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市场调查报告书
商品编码
1615119
热电发电机市场:现状分析与未来预测 (2024年~2032年)Thermoelectric Generator Market: Current Analysis and Forecast (2024-2032) |
预计热电发电机市场在预测期内(2024-2032 年)将大幅成长约 11.5%。提高能源回收和余热意识以提高能源利用效率并最大限度地减少温室气体排放等因素是支持全球 TEG 市场成长的主要原因。如今,TEG 系统也用于汽车工业、製造工厂、发电厂和其他行业,以利用废热并降低成本和环境影响。此外,TEG 材料的技术开发和製造技术提高了 TEG 模组的性能和效率,可用于小型固定和便携式电源应用。
根据应用,市场分为余热回收、能量收集、直接发电和热电联产。余热回收领域占市场最大占有率。如此大的占有率表明回收废热并将其转化为可用电力的TEG技术在工业中得到了广泛采用。废热回收系统提供了一种经典的创新策略,透过利用原本会浪费在工业运作、汽车引擎、发电厂等中的热量来提高能源效率并降低营运成本。此外,由于永续能源举措的稳定发展趋势以及对减少温室气体排放的持续关注,预计余热回收产业在未来几年将呈现可观的成长。世界各地的各个产业正在整合热电发电机和其他余热发电技术,以提高效率、满足环境标准和要求并保持竞争力。
依产业划分,市场分为汽车、航太/国防、船舶、工业、消费品、医疗等。 2023年,工业领域主导整个市场。这一优势凸显了 TEG 技术在需要提高能源效率并抵消不断上升的生产和营运成本的行业中的实用性。热电发电机的使用正在扩展到在製造、化学製造、石油和天然气以及采矿等过程中产生大量废热的工业部门。 TEG 系统代表了一种有吸引力的解决方案,可以完全释放这种潜在的废物,并利用其来促进发电和提高能源效率,作为支持和促进环境保护的一种手段。
依类型划分,市场分为单级和多级。到 2023 年,单级细分市场将占据很大的市场占有率。单级 TEG 是一种相对简单的装置,仅由一组热电模组组成,可将废热完全转换为电能。这种简单性使其适用于各种行业的各种应用,例如汽车、製造和电子行业,这些行业的主要目标是回收和利用废热。
依材料,市场分为碲化铋、碲化铅等。到2023年,碲化铋细分市场将占据主要市场占有率。碲化铋由于其高效的热电性能和较宽温度范围内的热稳定性而具有优势,使其在热电应用中广泛应用。多年来,许多行业一直在寻找经济有效的方法来利用废热和能量转换,在这方面,热电发电机模组的首选材料是铋碲。
为了更了解热电发电机市场的采用情况,该市场分为北美(美国、加拿大、北美其他地区)、欧洲(德国、法国、英国、西班牙、义大利、欧洲其他地区)、亚洲太平洋地区(中国、日本、印度、亚太地区其他地区)及世界其他地区。预计北美地区在预测期内将以显着的复合年增长率成长。预计该地区将在预测期内成为当前行业的市场领导者。由于其产业结构得到加强、对技术的高度重视以及在整个预测期内对永续解决方案日益增长的兴趣,北美继续成为行业领导者。再生能源资产资本增加、环境考量标准提高以及能源效率技术日益普及等趋势预计将进一步加强北美的地位。美国在再生能源发电系统的开发方面取得了重大进展,包括基于太阳能、风能和地热的发电系统。这些再生能源发电系统现在得到了 TEG 的补充,以提高效率并最大限度地利用所产生的能源。
市场上的主要参与者包括 Gentherm、Coherent Corp、Ferrotec Holdings Corporation、Laird Thermal Systems, Inc、TECTEG MFR、Komatsu、Yamaha Corporation、Toshiba Corporation、MAHLE GmbH、Murata Manufacturing Co., Ltd.。
Thermoelectric generators are long-wearing and very reliable, and they are environmentally friendly and do not contain chemical products. This is boosting the growth of the demand for thermoelectric generators market in different end-use sectors. In addition, governments are also implementing many severe standards for lowering carbon outputs, plus more extensive measures for checking greenhouse emissions, which are also working as driving forces to the global thermoelectric generator industry.
