市場調查報告書
商品編碼
1476431
全球後冷卻器市場預測(~2030年):按類型、應用、最終用戶和地區的分析Aftercoolers Market Forecasts to 2030 - Global Analysis By Type (Air Compressor, Gas Compressor and Other Types), Application (Turbine Coolers, Filter Pre-coolers, Portable Aftercoolers and Other Applications), End User and by Geography |
2023年全球後冷卻器市場規模為78.3657億美元,預計到2030年將達到117.8331億美元,預測期內年複合成長率為6.0%。後冷卻器是許多機械系統的重要組成部分,尤其是那些使用壓縮氣體或空氣的機械系統。
這些裝置的目的是降低壓縮氣體或空氣的溫度,壓縮氣體或空氣的溫度通常在壓縮過程中會升高。後冷卻器降低壓縮空氣的溫度,有助於冷凝壓縮空氣中的水分,並保護下游設備免受腐蝕和損壞。
根據美國機械工程師協會(ASME)的說法,後冷卻器是壓縮空氣系統中的重要組件,可有效降低壓縮空氣的溫度,提高效率並防止下游與潮濕相關的問題。
關於排放氣體和空氣品質的嚴格規定
世界各國政府實施更嚴格的法律,以減少排放並改善空氣品質。因此,業界日益增加對後冷卻器的投資,以遵守這些法規並減少對環境的影響。後冷卻器可去除壓縮空氣中的水分和雜質,以確保下游製程符合法規要求。此外,透過投資後冷卻器,各行業可以降低與空氣品質相關問題相關的維護成本,並提高設備的使用壽命和可靠性,同時實現合規性。
初始投資高
購買和安裝後冷卻系統的高昂初始投資成本是後冷卻市場的主要障礙之一。具有尖端功能和組件的優質後冷器的價格可能很高,特別是對於預算有限的中小型企業(SME)而言。此外,在舊系統中添加後冷卻器的成本可能會進一步加重公司的財務負擔。這些高昂的初始成本可能會阻止一些公司投資後冷卻器,特別是在財政緊張或經濟狀況不穩定的地區。
節能技術的增加
隨著對環境永續性和能源消耗的擔憂日益增加,節能技術在所有行業中變得越來越重要。透過降低壓縮空氣的溫度,後冷卻器對壓縮空氣和氣體系統的能源效率做出了重大貢獻。這減少了後續過程中使用的能源量。此外,隨著公司努力降低營運成本和碳排放,後冷卻器製造商擁有巨大的機會來創建提高能源效率和性能的尖端解決方案。
技術毀滅和替代的風險
傳統的後冷卻器正受到快速發展的替代冷卻解決方案和技術領域的威脅。取代傳統風冷後冷卻器的新技術,如熱管冷卻、液體冷卻和冷凍系統,有潛力推動市場需求。此外,將智慧感測器、預測性維護演算法和物聯網(IoT)連接整合到現代設備中,可主動監控和維護壓縮空氣系統,減少對獨立後冷卻器的需求。此外,為了應對這一威脅,後冷器製造商必須擁抱技術創新並修改其產品線,以納入提供更好性能、能源效率和付加功能的最尖端科技。
COVID-19 大流行減少了工業活動、顛覆了供應鏈並為全球經濟帶來了不確定性,對後冷卻器市場產生了重大影響。在大流行的早期階段,封鎖和其他措施減緩了建築、製造業和其他關鍵產業的發展,導致後冷卻器市場萎縮。此外,由於零件和原料短缺,供應鏈受到干擾,導致生產和交付嚴重延誤。此外,醫療保健、製藥和食品加工等行業對後冷卻器的需求量很大。這是因為這些產業逐漸恢復正常,人們越來越意識到維持設備可靠性和空氣品質的價值。
預計可攜式後冷卻器市場在預測期內將是最大的市場
可攜式後冷卻器由於其高適應性和跨眾多行業的廣泛應用,通常佔據後冷卻器市場的最大佔有率。可攜式後冷卻器的優點之一是其移動性,使其可以輕鬆移動並安裝在使用氣體或壓縮空氣系統的各個位置。它經常用於製造現場、建築工地和維護操作,以去除壓縮空氣中的水分和雜質,確保氣動機械和程序的可靠性和有效性。此外,最終用戶可以享受各種尺寸和配置的可攜式後冷卻器的靈活性和便利性,以適應不同的氣流速率和操作條件。
發電領域預計在預測期內年複合成長率最高
在後冷器市場中,發電領域的年複合成長率預計最高。該成長歸因於太陽能和風能等再生能源來源的擴張以及全球電力需求的增加。後冷卻器在發電設施中發揮非常重要的作用,可確保渦輪機運作、氣壓控制和空氣污染控制系統等許多過程中使用的壓縮空氣和氣體系統的有效性和可靠性。由於技術進步和目的是減少排放氣體和提高能源效率的立法,發電基礎設施進一步發展,預計該行業的後冷卻器需求將迅速增加。
亞太地區通常佔據後冷卻器最大的市場佔有率。該地區強大的工業基礎、快速的工業化和不斷發展的基礎設施是該地區主導的主要因素。後冷器市場深受中國、印度、日本和韓國等製造業、汽車和建築業龐大國家的影響。此外,新興國家擴大使用後冷卻器來提高工業生產力、遵守環境法規並提高能源效率,推動該領域的市場擴張。石油和天然氣、化學、發電以及食品和飲料等行業的持續投資也推動了後冷器需求,使亞太地區成為後冷器供應商和製造商的重要市場。
預計北美地區的後冷卻器市場年複合成長率最高。推動該成長的因素有很多,包括鼓勵使用後冷卻器以確保符合空氣品質標準的嚴格環境法規,特別是在食品和飲料、化學品以及石油和天然氣等行業。此外,由於該地區注重永續性和能源效率,後冷卻器用於最佳化壓縮空氣系統並降低營業成本。此外,在北美,由於後冷器設計和製造的技術進步和創新,市場日益擴大。
According to Stratistics MRC, the Global Aftercoolers Market is accounted for $7836.57 million in 2023 and is expected to reach $11783.31 million by 2030 growing at a CAGR of 6.0% during the forecast period. Aftercoolers are essential parts of many mechanical systems, especially those that use compressed gas or air. The purpose of these devices is to reduce the temperature of compressed gas or air, which is normally raised during the compression procedure. Aftercoolers aid in the condensation of moisture from compressed air by lowering its temperature, which shields downstream equipment from corrosion and damage.
