引擎和發電機市場按產品類型、燃料類型、冷卻機制、便攜性、控制系統、分銷管道、應用和最終用途分類 - 2025-2030 年全球預測

預計引擎和發電機市場規模到 2024 年將達到 3,775.2 億美元，到 2025 年將達到 3977.5 億美元，複合年成長率為 5.49%，到 2030 年將達到 5,204.4 億美元。

主要市場統計數據
基準年2024年	3775.2億美元
預計2025年	3977.5億美元
預測年份 2030	5204.4億美元
複合年成長率（%）	5.49%

探索推動全球產業創新、效率和永續性發展的引擎和發電機市場動態

引擎和發電機支援各行各業的關鍵營運，從工業製造和資料中心備份，到遠端能源供應和船舶推進。隨著相關人員尋求能夠提供強勁性能、更高效率並減少環境影響的解決方案，技術格局正在迅速演變。

隨著技術進步和永續性預期的演變，描繪出將重新定義引擎和發電機產業的變革性變化

突破性的技術進步和不斷變化的監管環境正在推動整個引擎和發電機行業發生重大變革。燃燒設計、材料工程和溫度控管方面的創新正在推動引擎容積效率的提高和排放氣體的降低。同時，Tier 1 等排放法規以及國際市場上的類似措施正在施加嚴格的性能要求，促使供應商後處理系統並採用先進的燃油噴射策略。

分析美國2025年關稅對引擎和發電機供應鏈的累積影響以及主要市場的競爭動態

2025年美國新關稅框架的實施，對從主要製造地進口的引擎和發電機零件的成本結構進行了重大調整。透過對某些機械類別徵收額外關稅，該政策增加了依賴海外生產的目標商標產品製造商的到岸成本。因此，採購團隊正在重新評估與供應商的關係，並探索在地化生產或在關稅分類之外採購替代零件設計的機會。

跨產品類型、燃料來源、冷卻方法、便攜性選項、控制模式、應用和最終用途領域的關鍵細分洞察

按產品類型細分，揭示了引擎和發電機組的技術路徑。在引擎類別中，外燃機解決方案包括燃氣渦輪機和蒸氣，以及用於特殊應用的斯特林引擎。內燃機包括以高扭矩輸出著稱的壓燃式引擎，以及以快速響應和清潔燃燒特性而聞名的火星點火式引擎。發電機組配置與這些引擎平台一致，以提供量身定做的功率容量和運行可靠性。

重點介紹美洲、歐洲、中東和非洲以及亞太地區將塑造引擎和發電機市場未來的關鍵區域動態

美洲地區的動態受到成熟的基礎設施、強勁的工業活動以及旨在減少碳排放的不斷發展的能源政策的共同驅動。北美市場受益於成熟的供應鏈和先進的製造能力，而經濟獎勵策略則推動了醫療保健和資訊服務等關鍵產業對現代備用電源解決方案的需求。在拉丁美洲，經濟發展和基礎設施擴張為採礦業和農業領域的混合發電機和可攜式電源創造了新的機會。

透過引擎和發電機技術的進步，尋找推動創新、夥伴關係和競爭優勢的產業領導者

主要企業正透過策略聯盟、產品創新和擴展服務組合來鞏固其市場地位。主要的目標商標產品製造商正在加強對高效能引擎設計、混合動力傳動系統解決方案和先進排放控制系統的研究。與渦輪機專家和數位平台供應商的夥伴關係已帶來可最佳化效能並延長維護間隔的整合產品。

可操作的策略，使產業領導者能夠提高引擎和發電機領域的永續性、效率和市場地位

產業領導者應優先投資低碳和替代燃料技術，使其投資組合與不斷發展的法律規範和永續性目標保持一致。加快開發能夠使用氫燃料、可再生天然氣和先進生質燃料的引擎，將使製造商走在脫碳的前沿。同時，將數位分析和控制系統整合到核心產品中，將實現預測性維護、遠端系統管理和最佳化負載調度，從而提高營運效率和客戶價值。

採用定性和定量技術的嚴格調查方法確保了引擎和發電機市場洞察的可靠性和有效性

為了確保對引擎和發電機市場提供全面可靠的洞察，我們採用了嚴格的混合調查方法，將定性和定量技術相結合。主要研究包括對多個地區的C級主管、系統整合商和最終用戶進行結構化訪談，以掌握關於技術採用、策略重點和營運挑戰的第一手觀點。同時進行的線上調查檢驗了新興趨勢，並收集了有關績效指標和採購偏好的定量數據。

