市場調查報告書
商品編碼
1437999
輻射段模組市場預測至 2030 年 - 各材料類型(金屬合金、耐火材料和其他材料類型)、組件類型、技術、最終用戶和地理位置的全球分析Radiant Section Module Market Forecasts to 2030 - Global Analysis By Material Type (Metal Alloys, Refractory Material and Other Material Types), Component Type, Technology, End User and By Geography |
根據 Stratistics MRC 的數據,全球輻射段模組市場在預測期內將以 6.0% 的複合CAGR成長。輻射段模組是工業火焰加熱器的一部分,主要透過輻射促進熱傳遞。它由輻射盤管或管道組成,可有效地將熱量從燃燒火焰傳遞到高溫下運行的製程流體,該部分最佳化了管道佈局,以實現均勻的熱量分佈。它是燃料燃燒發生的核心區域,產生加工材料所需的熱量。該模組在煉油廠和石化廠等各個行業中至關重要,可實現高效的傳熱,這對於受控環境中的工業流程至關重要。
對高效率、可靠的暖氣系統的需求
對高效、可靠的暖氣系統的需求不斷增加,對輻射段模組市場產生了重大影響。各行業優先考慮確保最佳性能、能源效率和可靠性的供暖解決方案。這種需求推動製造商進行創新,專注於創造先進的輻射段模組,該模組能夠實現卓越的傳熱、更高的耐用性和一致的性能。因此,供應商之間的競爭加劇,促使引入更高性能和更具成本效益的輻射段模組來推動市場。
前期成本高
由於初始支出巨大,行業,尤其是小型企業或預算有限的企業可能會猶豫是否要投資輻射段模組。然而,購買和安裝輻射段模組所需的大量初始投資可能會延長投資回報期,尋求更快投資回報的行業可能會選擇替代的、成本更低的加熱解決方案,從而影響這些模組的市場需求。
現有工業設施的升級和現代化舉措
工業現代化通常涉及使用輻射段模組等更有效率、更先進的解決方案來更換或改造過時的暖氣系統。製造商透過提供改造解決方案或與現有系統相容的新模組來滿足這一需求。此外,經過現代化改造的設施透過利用高效、先進的加熱技術獲得了競爭優勢,在透過提高生產率和降低營運成本來增強競爭力方面發揮關鍵作用。
專業技術知識的要求
由於擔心專業技術知識的可用性或成本,缺乏必要的熟練勞動力或資源的行業可能會猶豫投資輻射段模組。因此,對持續培訓和專業維護服務的需求促使支出增加。因此,這種技能差距可能會限制輻射段模組的廣泛採用和有效利用。
Covid-19 影響
COVID-19 大流行在各個方面對輻射段模組市場產生了重大影響。供應鏈中斷阻礙了原料和零件的採購,延遲了製造流程並影響了產品可用性。隨著許多工業部門縮減營運規模或暫時關閉,對暖氣系統改進的需求減少,導致專案延誤和該行業技術創新放緩。
預計耐火材料領域在預測期內將是最大的
耐火材料領域預計將出現利潤豐厚的成長,因為輻射段模組中使用的耐火材料的耐用性至關重要。能夠承受極端溫度和熱衝擊而不分解的材料可確保加熱系統的使用壽命和延長的使用壽命。雖然高品質耐火材料可能具有較高的初始成本,但其使用壽命和性能通常會降低輻射段模組的生命週期成本,從而推動市場成長。
預計燃燒系統領域在預測期內的CAGR最高
預計燃燒系統部分在預測期內將出現最高的CAGR年成長率,因為燃燒系統的設計和效率顯著影響爐內產生的熱量。高效率的燃燒系統會產生更高的溫度,從而最佳化到輻射段的熱傳。這種效率對於提高輻射段模組的整體性能至關重要。此外,環境法規和永續發展措施往往會推動更清潔的燃燒系統的採用,從而影響對環保輻射段模組的需求。
預計亞太地區在預測期內將佔據最大的市場佔有率,因為現有工業設施正在進行的現代化舉措通常涉及用更新、更高效的系統替換或升級舊的供暖設備,這可能會推動對先進輻射段模組的需求。此外,隨著業界尋求更先進的解決方案,加熱技術的創新,包括增強輻射段模組設計以提高效率和耐用性,可以刺激市場成長。
預計北美在預測期內的CAGR最高,因為該地區在包括煉油在內的石油和天然氣領域佔有重要地位,對工業加熱系統(如輻射段模組)產生巨大需求,輻射段模組是煉油過程中熱能的組成部分。密集作業。此外,對能源效率和減少碳足跡的日益重視可能會推動採用更有效率的輻射段模組,這些模組提供更好的能源利用率,從而推動該地區的成長。
2023年3月,Thermax Limited與澳洲綠色能源和綠色技術公司Fortescue Future Industries (FFI)簽署了一份合作備忘錄(MoU),以探索綠氫計畫。
2023 年 2 月,Tupras 選擇 Isoalky (TM) 技術為其煉油廠生產高辛烷值烷基化物。這項公告增加了使用 ISOALKY 的煉油廠數量的不斷增加,最近霍尼韋爾 UOP 發布了與 Big West Oil 相關的公告
2021 年 3 月,John Zink Hamworthy Combustion (R) (JZHC) 宣布與 Babcock & Wilcox Company (B&W) 簽署策略合作協議,為利用 JZHC Coen (R) 的蒸汽發生系統提供設計、安裝和空氣源測試服務品牌。
According to Stratistics MRC, the Global Radiant Section Module Market is growing at a CAGR of 6.0% during the forecast period. The Radiant Section Module, integral to industrial fired heaters, facilitates heat transfer predominantly through radiation. Comprising radiant coils or tubes, it efficiently transfers heat from combustion flames to process fluids operating at high temperatures, this section optimizes tube layout for uniform heat distribution. It serves as the core zone where fuel combustion occurs, generating heat essential for processing materials. Crucial in various industries like refineries and petrochemical plants, this module enables efficient heat transfer, critical for industrial processes within controlled environments.
