市場調查報告書
商品編碼
1172013
到 2028 年的風力渦輪機鍛造市場預測 - COVID-19 影響和全球分析(按類型(無縫軋環和開模鍛造)和組件(法蘭、葉片、軸承、齒輪、軸等))Wind Turbine Forging Market Forecast to 2028 - COVID-19 Impact and Global Analysis By Type (Seamless Rolled Ring and Open Die Forging) and Component (Flanges, Blades, Bearings, Gears, Shafts, and Others) |
風力渦輪機鍛件市場預計將從 2022 年的 72.8613 億美元增長到 2028 年的 111.5414 億美元,預計 2022 年至 2028 年的複合年增長率為 7.4%。
計算機輔助工程 (CAE) 正在迅速應用於鍛造,鍛造是一種向金屬施加衝擊載荷以製造所需形狀零件的製造工藝。 CAE 技術在鍛造行業的應用大大減少了產品製造過程中的交貨時間和錯誤。 中小型行業採用 CAE 技術來幫助鍛造渦輪機應用的葉片。 它具有經濟高效的界面,可最大限度地減少製造缺陷並簡化流程。 CAE技術在風力發電機鍛造件的設計和製造中具有很強的適用性。 此外,許多計算機程序有助於預測預鍛載荷、最佳模具設計和最佳預製件定位。 專用程序也可用於鍛造零件的數控加工。
CAE 通過在設計階段解決惡劣的環境條件,在全球風能行業的發展中發揮著重要作用。 高級 CAE 軟件使工程師能夠克服在建造前確保渦輪機平台安全的許多挑戰。 這簡化了整個項目進度並確保了這些結構的長期可行性。 CAE 技術提供的創新設計可最大限度地提高渦輪機效率,使風塔能夠進行被動調整,以正確的角度捕獲風力,從而最大限度地提高功率輸出。 在製造過程中將 CAE 技術集成到風力渦輪機鍛造部件中,由於提高了效率並降低了總體成本,預計將在未來幾年推動風力渦輪機鍛造市場的增長。
風力渦輪機鍛件的全球市場分為類型和組件。 根據類型,全球風力渦輪機鍛造市場分為無縫輥環和自由模鍛。 按組件劃分,全球風力渦輪機鍛件市場分為法蘭、葉片、軸承、齒輪、軸等。
Scot Forge Co, Frisa Industrias SA de CV, Iraeta Energy Equipment Co Ltd, ULMA Forja S Coop, Celsa Armeringsstal AS, Bharat Forge Ltd, Specialty Ring Products Inc, Bruck GmbH, Tongyu Heavy Industry Co, Ltd, Gerdau Summit Acos Fundidos e Forjados SA 和其他公司是風電鍛造市場的主要參與者。 為了全面了解風力渦輪機鍛件市場及其生態系統,本市場研究分析了其他幾個市場參與者。 風力渦輪機鍛造市場規模報告提供了市場的詳細見解,並幫助主要參與者制定增長戰略。
COVID-19 大流行對風力渦輪機鍛造市場的影響
儘管在 2020 年之前該領域取得了顯著進展,但 COVID-19 大流行已使多個與風能相關的計劃和項目停滯不前。 但從2020年下半年開始,從事風電鍛造材料及零部件開發的企業已恢復正常生產和銷售能力。 根據全球風能委員會的數據,2021 年全球風能行業表現良好,全球新增裝機容量近 94GW。 歐洲、南美以及中東和非洲在 2021 年見證了新的陸上安裝。 美國、英國、西班牙、中國和印度等國家是裝機容量較高的國家。 中國將占到2021年全球新增海上風電容量的80%。 實現全球淨零承諾和能源安全的新緊迫性預計將推動安裝的風力渦輪機數量,從而增加對風力渦輪機鍛件的需求。
到 2022 年,歐洲的可再生能源行業將顯著增長,德國、愛爾蘭和丹麥等國家 50% 的能源來自風能。 隨著該地區不斷增長的能源需求,對風力渦輪機的需求也在迅速增長。 這為進入歐洲風力渦輪機鍛造市場的公司開闢了增長前景。 據國際能源署(IEA)稱,由於成本下降、政府支持和技術進步,海上風電裝機容量預計將大幅增長。 2021 年 9 月,通用電氣與歐洲領先的研究機構弗勞恩霍夫研究所和巨型砂粘合劑噴射打印機製造商 Voxeljet AG 合作,將開發世界上最大的用於風力渦輪機部件的砂粘合劑噴射 3D 打印機。我們設計了 Advanced Casting Cell(ACC) . 該合作夥伴關係旨在開發一種能夠打印用於最大直徑 9.5 米和最大高度 4 米的主要渦輪部件的模具的機器。 General Electric Company將為打印所需的渦輪機部件提供數字藍圖,Fraunhofer 將進行研發,Voxeljet 將負責設計、機械開發和原型製造。 在鍛造金屬零件的開發中採用新技術將通過降低成本和減少對環境的影響,使鍛造行業更具可持續性。
風力渦輪機鍛件的總體市場規模是根據主要和次要信息得出的。 為了啟動風力渦輪機鍛件市場的分析研究過程,對內部和外部資源進行了詳盡的二次研究,以獲得與風力渦輪機鍛件市場相關的定性和定量信息。 該過程還用於獲得所有細分市場的風力渦輪機鍛造市場的概況和增長預測。 我們還對業內人士和評論員進行了多次初步採訪,以驗證數據並獲得有關該主題的更多分析見解。 這一過程的參與者包括行業專家,如副總裁、業務發展經理、市場情報經理、全國銷售經理,以及專門從事該市場的外部顧問,如估值專家、研究分析師和關鍵意見領袖。
The wind turbine forging market is expected to grow from US$ 7,286.13 million in 2022 to US$ 11,154.14 million by 2028; it is estimated to grow at a CAGR of 7.4% from 2022 to 2028.