綜合主要發現和策略結論，為引擎和發電機行業生態系統的相關人員提供清晰的前進方向

隨著引擎和發電機領域的不斷發展，關鍵發現凸顯了向清潔燃燒技術、多樣化燃料整合和數位化資產管理的廣泛轉變。相關人員需要應對法規、貿易政策和客戶需求之間的複雜相互作用，這些需求優先考慮效率、可靠性和環保因素。細分分析揭示了產品類型、燃料選擇、冷卻方式、便攜性和控制模式如何整合，以滿足多個終端應用領域的多樣化應用需求。

目錄

第1章 前言

第2章調查方法

第3章執行摘要

第4章 市場概述

第5章市場動態

• 混合發電機技術的進步提高了能源效率並減少了排放。
• 由於世界各地環境法規越來越嚴格，對節能引擎的需求正在增加。
• 引擎和發電機市場擴大採用再生能源來源，正在影響永續性趨勢
• 永續性措施推動發電機投資增加
• 擴大物聯網技術的整合，即時監控發電機和引擎
• 都市化和基礎設施建設需求推動發電機租賃市場擴張
• 配備自動控制系統的智慧發電機的出現提高了運行性能
• 電動式和電池供電發電機對傳統柴油發電機市場動態的影響
• 開發適用於小型和遠端應用的緊湊型可攜式引擎發電機
• 創新的冷卻和降噪技術提高了住宅區發電機的可用性

第6章 市場洞察

• 波特五力分析
• PESTEL分析

第7章 2025年美國關稅的累積影響

第 8 章引擎和發電機市場（按產品類型）

• 引擎
  • 外燃機
    • 燃氣渦輪機
    • 蒸氣
    • 史特靈引擎
  • 內燃機（ICE）
    • 壓燃（CI）引擎
    • 火花點火（SI）引擎
• 發電機

第9章 引擎和發電機市場（按燃料類型）

• 生質燃料
• 柴油引擎
• 氣體
  • CNG
  • LPG
  • 天然氣
• 汽油

第 10 章引擎和發電機市場（按冷卻機制）

• 風冷
• 液冷

第 11 章 引擎與發電機市場（按便攜性）

• 固定的
• 可攜式的

第12章 引擎和發電機市場（按控制系統）

• 自動控制
• 手動控制

第13章 引擎和發電機市場（按分銷管道）

• 離線
• 線上

第14章 引擎和發電機市場（按應用）

• 汽電共生
• 尖峰用電調節
• 主電源/連續電源
• 待機功率

第15章 引擎和發電機市場（依最終用途）

• 農業
• 商業的
  • 資料中心
  • 醫院
  • 辦公室
  • 零售店
• 建造
• 產業
  • 化工和石化
  • 飲食
  • 製造業
  • 礦業
  • 石油和天然氣
• 基礎設施
• 海洋
• 軍事/國防
• 住宅
• 通訊

第 16 章：美洲引擎與發電機市場

• 美國
• 加拿大
• 墨西哥
• 巴西
• 阿根廷

第 17 章：歐洲、中東和非洲引擎和發電機市場

• 英國
• 德國
• 法國
• 俄羅斯
• 義大利
• 西班牙
• 阿拉伯聯合大公國
• 沙烏地阿拉伯
• 南非
• 丹麥
• 荷蘭
• 卡達
• 芬蘭
• 瑞典
• 奈及利亞
• 埃及
• 土耳其
• 以色列
• 挪威
• 波蘭
• 瑞士