According to the American Society of Mechanical Engineers (ASME), aftercoolers are integral components in compressed air systems, effectively reducing the temperature of compressed air to improve efficiency and prevent moisture-related issues downstream.
Strict rules regarding emissions and air quality
Stricter laws are being implemented by governments all over the world in an effort to lower emissions and improve air quality. Consequently, in order to abide by these rules and reduce their environmental impact, industries are investing more and more in aftercoolers. In order to guarantee that downstream processes adhere to regulatory requirements, aftercoolers assist in removing moisture and impurities from compressed air. Moreover, industries can reduce maintenance costs related to air quality-related problems and improve equipment longevity and dependability while also achieving compliance by investing in aftercoolers.
Expensive initial outlay
The high initial investment costs involved in buying and installing aftercooling systems are one of the main barriers to the aftercooling market. Superior aftercoolers with cutting-edge features and components can be costly, particularly for small and medium-sized businesses (SMEs) with tight budgets. Additionally, the expense of adding aftercoolers to outdated systems can make businesses' financial burdens even worse. Some businesses may be discouraged from investing in aftercoolers by these hefty upfront costs, especially in areas where there are financial restrictions or unstable economic conditions.
Increased use of energy-saving technologies
Energy-efficient technologies are becoming more and more important in all industries as worries about environmental sustainability and energy consumption grow. By lowering the temperature of compressed air, aftercoolers significantly contribute to the energy efficiency of compressed air and gas systems. This lowers the amount of energy used in subsequent processes. Furthermore, manufacturers of aftercoolers have a great chance to create cutting-edge solutions that provide improved energy efficiency and performance as companies work to lower their operating expenses and carbon impact.
Disruptions from technology and the risks of substitution
The conventional aftercooler is under threat from the rapidly advancing field of alternative cooling solutions and technology. New technologies that offer alternatives to traditional air-cooled aftercoolers, like heat pipe cooling, liquid cooling, and refrigeration-based systems, have the potential to displace market demand. Furthermore, proactive monitoring and maintenance of compressed air systems are made possible by the integration of smart sensors, predictive maintenance algorithms, and Internet of Things (IoT) connectivity in contemporary equipment, which lessens the need for standalone aftercoolers. Moreover, manufacturers of aftercoolers need to embrace innovation and change their product lines to include cutting-edge technologies that provide better performance, energy efficiency, and value-added features in order to counter this threat.