The Thermoelectric Generator Market is expected to grow at a significant rate of around 11.5% during the forecast period (2024-2032). Factors such as rising consciousness towards energy recovery and waste heat to improve energy utilization efficiency and minimize the emission of greenhouse gases are the key reasons behind the market growth of the TEG across the globe. Today the TEG systems are also used in automotive industries, manufacturing facilities, power plants, and other industries to use waste heat and reduce cost and effect on the environment. Furthermore, the TEG material technological developments as well as manufacturing technology have enhanced the performance and efficiency of the TEG modules for utilization in both small-scale stationary and portable power applications.
Based on the application, the market has been segmented into waste heat recovery, energy harvesting, direct power generation, and co-generation. The waste heat recovery segment accounted for the largest share of the market. This large stake shows that TEG technology is being widely adopted in industries to capture waste heat and convert it into usable electrical power. Waste heat recovery systems provide a classic innovation strategy for upgrading energy efficiency and lowering operational costs by adopting heat that would otherwise be wasted in industrial operations, car engines, and power plants. In addition, the waste heat recovery segment is expected to demonstrate considerable growth in the coming years, owing to steady development tendencies of sustainable energy initiatives as well as the constantly increasing focus on reducing greenhouse gas emissions. Various industries around the globe are integrating thermoelectric generators and other WHR technologies to improve efficiency, meet environmental standards and requirements, and stay competitive.
Based on Vertical, the market has been segmented into automotive, aerospace & defense, marine, industrial, consumer, healthcare, and others. The industrial segment dominated the overall market in 2023. This dominance underscores the utility of TEG technology to industries that require improvements in energy efficiency and compensate for higher costs of production and operation. The use of the thermoelectric generator is widespread across the industrial segment of manufacturing, chemical manufacturing, oil and gas, and the mining segment where a considerable amount of waste heat is produced during the processes. TEG systems make for an appealing solution that can be proposed to fully unlock this potential wastage and embrace its utilization to drive electricity generation and enhance energy efficiency as a means of supporting and contributing to environmental conservation.
Based on type, the market has been segmented into single-stage and multi-stage. The single-stage segment holds a significant share of the market in 2023. Single-stage TEGs are relatively simple devices that are composed of just a single couple of thermoelectric modules that perfectly transform waste heat into electrical energy. This simplicity makes them suitable for different applications in different industries such as in automotive, manufacturing, and electronics industries where the main aim is to capture and utilize waste heat.
Based on material, the market has been segmented into bismuth telluride, lead telluride, and others. The bismuth telluride segment holds a significant share of the market in 2023. The domination of bismuth telluride points to its extensive use in thermoelectric applications due to its highly efficient thermoelectric characteristics as well as being thermally stable in a broad temperature range. Over the years many industries have looked for cost-effective ways of utilizing waste heat and energy conversion and in this respect, the material of choice for thermoelectric generator modules is bismuth telluride.
For a better understanding of the market adoption of the thermoelectric generator market, the market is analyzed based on its worldwide presence in countries such as North America (U.S., Canada, and the Rest of North America), Europe (Germany, France, U.K., Spain, Italy, Rest of Europe), Asia-Pacific (China, Japan, India, Rest of Asia-Pacific), Rest of World. North America is expected to grow with a significant CAGR during the forecast period. This region is expected to emerge as the market leader in the present industry during the forecast period. North America remains the leader in the industry due to its enhanced industrial structure, strong focus on technologies, and the increasing interest in sustainable solutions throughout the forecast period. Trends like growing capital on renewable energy assets, higher standards for environmental care, and the rising popularity of energy efficiency technologies are anticipated to strengthen North America's position further. There is considerable development of renewable energy systems in the U.S such as generation systems based on solar energy, wind energy, and geothermal energy. These renewable energy systems are now being complemented by TEGs to improve efficiency and make the most of generated energy.
Some of the major players operating in the market include Gentherm, Coherent Corp, Ferrotec Holdings Corporation, Laird Thermal Systems, Inc, TECTEG MFR, Komatsu Ltd, Yamaha Corporation, Toshiba Corporation, MAHLE GmbH, and Murata Manufacturing Co, Ltd.