第 18 章：亞太引擎與發電機市場

• 中國
• 印度
• 日本
• 澳洲
• 韓國
• 印尼
• 泰國
• 菲律賓
• 馬來西亞
• 新加坡
• 越南
• 台灣

第19章 競爭態勢

• 2024年市場佔有率分析
• 2024年FPNV定位矩陣
• 競爭分析
  • AB Volvo
  • Aggreko Ltd.
  • Atlas Copco AB
  • Briggs & Stratton, LLC
  • Caterpillar Inc.
  • Cummins Inc.
  • Deere & Company
  • Denso Corporation
  • Deutz AG
  • Generac Holdings Inc.
  • Guangxi Yuchai Machinery Co., Ltd.
  • HD Hyundai
  • Honda Motor Co., Ltd.
  • Kawasaki Heavy Industries, Ltd.
  • Kirloskar Oil Engines Ltd.
  • Kohler Co.
  • Kubota Corporation
  • Liebherr-International AG
  • MAN Energy Solutions SE
  • Mitsubishi Heavy Industries Ltd.
  • Rolls-Royce Holdings PLC
  • Shanghai Diesel Engine Co., Ltd.
  • Tata Motors Limited
  • Weichai Holding Group Co.,Ltd.
  • Wartsila Corporation
  • Yanmar Holdings Co., Ltd.

第20章 研究人工智慧

第21章 研究統計

第22章 研究聯絡人

第23章 研究報導

第24章 附錄

The Engines & Gensets Market was valued at USD 377.52 billion in 2024 and is projected to grow to USD 397.75 billion in 2025, with a CAGR of 5.49%, reaching USD 520.44 billion by 2030.

KEY MARKET STATISTICS
Base Year [2024]	USD 377.52 billion
Estimated Year [2025]	USD 397.75 billion
Forecast Year [2030]	USD 520.44 billion
CAGR (%)	5.49%

Exploring the Evolving Engines and Gensets Market Dynamics That Are Catalyzing Innovation, Efficiency, and Sustainability Across Global Industries

Engines and generator sets underpin critical operations across diverse sectors, from industrial manufacturing and data center backup to remote energy provision and maritime propulsion. The technological landscape is evolving rapidly as stakeholders seek solutions that can deliver robust performance, enhanced efficiency, and lower environmental impact.

This executive brief explores the convergence of engineering innovations, regulatory pressures, and evolving customer demands that are redefining product strategies and operational practices across the global power generation ecosystem. As emerging trends such as distributed generation, hybrid power systems, and integration of Internet of Things technologies gain momentum, manufacturers and end users alike face new challenges and opportunities. Regulatory interventions aimed at reducing greenhouse gas emissions are accelerating the shift toward cleaner fuel alternatives and advanced emission control techniques.

At the same time, digital monitoring and predictive maintenance are creating avenues for cost optimization and performance assurance. Moreover, the analysis investigates competitive landscapes, assessing how leading players are leveraging partnerships, strategic investments, and product portfolios to maintain differentiation. By integrating insights on regional market dynamics, segmentation frameworks, and tariff influences, the report offers a holistic perspective to support informed strategic planning and resource allocation.

Mapping the Transformational Shifts Redefining the Engines and Gensets Industry With Technological Advances and Evolving Sustainability Expectations

Technological breakthroughs and shifting regulatory imperatives are catalyzing profound changes across the engines and gensets landscape. Innovations in combustion design, materials engineering, and thermal management are driving engines toward higher volumetric efficiency and lower emissions. Concurrently, emission standards such as Tier regulations and analogous measures in overseas markets are imposing stringent performance requirements, prompting suppliers to integrate aftertreatment systems and adopt advanced fuel injection strategies.

In parallel, the rise of alternative fuels, including biofuels, hydrogen blends, and renewable natural gas, is disrupting traditional fuel supply chains. Adoption of stationary and mobile power solutions equipped with multi-fuel capabilities supports greater operational flexibility, especially in sectors grappling with reliability concerns. Furthermore, the integration of digital technologies-ranging from remote monitoring platforms to augmented reality-assisted maintenance-enables real-time performance optimization and predictive diagnostics, significantly reducing unplanned downtime.

These transformative shifts are creating new ecosystem paradigms in which manufacturers, system integrators, and service providers collaborate on hybrid power architectures that can seamlessly interface with renewable energy sources. Consequently, value chains are extending beyond hardware supply toward comprehensive lifecycle management, delivering service offerings that enhance asset utilization and overall system resilience. Moreover, strategic alliances between original equipment manufacturers and technology firms are forging pathways for modular, scalable power solutions, accelerating the transition toward decentralized energy networks.