The COVID-19 pandemic significantly affected the aftercooler market by lowering industrial activity, upending supply chains, and creating uncertainty in the world economy. Lockdowns and other measures caused a slowdown in construction, manufacturing, and other important sectors during the early stages of the pandemic, which decreased the market for aftercoolers. Production and delivery delays resulted from supply chain disruptions, which were made worse by shortages of components and raw materials. Additionally, aftercoolers are in high demand in industries like healthcare, pharmaceuticals, and food processing as a result of the industries' gradual return to normalcy and increased awareness of the value of preserving equipment reliability and air quality.
The Portable Aftercoolers segment is expected to be the largest during the forecast period
Due to their adaptability and broad application across numerous industries, portable aftercoolers usually hold the largest share in the aftercooler market. One benefit of portable aftercoolers is their mobility, which makes it simple to move and set them up in various areas where gas or compressed air systems are used. They are frequently used to eliminate moisture and impurities from compressed air on manufacturing sites, construction sites, and maintenance operations, guaranteeing the dependability and effectiveness of pneumatic machinery and procedures. Furthermore, end users can enjoy flexibility and convenience from portable aftercoolers, which are available in various sizes and configurations to suit varying airflow rates and operating conditions.
The Power Generation segment is expected to have the highest CAGR during the forecast period
In the aftercoolers market, the power generation segment is projected to have the highest CAGR. This growth is attributed to the expansion of renewable energy sources like solar and wind power, as well as the rising global demand for electricity. By guaranteeing the effectiveness and dependability of compressed air and gas systems utilized in numerous processes, such as turbine operation, pneumatic controls, and air pollution control systems, aftercoolers play a critical role in power generation facilities. The need for aftercoolers in this industry is predicted to rise sharply as power generation infrastructure develops further as a result of technological breakthroughs and laws meant to cut emissions and boost energy efficiency.
Asia Pacific (APAC) usually holds the largest market share for aftercoolers. The region's strong industrial base, quick industrialization, and growing infrastructure are the main drivers of its dominance. The aftercoolers market is heavily influenced by nations such as China, India, Japan, and South Korea because of their vast manufacturing, automotive, and construction sectors. Additionally, the growing use of aftercoolers in developing nations to boost industrial productivity, adhere to environmental regulations, and improve energy efficiency is driving the market's expansion in the area. The need for aftercoolers is also fueled by continued investments in industries like oil and gas, chemicals, power generation, and food and beverage, making Asia Pacific a vital market for aftercooler suppliers and manufacturers.
In the aftercoolers market, North America is projected to have the highest CAGR. Numerous factors are driving this growth, including strict environmental regulations that encourage the use of aftercoolers to ensure compliance with air quality standards, especially in sectors like food and beverage, chemicals, and oil and gas. Furthermore, aftercoolers are being used to optimize compressed air systems and lower operating costs, thanks to the region's emphasis on sustainability and energy efficiency. Furthermore, the market is growing in North America due to technological advancements and innovations in aftercooler design and manufacturing, as companies look for more dependable and efficient cooling solutions for their industrial processes.
Key players in the market
Some of the key players in Aftercoolers market include General Electric Company, Caterpillar Inc., Kaeser Compressors, Inc., Parker Hannifin Corporation, Sullair LLC, Alfa Laval AB, Gardner Denver, Inc., Ingersoll Rand, Inc., Donaldson Company, Inc., Cummins ,SMC, Atlas Copco AB, Stewart & Stevenson LLC and Quincy Compressor LLC.
In March 2024, Ingersoll Rand Inc., a global provider of mission-critical flow creation and industrial solutions, has entered into an agreement to acquire ILC Dover ("ILC") from New Mountain Capital, LLC, a leading growth-oriented investment firm with approximately $50 billion in assets under management.
In January 2024, Caterpillar Inc. has signed an electrification strategic agreement with CRH to advance the deployment of Caterpillar's zero-exhaust emissions solutions for electric off-highway trucks and charging solutions. CRH is the number one Electric Off-Highway Trucks aggregates producer in North America and the first company in that industry to sign such an agreement with Caterpillar.
In August 2023, Alfa Laval AB and Aalborg CSP A/S has signed an agreement, where Alfa Laval takes part ownership in Aalborg CSP's header-coil heat exchanger business for high temperature energy storage to electricity and industrial high temperature steam. With the investment, the parties form a strong joint venture to cooperate in fulfilling the future demand for specialized heat exchangers for, among other things, molten salt energy storage systems as well as for Concentrated Solar Power (CSP) and other applications.