市場調查報告書
商品編碼
1425083
汽車觸媒轉換器市場 - 2024 年至 2029 年預測Automotive Catalytic Converter Market - Forecasts from 2024 to 2029 |
汽車觸媒轉換器市場預計在預測期內複合年成長率為 9.45%。
觸媒轉化器是用於減少內燃機排放氣體的關鍵部件,常見於大多數現代汽車和車輛。觸媒轉換器作為車輛排氣系統的關鍵部件,透過將有害燃燒氣體轉化為水蒸氣和二氧化碳等危害較小的物質,有效減少釋放到大氣中的有害污染物的量。通常使用鉑、銠和鈀,轉換器中的催化劑有助於轉化過程。氣流發生在嵌入觸媒轉換器外殼的陶瓷蜂窩結構內,該結構配備了特定的金屬,每種金屬都具有不同的功能,這對於減少排放氣體至關重要。事實確實如此。在其操作過程中,觸媒轉換器使用雙管和催化劑使氣體在排放前變得無害。暴露在極熱的廢氣中會導致轉換器迅速升溫,從而有效地抑制引擎預熱期間不必要的排放氣體。因此,觸媒轉換器在排氣系統中起著重要作用,必須在煙霧檢查期間進行檢查。儘管如此,觸媒轉換器竊案仍在增加。這是因為觸媒轉換器中含有的稀有金屬具有很高的回收價值。為了防止此類盜竊,授權汽車經銷商可以安裝保護裝置,例如板、護罩、夾子、籠子和帶子,以保護觸媒轉換器。
汽車觸媒轉換器市場不僅正在迅速擴大,而且與整個汽車產業錯綜複雜地交織在一起。這個充滿活力的市場主要包括使用專門設計用於控制機動車輛污染物排放的設備。觸媒轉換器作為重要的排放氣體控制部件,在煙霧檢查過程中發揮至關重要的作用。值得注意的是,該市場顯著多元化,根據車輛使用的特定燃料類型進行細分,從而產生了汽油觸媒轉換器和柴油觸媒轉換器等類別。此外,地理細分、車輛差異化以及目的地設備製造商 (OEM) 銷售之間的差異化是這個多層面市場的定義特徵。由於全球對空氣污染的擔憂日益加劇,預計該市場近期將出現強勁成長。這一領域主要由佛吉亞和BASF催化劑等產業巨頭主導。該領域的一個顯著趨勢是觸媒轉換器製造商正逐漸從傳統燃油動力汽車轉向汽車電動領域。這項戰略轉變的主要原因是人們越來越擔心傳統引擎造成的排放氣體量上升。這種困境極大地加劇了世界空氣污染和全球暖化的困境。此外,越來越明顯的是,觸媒轉換器的盜竊現象呈上升趨勢,這種現象主要是由於這些設備中封裝的稀有金屬具有極高的回收價值。為了有效保護觸媒轉換器,車主必須安裝防護板、護罩、夾子、籠子、帶子或其他旨在確保這一重要汽車部件安全的特殊裝置。您應該尋求有執照的機動車經銷商的幫助,他們可以方便防護措施的安裝。
這些觸媒轉換器有效地有助於減少汽油車排放的有害污染物,解決緊迫的空氣品質和公共衛生問題。同樣,柴油氧化催化劑的進步也有助於減少柴油引擎車輛的有害排放。這項進展突顯了該行業對提高環境績效和滿足有關排放氣體法規的嚴格監管標準的承諾。因此,觸媒轉化器技術的持續改進對於推動汽車產業的整體進步和永續性至關重要。
三元氧化還原觸媒轉換器部分預計將佔據汽車觸媒轉換器市場的最大市場佔有率。由於道路上車輛數量的增加以及對高效排放控制系統的需求不斷增加,預計該細分市場在預測期內將保持其主導地位。材料科學和觸媒轉換器技術的進步正在推動三元氧化還原領域的成長。持續的研究和開發正在創造新的催化劑配方和改進的轉換器設計,以提供更高的轉換效率和耐用性。現今普及、最高效的觸媒技術是三元氧化還原觸媒轉換器。目前,三元氧化還原觸媒轉換器因其超低排放氣體而佔據主要市場佔有率。總之,由於對高效排放氣體觸媒轉換器系統的需求不斷增加、材料科學和觸媒轉換器技術的進步以及持續的研發努力,三效氧化還原催化轉換器領域正在不斷成長。
由於多種因素的綜合作用,亞太汽車觸媒轉換器市場預計在整個預測期內將保持其重要佔有率和主導地位。快速的都市化和人口的快速成長極大地促進了該地區車輛數量的增加。同時,生活水準的顯著改善、工業部門的持續擴張以及個人收入水準的穩定提高正在進一步加速這一成長軌跡。此外,在物流、運輸、採礦和建築等不同最終用途行業需求激增的推動下,輕型商用車和重型商用車的需求激增,推動了整體市場的成長。特別值得注意的是,中國的市場佔有率可望超越美國,鞏固其全球最大小客車市場的地位。同時,由於南美、中東和非洲汽車工業的快速成長,汽車觸媒轉換器市場正在經歷顯著成長。亞太地區正在同時經歷都市化、人口成長、生活水準不斷提高、工業擴張、收入水平不斷提高以及輕型和重型商用車需求不斷增加,所有這些都推動著該地區汽車業的快速發展該部門。
The automotive catalytic converter market is estimated to grow at a CAGR of 9.45% during the forecast period.