Analyzing the Cumulative Impacts of United States 2025 Tariffs on Engine and Genset Supply Chains and Competitive Dynamics Across Key Markets

Implementation of the new United States tariff framework in 2025 has introduced significant adjustments to the cost structures of engines and genset components imported from key manufacturing hubs. By levying additional duties on certain machinery categories, the policy has elevated landed costs for original equipment manufacturers relying on offshore production. As a result, procurement teams are reevaluating supplier relationships and exploring opportunities to localize manufacturing or source alternative component designs that fall outside tariff classifications.

In turn, some stakeholders have expedited capital investments in domestic fabrication facilities to mitigate exposure to trade barriers and safeguard supply continuity. This reshoring trend is accompanied by heightened collaboration between machine builders and parts suppliers to optimize bill of materials, streamline assembly processes, and capture cost efficiencies that can offset tariff-related premiums. Additionally, import-substitution strategies have spurred innovation in component standardization, enabling modular architectures that reduce dependency on single-source imports.

While the tariff measures have reshaped competitive positioning within the U.S. market, they have also prompted international players to seek new partnerships with domestic integrators and service providers. Consequently, hybrid sourcing models that combine local assembly with targeted offshoring are gaining traction. Moreover, the ripple effects of the tariff policy have extended to aftermarket services, where spare parts pricing and maintenance contracts are being reassessed to reflect altered cost baselines.

Critical Segmentation Insights Across Product Types, Fuel Sources, Cooling Methods, Portability Options, Control Modes, Application Uses, and End-Use Sectors

Segmentation by product type reveals distinct technology pathways for engines and generator sets. Within the engine category, external combustion solutions encompass gas turbines and steam engines along with Stirling models for specialized applications. Internal combustion variants include compression ignition units known for high torque output and spark ignition engines valued for rapid response and cleaner burn characteristics. Generator set configurations align with these engine platforms to deliver tailored power capacities and operational reliability.

Fuel type segmentation highlights the growing diversity of energy sources driving equipment selection. Traditional diesel engines remain prevalent for heavy-duty prime power, while petrol-driven sets continue to serve higher-speed applications. Gas-powered systems, including compressed natural gas, liquefied petroleum gas, and natural gas, have become preferred options in regions prioritizing emissions reduction. Concurrently, biofuel blends are emerging as viable drop-in alternatives that facilitate compliance without extensive hardware modifications.

Cooling mechanism plays a crucial role in ensuring equipment durability under varying ambient conditions. Air-cooled designs offer simplicity and minimal maintenance for mobile or remote sites, whereas liquid-cooled architectures provide superior thermal regulation in industrial environments. Likewise, fixed installations dominate large-scale infrastructure projects, while portable units deliver flexibility for temporary sites and emergency backup scenarios. Control mode analysis differentiates automated platforms-capable of remote monitoring and self-regulation-from manual systems that rely on onsite operator intervention.

Distribution channel dynamics illustrate the continuing relevance of established offline networks alongside increasingly sophisticated online procurement platforms, which are transforming lead times and service arrangements. In application terms, cogeneration systems drive efficiency improvements, peak shaving installations bolster grid stability during high-demand periods, continuous power units maintain critical operations, and standby gensets ensure emergency preparedness. End-use analysis extends across agriculture, commercial facilities such as data centers and hospitals, key industrial hubs including petrochemical and manufacturing sites, as well as infrastructure, marine operations, military installations, residential complexes, and telecom networks, reflecting the pervasive need for on-demand power

Highlighting Key Regional Dynamics in the Americas, Europe Middle East and Africa, and Asia-Pacific That Are Shaping the Future of Engines and Gensets Market

Regional dynamics in the Americas are driven by a combination of mature infrastructure, robust industrial activity, and evolving energy policies aimed at reducing carbon footprints. North American markets benefit from well-established supply chains and advanced manufacturing capabilities, with stimulus measures fueling demand for modern backup power solutions in critical sectors such as healthcare and data services. In Latin America, economic development and infrastructure expansion are creating fresh opportunities for hybrid genset deployments and portable power units in mining and agricultural operations.

Moving to Europe, Middle East, and Africa, this region exhibits diverse market drivers. Western European nations pursue aggressive emissions targets, propelling the adoption of low-carbon engines and integrated clean energy systems. Simultaneously, key Middle Eastern markets are investing in large-scale power projects that leverage gas turbines and combined heat and power configurations to meet industrial and urban requirements. In Africa, decentralized power installation remains critical, where portable gensets and microgrid solutions address reliability challenges in remote locales.

