市場調查報告書
商品編碼
1324348
2030 年半導體冷卻器市場預測 - 按產品類型、產品設計、用途、最終用戶和地區進行的全球分析Semiconductor Coolers Market Forecasts to 2030 - Global Analysis By Type (Single Stage, Multi Stage and Other Types), Product Design, Application, End User and By Geography |
據Stratistics MRC預測,2023年全球半導體冷卻器市場規模將達到36億美元,預計到2030年將達到56億美元,預測期內年複合成長率為6.5%。
半導體冷卻器,也稱為珀耳帖冷卻器、熱電冷卻器和熱電模組,用於消除向半導體施加直流 (DC) 電壓時產生的熱量。當施加電壓時,冷卻器將熱量從一個區域傳遞到另一個區域,冷卻第一區域並加熱第二區域。如果沒有這些半導體冷卻器附帶的散熱器,半導體模組本身可能會發生故障。
從我國資料中心消費量來看,目前我國資料資料中心數量超過40萬個,每年總電力需求達到1000億千瓦時,即千瓦時。
消費電子行業正在經歷重大變革。 LED 和智慧電視正在取代陰極射線管 (CRT) 電視,洗衣機和空調等家用電子設備正在變得完全自動化。鑑於這些發明和市場對更好電子設備的渴望,製造商不斷努力推出具有更多功能的更好消費產品。這些變量可能會在預期幾年內推動對半導體冷卻器的需求。
電子零件製造商依靠傳統壓縮機在製造過程中調節電子零件的溫度。然而,傳統或固態冷卻器對於高功率用途來說是無效的。因此,由於對高散熱的要求越來越高,大量半導體裝置製造商正在採用液冷技術。它利用微通道冷板將冷卻液散佈在半導體晶片的表面上。因此,在預測期內,目標市場的成長可能會受到此類產品供應的重大影響。
引擎的發展不斷受到對低油耗和低排放氣體的追求的影響。特別是,在保持高性能的同時向小型引擎發展的趨勢導致了零件特定負擔的穩定增加。因此,增壓空氣冷卻器對於高性能引擎的開發至關重要,並且需求不斷增加。配備高性能引擎的汽車符合廢氣法規,並表現出卓越的速度和動力。
減少中間冷卻器中的冷凝水積聚一直是中冷器製造商面臨的挑戰。如果吸入大量的水,可能會導致引擎故障。汽車製造商經常在許多汽車中使用相同的中冷器主體,以降低成本並簡化製造過程。因此,大排量引擎的中冷器在高功率範圍內的尺寸不合適,導致小型引擎中冷器過冷。引擎高速運轉時,如果同一型號的引擎輸出功率較低,中冷器上可能會形成凝露。
由於COVID-19的影響,汽車產量有所減少,而這種減少與整體汽車增壓空氣冷卻器市場的收縮密切相關。另一方面,由於大流行的影響,汽油細分市場的成長預計將超過柴油,因為柴油引擎價格昂貴,而且新排放法規的訂定將進一步提高價格,尤其是小型汽車。因此,我們可能會看到有利於 GDI 和汽油引擎的趨勢。因此,汽車增壓空氣冷卻器的市場可能會擴大。
預計單級部分在預測期內將是最大的。單級半導體冷卻器僅使用單個主動冷卻級來管理熱性能。壓縮機、冷凝器和蒸發器通常用於冷卻電子系統中的半導體。單級固態冷卻器最典型的用途是當功率和空間有限且多級系統的尺寸和複雜性不切實際時。
預計汽車行業在預測期內將出現最高的年複合成長率,因為這些冷卻器提供的有效冷卻使汽車的前排和後排座椅能夠根據乘員的意願單獨冷卻。因此,車內的每位乘客都能享受到個人的舒適感。此外,隨著混合電動車(HEV)的成長趨勢,預計未來幾年對半導體冷卻器的需求將會增加。混合動力電動車的電池需要高效的冷卻技術來維持工作溫度。無論外部條件或環境如何,固態冷卻器都會調節電池的溫度並提供冷卻以實現最佳性能。
由於乘用車的高產量和需求以及國際排放法規,預計亞太地區在預測期內將佔據最大的市場佔有率。亞太地區汽車增壓空氣冷卻器市場正受益於節能汽車的興起。 Hanon Systems、T.RAD Co. Ltd、Marelli、Denso Corporation等主要增壓空氣冷卻器製造商也正在向該地區擴張,該地區的產業正在擴大,這是有可能的。這些公司正在該地區發展壯大。
歐洲的年複合成長率預計將在預測期內最高。這是由於該地區存在大量半導體冷卻器製造商以及消費電子設備不斷成長的需求。該地區製造業基地的崛起和工業自動化的加速成長都有助於市場擴張。不斷增加的技術用戶群、消費者對電子設備和小玩意的需求不斷成長是影響該地區成長的要素。
According to Stratistics MRC, the Global Semiconductor Coolers Market is accounted for $3.6 billion in 2023 and is expected to reach $5.6 billion by 2030 growing at a CAGR of 6.5% during the forecast period. Semiconductor coolers, often referred to as Peltier coolers, thermoelectric coolers, or thermoelectric modules, are used to remove heat generated when direct current (DC) voltage is applied to semiconductors. When a voltage is applied, the cooler transfers heat from one area to another, cooling the first area while heating the second. Without the heat sink that goes along with these semiconductor coolers, the semiconductor module itself could malfunction.
