors market with a value share of approximately 40% in 2023, followed by North America with a 29% value share in the HVAC Sensors market.
One of the main reasons propelling the market's expansion is the quickening pace of urbanization and industrialization around the globe. The need for HVAC sensors as a part of the cooling and heating system, is growing significantly due to the substantial rise in the erection of various commercial and residential buildings internationally. Due to its key benefits over the various sensors currently in use, it is anticipated that the adoption of this cutting-edge technology will rise quickly in the future. This aspect has had an important effect on the expansion of the marketplace.
The CO & CO2 Sensors segment is set to witness the highest growth of 6.5% during 2024-2030. Carbon Monoxide (CO) sensors are employed in HVAC systems to detect the presence of carbon monoxide in the air moving through the duct return, supply, or both in HVAC end-user applications especially in commercial and industrial sectors. There are four types of CO sensors including opto-chemical CO sensors, biomimetic CO sensors, electro-chemical CO sensors, and semiconductor CO detectors. Carbon dioxide sensors are also employed to monitor the level of carbon dioxide in the HVAC supply, return, or both. There are two major types of CO2 sensors, namely, chemical CO2 sensors and Non-Dispersive Infrared (NDIR) CO2 sensors. The increasing launches of CO and CO2 sensors are driving the market growth, for instance, in 2021, Sensirion launched a new product in its SCD4x miniaturized CO2 sensor series. The SCD42 was designed for HVAC applications. These sensors are used to monitor the air quality in under-ventilated areas or zones with higher occupancy in a building to override the rated intake of fresh air and ventilate the outdoor air flow rates if the CO2 concentration crosses the threshold level.
The air conditioning segment dominated the HVAC Sensor market attributing a share of 28% in 2023. The demand for HVAC sensors in air conditioning applications has surged, driven by the need for energy-efficient and smart climate control solutions in both residential and commercial spaces. These sensors play a crucial role in optimizing HVAC systems, enhancing overall efficiency, and ensuring a comfortable environment. The residential sector benefits from sensor-based HVAC systems that adapt to varying conditions, promoting energy savings.
The Automotive industry is set to witness significant growth in the HVAC Sensor market during 2024-2030. HVAC sensors are used in a vehicle for controlling the internal temperature of the vehicle cabin. The HVAC system provides purified air to the vehicle cabin, ensuring vehicle comfort to the driver and the passenger. According to The International Organisation Internationale des Constructeurs d'Automobiles (OICA), Global sales of passenger cars have increased from 54 million units in 2020 to 57 million units in 2022. The increasing production and sales of electric vehicles have raised the demand for HVAC sensors in the automotive industry. For instance, according to the International Energy Agency (IEA), electric car sales reached a record 3 million in 2020, up by 40% from 2019. The Net Zero Emissions by 2050 scenario projects 300 million electric cars on the road and accounts for over 60% of new car sales, compared with only 4.6% in 2020. Thus, the rapidly rising sales of electric vehicles are estimated to drive the growth of the automotive industry, and in turn of the HVAC sensors market.
Asia Pacific region dominated the HVAC Sensor market attributing a share of 40% in 2022. Driving factors include increasing urbanization, rising disposable incomes, and the growing demand for energy-efficient HVAC systems in countries like China, India, Japan, South Korea, and Australia. The region's booming construction sector, coupled with government initiatives promoting energy-efficient buildings, is driving the adoption of HVAC sensors. These sensors play a crucial role in optimizing energy consumption, improving indoor air quality, and enhancing overall comfort and safety. In 2022, Germany's BMW announced the commencement of production at its new plant in China with an investment of 15billion yuan ($2.24 billion) as the carmaker accelerates electric vehicle (EV) production. The rising investment and growth of various sectors such as automotive and construction are expected to boost the demand for HVAC sensors during the forecast period.
Buildings are estimated to account for nearly a third of the world's energy consumption and almost 40% of energy-related carbon dioxide emissions, according to the World Economic Forum According to the World Green Building Council, the energy required for a building's operations-such as heating, cooling, and powering the structure-is responsible for about one-third of those emissions. Iota Communications reports that the typical office building's annual energy expenditures come to around $30,000. HVAC systems often consume the most energy in a commercial building. The U.S. Department of Energy estimates that HVAC systems typically consume 35% of the energy in a building. An old HVAC system will operate less effectively since it will consume greater amounts of energy and break down more quickly BEMS is a sophisticated method to monitor and control the building's energy needs. During the pandemic, there was a surge in the demand for HVAC systems with air purification features. Modernized ventilation systems provide an important public health function that filtrates the air and reduces airborne contaminants, including particles containing viruses.