The Asia-Pacific landscape is characterized by rapid urbanization, industrial growth, and government initiatives promoting energy security. East Asian countries continue to refine emission standards, spurring technology upgrades, while South Asian markets experience rising demand for continuous and standby power as grid infrastructure matures. Southeast Asia and Oceania are witnessing accelerated deployments of gas-fueled gensets and multi-fuel engines that balance cost considerations with environmental regulations, underscoring the region's pivotal role in shaping global power generation trends

Identifying Leading Industry Players Driving Innovation, Partnerships, and Competitive Edge Through Technological Advancements in Engines and Gensets

Leading companies are enhancing their market positions through strategic alliances, product innovation, and expansion of service portfolios. Key original equipment manufacturers have intensified research efforts to introduce high-efficiency engine designs, hybrid powertrain solutions, and advanced emission control systems. Partnerships between turbine specialists and digital platform providers have produced integrated offerings that optimize performance and extend maintenance intervals.

In addition to hardware advancements, top players are differentiating via comprehensive lifecycle management services. By deploying remote diagnostics platforms, real-time condition monitoring, and predictive maintenance algorithms, these firms deliver greater uptime and cost transparency. Collaborations with industrial automation and cloud service organizations further enable seamless data integration, empowering operators to make informed decisions based on performance analytics.

Several leading organizations have also expanded their footprint through acquisitions of complementary technology startups and joint ventures in strategic geographies. Targeted investments are accelerating the rollout of multi-fuel engines capable of operating on biofuel blends and renewable gas. Moreover, these companies are adopting modular product architectures that allow for scalable power configurations and faster time to market, ensuring they can respond effectively to bespoke customer requirements and emerging sector needs

Actionable Strategies to Empower Industry Leaders to Boost Sustainability, Efficiency, and Market Position in Engines and Gensets Sector

Industry leaders should prioritize investment in low-carbon and alternative fuel technologies to align portfolios with evolving regulatory frameworks and sustainability objectives. Accelerating development of engines compatible with hydrogen blends, renewable natural gas, and advanced biofuels will position manufacturers at the forefront of decarbonization efforts. Simultaneously, integrating digital analytics and control systems into core offerings will enable predictive maintenance, remote management, and optimized load distribution, driving operational efficiency and customer value.

Furthermore, establishing robust service networks and aftermarket capabilities can foster long-term customer engagement and generate recurring revenue streams. Collaborating with regional partners to expand maintenance facilities, train specialized technicians, and deploy remote-monitoring solutions will enhance uptime and reduce lifecycle costs. Alliances with fuel suppliers and energy storage providers can deliver comprehensive energy solutions tailored to specific end-use environments, reinforcing competitive differentiation.

Expanding presence in high-growth emerging markets requires a nuanced approach that balances localized manufacturing, regulatory compliance, and targeted marketing. Cultivating cross-functional teams with regional expertise and leveraging digital channels for streamlined sales and support will ensure organizations remain agile. By embedding sustainability goals into corporate strategy and establishing clear metrics for emission reduction and resource efficiency, companies can meet stakeholder expectations and unlock new growth avenues in green energy sectors

Rigorous Research Methodology Employing Qualitative and Quantitative Techniques Ensuring Reliability and Validity of Engines and Gensets Market Insights

To ensure comprehensive and reliable insights into the engines and gensets market, a rigorous mixed-method research methodology was employed that integrates both qualitative and quantitative techniques. Primary research included structured interviews with senior executives, system integrators, and end users across multiple regions, capturing firsthand perspectives on technology adoption, strategic priorities, and operational challenges. Concurrent online surveys validated emerging trends and gathered quantitative data on performance metrics and procurement preferences.

Secondary research complemented these efforts through an extensive review of technical papers, regulatory filings, industry publications, and corporate disclosures. Trade association reports and patent databases were analyzed to identify cutting-edge innovations and competitive developments. This dual approach enabled the extraction of key performance indicators and a detailed mapping of regulatory influences on power generation equipment.