According to the Energy Consumption of Data Centers in China, the current numbers of small- and medium-sized data centers in China exceeded 400,000, and the annual total power demand reached 100 billion kWh, i.e., around 250,000 kWh for each data center, annually.
The consumer electronics industry has seen significant change. LED and smart TVs are replacing Cathode Ray Tube (CRT) TVs, while electronic home equipment like washing machines and air conditioners are becoming totally autonomous. Manufacturers are continually working to introduce better consumer items with increased features in light of these improved inventions and the market thirst for better electronics. In the anticipated years, these variables will raise the demand for semiconductor coolers.
Manufacturers of electronic components regulate the temperature of those components during the manufacturing process using conventional compressor-based methods. Traditional coolers and semiconductor coolers, however, are ineffective for high-power applications. Therefore, a huge number of semiconductor device makers are implementing liquid cooling technology due to an increase in the demand for high heat dissipation. This makes use of microchannel cold plates, which spread coolant liquids over the semiconductor chip's surface. Therefore, during the projected period, the growth of the market under consideration may be severely impacted by such product offers.
Engine development has been continuously influenced by the ongoing pursuit for lower fuel consumption and lower exhaust emissions. In particular, the tendency of shrinking engines while maintaining high performance has resulted in a steadily rising specific component load. Thus, charge air coolers are becoming more and more necessary for the development of high-performance engines, which has increased demand for them. Automobiles with high-performance engines meet emission limits and have excellent speed and power.
Reducing the buildup of condensed water in intercoolers had been a challenge for charge air cooler manufacturers. When a significant amount of water has aspired, this can cause the engine to malfunction. The same intercooler body is frequently used in many cars by automakers to reduce costs and simplify the manufacturing process. As a result, overcooling of the intercooler occurs in smaller engines due to the proper dimensioning of an intercooler for greater displacement engines at high power regimes. When the engine runs at high revs, condensation can form in the intercooler even in the same car model at low power.
Vehicle production has decreased as a result of COVID-19, and this decrease is closely correlated with the overall automotive charge air cooler market reduction. In contrast, it is anticipated that the pandemic effect will aid the gasoline segment in growing over diesel because diesel engines are expensive and the introduction of new emission rules further drives up their price, particularly in light-duty cars. As a result, a movement in favor of GDI or gasoline engines may be seen. As a result, the market for automobile charge air coolers will have a higher chance of expanding.
The single stage segment is expected to be the largest during the forecast period. A single active cooling stage is all that is used in a single-stage semiconductor cooler to manage thermal performance. In order to cool the semiconductors in an electronic system, normally only one compressor, one condenser, and one evaporator are used. The most typical applications for single-stage semiconductor coolers are those where power and space are limited and where a multi-stage system's size and complexity are unworkable.
The automotive segment is expected to have the highest CAGR during the forecast period due to the effective cooling offered by these coolers, the front and rear seats of the car can each be separately chilled to the occupant's desire. Each passenger in the car receives personalized comfort as a result. Moreover, the need for semiconductor coolers is anticipated to increase in the upcoming years due to the growing trend of hybrid electric vehicles (HEV). Batteries for hybrid electric vehicles require efficient cooling techniques that maintain temperature during operation. Given any external state or environment, semiconductor coolers provide maximum cooling that regulates the battery temperature and gives maximum performance.
Asia Pacific is projected to hold the largest market share during the forecast period due to the high production and demand for passenger cars, as well as international emission standards. The market for automotive charge air coolers in Asia and the Pacific has benefited from the rise of fuel-efficient vehicles. Leading charge air cooler producers including Hanon Systems, T.RAD Co. Ltd., Marelli, and Denso Corporation are also present in the region, which presents chances for the industry there to expand. These businesses have been growing and establishing themselves in the area.
Europe is projected to have the highest CAGR over the forecast period, owing to the existence of numerous local semiconductor cooler manufacturers and the increased demand for consumer electronics in the area. The region's rising manufacturing base and faster growth of industrial automation are both contributing to the market's expansion. Rising technical user bases, and growing consumer demand for electronic devices and gadgets are the factors influencing the region growth.
Some of the key players in Semiconductor Coolers market include: RMT, Ltd, Ferrotec Corporation, Micropelt, II-VI Incorporated, Thermion Company, Wellen Technology Co., Ltd., Phononic, Inc., Hicooltec Electronic, Tellurex Corporation, KELK, Ltd, Merit Technology Group, Hi-Z Technology, Komatsu, Laird PLC., Advanced Thermal Solutions Inc., Coherent Corp., Nippon India, Wallen Technology Co.Ltd and Hanon Systemss.
In April 2021, Ferrotec (USA) Corporation announced that Metamaterial Inc, has collaborated with Ferrotec to validate aspects of their NanoWeb® production methodology using Temescal systems. Ferrotec's Temescal systems group was able to validate Metamaterial's process methodology and provide them with a technology solution path from cost-effective entry to high volume thin film production.
In March 2021, Hanon Systems announced that it had begun the construction of its fifth plant in Korea. The new plant, located in Naengcheon-ri, Oedong-eup, Gyeongju-si, will be built on a site that offers approximately 33,000 square meters of land. Construction of the Gyeongju facility is expected to be complete in the second quarter of 2021 with production expected to begin in the third quarter.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.