A catalytic converter is a crucial component utilized in the mitigation of emissions from internal combustion engines, commonly found in most contemporary automobiles and vehicles. It serves as a vital element within a vehicle's exhaust system, effectively diminishing the volume of harmful pollutants released into the atmosphere by transforming noxious combustion gases into less detrimental substances, including water vapor and carbon dioxide. Typically employing platinum, rhodium, or palladium, the catalyst nested within the converter aids in the conversion process. The flow of gases occurs within the ceramic honeycomb structure, embedded in the catalytic converter's housing, which is equipped with specific metals, each assigned distinct functions pivotal in curbing emissions. In the operational procedure, the catalytic converter employs dual pipes and the catalyst to render the gases harmless before their expulsion. The rapid heating of the converter, facilitated by its exposure to exceedingly hot exhaust gases, enables it to effectively minimize unwanted emissions during the engine's warm-up phase. Consequently, the catalytic converter assumes a critical role in the exhaust system, warranting inspection during a smog check. Nevertheless, instances of catalytic converter theft have surged in prevalence, attributed to the high recycling value of the rare metals it contains. As a safeguard against such thefts, authorized auto shops can undertake the installation of protective measures like plates, shields, clamps, cages, straps, and other devices to secure the catalytic converter.
The automotive catalytic converter market is not only expanding rapidly but is intricately intertwined with the automotive industry at large. This dynamic market primarily encompasses the utilization of devices that are specifically engineered to curtail the emission of pollutants from vehicles. Functioning as an indispensable emissions control component, the catalytic converter assumes a pivotal role in the scrutiny process during a Smog Check. It is noteworthy that this market is notably diversified, with its classification based on the particular fuel type employed in the vehicle, giving rise to categories such as gasoline catalytic converters and diesel catalytic converters. Moreover, geographical segmentation, vehicle type differentiation, and the distinction between aftermarket and original equipment manufacturer (OEM) sales serve as additional defining features of this multifaceted market. Owing to escalating global apprehensions concerning air pollution, the market is anticipated to exhibit substantial growth rates in the foreseeable future. The domain is largely governed by industry giants such as Faurecia and BASF Catalysts, among other notable contenders. A noteworthy trend within the domain suggests that manufacturers of catalytic converters are progressively transitioning from conventional fuel-based vehicles to the realm of vehicle electrification. This strategic shift is primarily motivated by the escalating concerns surrounding the escalating emission levels attributed to conventional engines, a predicament that has significantly contributed to the exacerbation of the global predicaments of air pollution and global warming. Furthermore, it has become increasingly evident that instances of catalytic converter theft are on the rise, a phenomenon primarily attributable to the remarkably high recycle value of the rare metals encapsulated within these devices. To effectively safeguard the catalytic converter, vehicle owners should seek the assistance of licensed auto shops that can facilitate the installation of protective measures such as protective plates, shields, clamps, cages, straps, or other specialized devices designed to ensure the security of this critical automotive component.
reduction in harmful pollutants emitted by these vehicles, addressing pressing concerns related to air quality and public health. Similarly, the evolution of diesel oxidation catalysts has also proven instrumental in mitigating emissions associated with diesel-powered vehicles. This progress has underscored the industry's commitment to enhancing environmental performance and aligning with stringent regulatory standards governing emissions control. As a result, the continual refinement of catalytic converter technologies remains pivotal in driving the overall progress and sustainability of the automotive sector.
The three-way oxidation-reduction catalytic converter segment is projected to hold the largest market share in the automotive catalytic converter market. The segment is expected to maintain its dominance during the projection period due to the rising number of vehicles on the roads and the increasing demand for efficient emission control systems. Advances in material science and catalytic converter technology have driven the growth of the three-way oxidation-reduction segment. Ongoing research and development have resulted in novel catalyst formulations and improved converter designs that offer higher conversion efficiency and durability. The most popular and efficient catalytic technology currently is the three-way oxidation-reduction catalytic converter. Currently, they occupy the major market share, owing to their ultra-low emission. In summary, the three-way oxidation-reduction catalytic converter segment is growing due to the increasing demand for efficient emission control systems, advancements in material science and catalytic converter technology, and ongoing research and development efforts.
The automotive catalytic converter market in the Asia Pacific region is poised to maintain its substantial share and dominant position throughout the forecast period, owing to a confluence of various factors. The rapid pace of urbanization, coupled with a marked demographic surge, has significantly contributed to the escalating volume of vehicles in this region. Concurrently, the marked improvement in the standard of living, the continuous expansion of the industrial sector, and the steady rise in the income levels of individuals have further catalyzed this growth trajectory. Moreover, there has been an upsurge in the demand for both light and heavy commercial vehicles, driven by the burgeoning requirements from diverse end-use industries, such as logistics, transportation, mining, and construction, thereby propelling the overall market growth. Of particular note is China's anticipated market share, projected to surpass that of the United States and solidify its position as the world's largest market for passenger cars, thereby fostering immense potential for the expansion of the automotive catalytic converter market in the foreseeable future. Simultaneously, the automotive catalytic converter market has witnessed a significant upswing in South America, the Middle East, and Africa, primarily attributable to the burgeoning automotive sector in these respective regions. In essence, the Asia Pacific region is poised to retain a substantial stake in the automotive catalytic converter market, owing to the simultaneous surge in urbanization, demographic growth, improved living standards, industrial expansion, and increased income levels, along with the escalating demand for light and heavy commercial vehicles, all of which have collectively fostered the rapid development of the automotive sector in the region.
Segments
Not an exhaustive list