Data triangulation was applied to cross-verify findings from diverse sources, ensuring consistency and strengthening the reliability of strategic conclusions. Analytical models evaluated correlations among market drivers, technology trends, and regional dynamics. Expert validation sessions with subject matter specialists served as final quality checks, refining insights and recommendations. The resulting analysis equips decision-makers with a robust foundation for navigating complex market conditions and leveraging emerging opportunities

Synthesizing Key Findings and Strategic Conclusions to Provide a Clear Path Forward for Stakeholders in the Engines and Gensets Industry Ecosystem

As the engines and gensets landscape continues to evolve, key findings underscore a pervasive shift toward cleaner combustion technologies, diversified fuel integrations, and digitalized asset management. Stakeholders are navigating a complex interplay of regulatory mandates, trade policies, and customer demands that prioritize efficiency, reliability, and environmental stewardship. The segmentation analysis highlights how product types, fuel options, cooling regimes, portability, and control modes converge to address diverse application needs across multiple end-use sectors.

Regional insights reveal contrasting market dynamics, from mature infrastructure in the Americas to emission-driven technology upgrades in Europe, Middle East, and Africa. Asia-Pacific's rapid urbanization and industrial growth are also shaping equipment requirements and procurement strategies. Meanwhile, the United States tariff measures have catalyzed supply chain realignment, prompting reshoring initiatives and modular sourcing approaches that enhance resilience.

Competitive dynamics are poised to favor organizations that embrace alternative fuel platforms, extend digital and aftermarket services, and cultivate agile supply networks. By synthesizing technological innovation with sustainability imperatives and service excellence, industry participants can chart a clear path forward and secure a strategic advantage in an increasingly dynamic power generation market

Table of Contents

1. Preface

• 1.1. Objectives of the Study
• 1.2. Market Segmentation & Coverage
• 1.3. Years Considered for the Study
• 1.4. Currency & Pricing
• 1.5. Language
• 1.6. Stakeholders

2. Research Methodology

• 2.1. Define: Research Objective
• 2.2. Determine: Research Design
• 2.3. Prepare: Research Instrument
• 2.4. Collect: Data Source
• 2.5. Analyze: Data Interpretation
• 2.6. Formulate: Data Verification
• 2.7. Publish: Research Report
• 2.8. Repeat: Report Update

3. Executive Summary

4. Market Overview

• 4.1. Introduction
• 4.2. Market Sizing & Forecasting

5. Market Dynamics

• 5.1. Advancements in hybrid genset technology enhancing energy efficiency and reducing emissions
• 5.2. Growing demand for fuel-efficient engines driven by stringent environmental regulations worldwide
• 5.3. Rising adoption of renewable energy sources in engine and genset markets influencing sustainability trends
• 5.4. Growing investment in electric gensets driven by sustainability initiatives
• 5.5. Increasing integration of IoT technology for real-time monitoring in gensets and engines
• 5.6. Expansion of the genset rental market due to urbanization and infrastructure development needs
• 5.7. Emergence of smart gensets with automated control systems for improved operational performance
• 5.8. Impact of electric and battery-powered gensets on traditional diesel genset market dynamics
• 5.9. Development of compact and portable engine gensets catering to small-scale and remote applications
• 5.10. Innovative cooling and noise reduction techniques improving genset usability in residential areas

6. Market Insights

• 6.1. Porter's Five Forces Analysis
• 6.2. PESTLE Analysis

7. Cumulative Impact of United States Tariffs 2025

8. Engines & Gensets Market, by Product Type

• 8.1. Introduction
• 8.2. Engines
  • 8.2.1. External Combustion Engines
    • 8.2.1.1. Gas Turbines
    • 8.2.1.2. Steam Engines
    • 8.2.1.3. Stirling Engines
  • 8.2.2. Internal Combustion Engines (ICE)
    • 8.2.2.1. Compression Ignition (CI) Engines
    • 8.2.2.2. Spark Ignition (SI) Engines
• 8.3. Gensets

9. Engines & Gensets Market, by Fuel Type

• 9.1. Introduction
• 9.2. Biofuel
• 9.3. Diesel
• 9.4. Gas
  • 9.4.1. CNG
  • 9.4.2. LPG
  • 9.4.3. Natural Gas
• 9.5. Petrol