Demand for efficient and reliable heating systems
The heightened demand for efficient and reliable heating systems significantly impacts the Radiant Section Module Market. Industries across sectors prioritize heating solutions that ensure optimal performance, energy efficiency, and reliability. This demand drives manufacturers to innovate, focusing on creating advanced Radiant Section Modules capable of superior heat transfer, increased durability, and consistent performance. Consequently, competition intensifies among providers, leading to the introduction of higher-performing and more cost-effective Radiant Section Modules driving the market.
High upfront cost
Industries, especially smaller enterprises or those with budget constraints might hesitate to invest in Radiant Section Modules due to the substantial initial expenditure. However the significant initial investment required for acquiring and installing Radiant Section Modules might lengthen the ROI period and industries seeking quicker returns on their investments might opt for alternative, lower-cost heating solutions, impacting the market demand for these modules.
Upgradation and modernization initiatives in existing industrial facilities
Industrial modernization often involves the replacement or retrofitting of outdated heating systems with more efficient and advanced solutions like Radiant Section Modules. Manufacturers cater to this demand by offering retrofit solutions or new modules compatible with existing systems. Furthermore facilities that undergo modernization gain a competitive edge by utilizing efficient and advanced heating technologies playing a pivotal role in enhancing competitiveness by improving productivity and reducing operational costs.
Requirement of specialized technical expertise
Industries lacking the necessary skilled workforce or resources might hesitate to invest in Radiant Section Modules due to concerns about the availability or cost of specialized technical expertise. Thus the need for continuous training and specialized maintenance services contributes to increased expenditures. Hence this skill gap can limit the widespread adoption and effective utilization of Radiant Section Modules.
Covid-19 Impact
The COVID-19 pandemic significantly impacted the Radiant Section Module Market across various dimensions. Supply chain disruptions hindered the procurement of raw materials and components, delaying manufacturing processes and impacting product availability. With many industrial sectors scaling back operations or temporarily shutting down, there was a decreased need for heating system advancements, leading to project delays and a slowdown in technological innovation in this sector.
The refractory material segment is expected to be the largest during the forecast period
The refractory material segment is estimated to have a lucrative growth, as the durability of refractory materials used in the Radiant Section Module is crucial. Materials capable of withstanding extreme temperatures and thermal shock without degradation ensure the longevity and extended operational lifespan of the heating system. While high-quality refractory materials might have higher initial costs, their longevity and performance often result in lower lifecycle costs for the Radiant Section Module driving the market growth.
The combustion system segment is expected to have the highest CAGR during the forecast period
The combustion system segment is anticipated to witness the highest CAGR growth during the forecast period, because the combustion system's design and efficiency significantly impact the amount of heat generated within the furnace. Efficient combustion systems produce higher temperatures, which, in turn, optimize the heat transfer to the radiant section. This efficiency is crucial for enhancing the overall performance of the Radiant Section Module. Moreover environmental regulations and sustainability initiatives often drive the adoption of cleaner combustion systems, influencing the demand for eco-friendly Radiant Section Modules.
Asia Pacific is projected to hold the largest market share during the forecast period owing to the ongoing modernization initiatives in existing industrial facilities often involve the replacement or upgrade of older heating equipment with newer, more efficient systems, potentially driving demand for advanced radiant section modules. Moreover innovation in heating technologies, including enhancements in radiant section module designs for better efficiency and durability, could stimulate market growth as industries seek more advanced solutions.
North America is projected to have the highest CAGR over the forecast period, owing to the region's significant presence in the oil & gas sector, including refining, creates substantial demand for industrial heating systems like radiant section modules, integral in the refining process for heat-intensive operations. Additionally growing emphasis on energy efficiency and reducing carbon footprints could drive the adoption of more efficient radiant section modules that offer better energy utilization drives the growth of the region.
Key players in the market
Some of the key players in the Radiant Section Module Market include Honeywell UOP , John Zink Hamworthy Combustion, Thermax Global, Babcock & Wilcox (B&W), Alfa Laval, Larsen & Toubro Limited (L&T), Koch Heat Transfer Company, Kelvion, Sulzer Ltd, Suzhou Hailu Heavy Industry Co., Ltd, Saint-Gobain Performance Ceramics & Refractories, Titan Metal Fabricators Inc., Chicago Bridge & Iron Company, Zeeco, Inc., Howden Group, Ruhrpumpen Group and Treibacher Industrie AG
In March 2023, Thermax Limited, and Fortescue Future Industries (FFI), an Australia-based green energy and green technology company, have signed a Memorandum of Understanding (MoU) to explore green hydrogen projects.
In February 2023, Tupras Selects Isoalky™ Technology for Its Refineries to Produce High Octane Alkylate. This announcement adds to the growing number of refineries using ISOALKY, most recently Honeywell UOP's announcement related to Big West Oil
In March 2021, John Zink Hamworthy Combustion® (JZHC) announced a strategic collaboration agreement with the Babcock & Wilcox Company (B&W) to provide design, installation and air-source testing services for steam-generation systems utilizing JZHC's Coen® brand.