Smart homes use internet-connected devices to enable the remote monitoring and management of appliances and systems such as heating, cooling, lighting, etc. The advantages of smart homes are energy efficiency, customization, and ease of use. Smart home technology further increases reliance on accurate sensing. The total energy consumption, CO2 footprint, and operation costs of residential, commercial, and industrial buildings directly depend on the quality of the HVAC installation and its integration in the sensor network. According to the U.S. DoE, smart building technology can reduce energy by more than 60% in residential buildings and up to 59% in commercial buildings. Additionally, investing in AI smart building technology that provides good indoor air quality standards has proven to improve employee productivity and cognitive function in office buildings by more than 10%. Thus, the increasing popularity of smart homes drives the demand for HVAC sensors.
HVAC systems are an essential part of buildings and are associated with high costs. According to the Australian Department of Climate Change, Energy, the Environment and Water, a typical HVAC system accounts for approximately 40% of total building consumption and 70% of base building consumption. Building Energy Management Systems (BEMS) are computer-based automated systems that monitor and control all energy-related systems from mechanical and electrical equipment in buildings. Energy management protects businesses from unnecessary expenditure on energy by allowing accurate and automated management of energy systems and supply. According to Radiocrafts, BEMS can help an organization save up to 10% to 30% of their current energy consumption. Due to the Russia-Ukraine war, energy prices are skyrocketing in the EU. Thus, the growing adoption of BEMS acts as a driver for the HVAC sensor market.
The proper functioning of an HVAC system depends heavily on the correct selection, positioning, and installation of sensors. Sensors can be installed to measure several different parameters such as the number of occupants, temperature, humidity, carbon dioxide, etc. The selected sensor should be capable of detecting the quantity under study (Temperature, humidity, CO2, etc.), that the expected range of values is within the detecting range of the sensor, and that the sensor has the desired accuracy and sensitivity. The correct positioning of the sensors is crucial for the correct functioning of the HVAC system. For instance, temperature and humidity sensors must not be exposed to direct solar radiation or be installed close to heat sources. Such factors can restrain the growth of the HVAC sensor market.
Phasing Out Certain Refrigerants may Result in Lower Demand for Toxicity Sensors
Despite their low toxicity, refrigerants can displace oxygen, at high concentrations, which can result in accidental injury or death by oxygen deprivation. Toxicity sensors reduce the risks from releases through early detection. Activation of a sensor, for example, can cause an alarm signal and lead to HVAC shutdown and activation of damper controls to prevent the spread of toxic gas. R22 is a single-component refrigerant used traditionally in both air conditioners and heat pumps. On Jan. 1, 2020, the U.S. Environmental Protection Agency (EPA) banned the production and import of R22 because of its particularly harmful impact on the ozone layer when released into the air. Phasing out the R22 refrigerant could lead to lower demand for toxicity sensors and thus affect the HVAC sensors markets.
Acquisitions, Expansions, Product launches, and Partnerships are key strategies adopted by players in the HVAC Sensor market. In 2022, the HVAC Sensor Market share has been consolidated by the top ten players accounting for more than 50% of the share. Major players in the HVAC Sensor market are Johnson Controls, Inc., Siemens AG, TE Connectivity Corporation, Honeywell International, Inc, Sensata Technologies Inc., Sensirion, Omron Corporation, Emerson Electric Co., Greystone Energy Systems Inc., Acal Bfi and others.
Ø In 2023, Johnson Controls-Hitachi Air Conditioning Launches Emissions-Reducing Residential HVAC Dual Fuel Heat Pump System.
Ø In 2023, Johnson Controls acquired M&M Carnot to enhance its sustainable Industrial Refrigeration portfolio.
Ø In 2022, Siemens equips the RDG200 thermostat with new CO2 monitoring and control features with a built-in CO2 sensor for monitoring and controlling indoor air quality. It helps to provide a healthy indoor climate and a safe place to work and achieves high energy efficiency and reduced energy costs.
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