10. Engines & Gensets Market, by Cooling Mechanism

• 10.1. Introduction
• 10.2. Air Cooled
• 10.3. Liquid Cooled

11. Engines & Gensets Market, by Portability

• 11.1. Introduction
• 11.2. Fixed
• 11.3. Portable

12. Engines & Gensets Market, by Control System

• 12.1. Introduction
• 12.2. Automatic Control
• 12.3. Manual Control

13. Engines & Gensets Market, by Distribution Channel

• 13.1. Introduction
• 13.2. Offline
• 13.3. Online

14. Engines & Gensets Market, by Application

• 14.1. Introduction
• 14.2. Cogeneration
• 14.3. Peak Shaving
• 14.4. Prime/Continuous Power
• 14.5. Standby Power

15. Engines & Gensets Market, by End-Use

• 15.1. Introduction
• 15.2. Agriculture
• 15.3. Commercial
  • 15.3.1. Data Centers
  • 15.3.2. Hospitals
  • 15.3.3. Offices
  • 15.3.4. Retail Stores
• 15.4. Construction
• 15.5. Industrial
  • 15.5.1. Chemical & Petrochemical
  • 15.5.2. Food & Beverage
  • 15.5.3. Manufacturing
  • 15.5.4. Mining
  • 15.5.5. Oil & Gas
• 15.6. Infrastructure
• 15.7. Marine
• 15.8. Military & Defense
• 15.9. Residential
• 15.10. Telecom

16. Americas Engines & Gensets Market

• 16.1. Introduction
• 16.2. United States
• 16.3. Canada
• 16.4. Mexico
• 16.5. Brazil
• 16.6. Argentina

17. Europe, Middle East & Africa Engines & Gensets Market

• 17.1. Introduction
• 17.2. United Kingdom
• 17.3. Germany
• 17.4. France
• 17.5. Russia
• 17.6. Italy
• 17.7. Spain
• 17.8. United Arab Emirates
• 17.9. Saudi Arabia
• 17.10. South Africa
• 17.11. Denmark
• 17.12. Netherlands
• 17.13. Qatar
• 17.14. Finland
• 17.15. Sweden
• 17.16. Nigeria
• 17.17. Egypt
• 17.18. Turkey
• 17.19. Israel
• 17.20. Norway
• 17.21. Poland
• 17.22. Switzerland

18. Asia-Pacific Engines & Gensets Market

• 18.1. Introduction
• 18.2. China
• 18.3. India
• 18.4. Japan
• 18.5. Australia
• 18.6. South Korea
• 18.7. Indonesia
• 18.8. Thailand
• 18.9. Philippines
• 18.10. Malaysia
• 18.11. Singapore
• 18.12. Vietnam
• 18.13. Taiwan

19. Competitive Landscape

• 19.1. Market Share Analysis, 2024
• 19.2. FPNV Positioning Matrix, 2024
• 19.3. Competitive Analysis
  • 19.3.1. AB Volvo
  • 19.3.2. Aggreko Ltd.
  • 19.3.3. Atlas Copco AB
  • 19.3.4. Briggs & Stratton, LLC
  • 19.3.5. Caterpillar Inc.
  • 19.3.6. Cummins Inc.
  • 19.3.7. Deere & Company
  • 19.3.8. Denso Corporation
  • 19.3.9. Deutz AG
  • 19.3.10. Generac Holdings Inc.
  • 19.3.11. Guangxi Yuchai Machinery Co., Ltd.
  • 19.3.12. HD Hyundai
  • 19.3.13. Honda Motor Co., Ltd.
  • 19.3.14. Kawasaki Heavy Industries, Ltd.
  • 19.3.15. Kirloskar Oil Engines Ltd.
  • 19.3.16. Kohler Co.
  • 19.3.17. Kubota Corporation
  • 19.3.18. Liebherr-International AG
  • 19.3.19. MAN Energy Solutions SE
  • 19.3.20. Mitsubishi Heavy Industries Ltd.
  • 19.3.21. Rolls-Royce Holdings PLC
  • 19.3.22. Shanghai Diesel Engine Co., Ltd.
  • 19.3.23. Tata Motors Limited
  • 19.3.24. Weichai Holding Group Co.,Ltd.
  • 19.3.25. Wartsila Corporation
  • 19.3.26. Yanmar Holdings Co., Ltd.

20. ResearchAI

21. ResearchStatistics

22. ResearchContacts

23. ResearchArticles

24. Appendix