Computer-aided engineering (CAE) is gaining rapid adoption in forging, a manufacturing process that produces the desired shape of a component by applying impact load on the metal. The use of CAE technology in the forging industry has significantly reduced the lead time and errors during product manufacturing. Small and medium-scale industries are adopting CAE technology to help in the forging of blades for turbine applications. It has a cost-effective interface and results in minimal failures during production, making the process more efficient. The CAE technology is highly applicable in the designing and manufacturing forged parts of wind turbines. In addition, many computer programs help predict the load, the optimum die design, and the best preform position before forging. Special purpose programs help with the numerical-control machining of forging parts.
CAE is playing a vital role in advancing the global wind energy sector by addressing harsh environmental conditions in the design phase. Advanced CAE software allows engineers to overcome many challenges regarding securing turbine platforms before construction. This streamlines the overall timeline of the project and ensures the long-term viability of these structures. The CAE technology provides innovative designs that maximize the efficiency of the turbines and enable wind towers to adjust reactively to capture wind at appropriate angles to maximize power. Integrating CAE technology with wind turbine forged parts during the manufacturing process increases effectiveness and lowers overall costs, which are expected to fuel the wind turbine forging market growth in the coming years.
The global wind turbine forging market is segmented into type and component. Based on type, the global wind turbine forging market is bifurcated into seamless rolled ring and open die forging. Based on component, the global wind turbine forging market is segmented into flanges, blades, bearings, gears, shafts, and others.
Scot Forge Co; Frisa Industrias SA de CV; Iraeta Energy Equipment Co Ltd; ULMA Forja S Coop; Celsa Armeringsstal AS; Bharat Forge Ltd; Specialty Ring Products Inc; Bruck GmbH; Tongyu Heavy Industry Co., Ltd; and Gerdau Summit Acos Fundidos e Forjados SA are among the key players operating in the wind turbine forging market. Several other market players were analyzed during this market research study to get a holistic view of the wind turbine forging market and its ecosystem. The wind turbine forging market size report provides detailed market insights, which helps the key players strategize their growth.
Impact of COVID-19 Pandemic on Wind turbine forging Market
The COVID-19 pandemic stalled several wind energy-related programs and projects despite the remarkable progress made by the sector before 2020. However, from the second half of 2020, companies involved in developing wind turbine forged materials and components returned to their normal production and sales capacities. According to the Global Wind Energy Council, The global wind industry had a good year in 2021, with almost 94 GW of capacity added worldwide. Europe, South America, and the Middle East & Africa witnessed records for new onshore installations in 2021. The US, the UK, Spain, China, and India are among the countries with the highest installation of capacities. China accounted for 80% of offshore wind energy capacity added worldwide in 2021. Global net zero commitments and the renewed urgency for achieving energy security are anticipated to propel the number of wind turbine installations, boosting the demand for wind turbine forging.
In 2022, the European renewable energy sector will be growing significantly, with countries such as Germany, Ireland, and Denmark producing 50% of the energy from wind energy. With the increase in energy demand across the region, the requirement for wind turbines is rapidly growing. This is offering growth perspectives to the players operating in the wind turbine forging market in Europe. According to the International Energy Agency (IEA), the installed offshore wind capacity is expected to grow largely due to falling costs, supportive governments, and technological advances. In September 2021, General Electric collaborated with Fraunhofer Institutes, one of Europe's premier research organizations, and Voxeljet AG, the makers of huge sand binder jet printers, to design the world's largest sand binder jet 3D printer for wind turbine components, called the Advance Casting Cell (ACC). The partnership aims to develop a machine that could print molds used for key turbine components measuring up to 9.5 m in diameter and up to 4 m in height. General Electric will supply the digital blueprints for the turbine parts the machine is required to print; Fraunhofer will do the research and development; and Voxeljet will handle the design, mechanical development, and creation of the prototype printers. Incorporating new technology for developing forged metal parts will lower costs and make the forging industry more sustainable by reducing its environmental impact.
The overall wind turbine forging market size has been derived using both primary and secondary sources. To begin the wind turbine forging market analysis research process, exhaustive secondary research has been conducted using internal and external sources to obtain qualitative and quantitative information related to the wind turbine forging market. The process also serves the purpose of obtaining an overview and forecast of the wind turbine forging market growth with respect to all market segments. Also, multiple primary interviews have been conducted with industry participants and commentators to validate the data and gain more analytical insights about the topic. Participants of this process include industry experts such as VPs, business development managers, market intelligence managers, and national sales managers-along with external consultants such as valuation experts, research analysts, and key opinion leaders-specializing in the market.
Save and reduce time carrying out entry-level research by identifying the growth, size, leading players and segments in the global wind turbine forging market.
Highlights key business priorities in order to assist companies to realign their business strategies
The key findings and recommendations highlight crucial progressive industry trends in the global wind turbine forging market, thereby allowing players across the value chain to develop effective long-term strategies
Develop/modify business expansion plans by using substantial growth offering developed and emerging markets
Scrutinize in-depth global market trends and outlook coupled with the factors driving the market, as well as those hindering it
Enhance the decision-making process by understanding the strategies that underpin commercial interest with respect to client products, segmentation, pricing and distribution