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マイクロタービンの世界市場:用途別、電力定格別、エンドユーザー別、地域別、2024~2032年

Microturbine Market Report by Application (Combined Heat and Power (CHP), Standby Power), Power Rating (12 kW - 50 kW, 50 kW - 250 kW, 250 kW - 500 kW), End-User (Residential, Commercial, Industrial), and Region 2024-2032
出版日: | 発行: IMARC | ページ情報: 英文 136 Pages | 納期: 2~3営業日

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価格
価格表記: USDを日本円(税抜)に換算
本日の銀行送金レート: 1USD=157.14円
マイクロタービンの世界市場:用途別、電力定格別、エンドユーザー別、地域別、2024~2032年
出版日: 2024年04月08日
発行: IMARC
ページ情報: 英文 136 Pages
納期: 2~3営業日
  • 全表示
  • 概要
  • 図表
  • 目次
概要

世界のマイクロタービンの市場規模は、2023年に838億米ドルに達し、2024~2032年にかけてCAGR 7.2%で成長し、2032年までに1,602億米ドルに達すると予測されています。歯科疾患の有病率の上昇、新興国市場におけるデンタルツーリズムの増加、発展途上国における可処分所得の増加は、市場を推進している主な要因の一部です。

マイクロタービンは、従来のガスタービンと同じ原理で作動する小規模発電装置だが、その規模ははるかに小さいです。一般的に25~500kwの発電能力を持つマイクロタービンは、コンパクトで軽量、高効率の発電機です。住宅用、商業用、産業用、遠隔地での発電など、さまざまな用途に分散型エネルギーソリューションを提供するよう設計されています。マイクロタービンの運転では、天然ガス、ディーゼル、あるいはバイオガスなど、さまざまな燃料を燃焼させ、タービンを駆動して電気を生産します。この過程で発生する排熱は、コージェネレーションや熱応用に利用することができ、全体的なエネルギー効率を高めることができます。マイクロタービンは、そのコンパクトなサイズとモジュール設計により、設置が容易で柔軟性があり、オングリッドとオフグリッドの両方の発電シナリオに適しています。この革新的な装置は、環境へのメリット、温室効果ガス排出量の削減、運転コストの低減により、近年人気を博しています。さらに、技術の進歩により信頼性が向上し、メンテナンス間隔が長くなったことで、エネルギー市場での魅力がさらに高まっています。分散型で持続可能なエネルギーソリューションへの需要が拡大し続ける中、マイクロタービンは、様々な産業や用途の多様な発電ニーズを満たす上で、ますます重要な役割を果たすと期待されています。

分散型エネルギーソリューションに対する需要の高まりは、市場を牽引する主な要因の一つです。マイクロタービンは、オンサイトで発電するコンパクトで効率的な方法を提供し、大規模な送電インフラの必要性を減らし、企業や地域社会がエネルギー需要を満たす上でより自立することを可能にします。さらに、気候変動への懸念が高まり、温室効果ガス排出量を削減する必要性が高まる中、エネルギー効率が高く、環境に優しい技術の採用が重視されています。よりクリーンな燃料を利用し、廃熱を利用したコージェネレーション機能を提供することで、全体的なエネルギーの浪費を抑えることができます。この他にも、自然災害やその他の要因による停電や送電網の寸断の頻度が増加していることから、回復力のあるエネルギーシステムの重要性が浮き彫りになっています。マイクロタービンは信頼性が高く安定した電力源を提供するため、重要インフラ、データセンター、病院、その他の重要施設にとって魅力的な選択肢となっています。石油・ガス、製造業、通信など、さまざまな産業がその操業のために継続的で信頼性の高い電力供給を必要としています。これらのタービンは、これらの需要を満たすための実行可能なソリューションを提供し、産業および商業部門での採用を後押ししています。これに加えて、主要送電網への接続が困難であったり、経済的に不可能であったりする遠隔地や非電化地域では、マイクロタービンは独立した発電を行うための実用的かつ効率的なソリューションを提供します。さらに、世界中の多くの政府が、再生可能かつ効率的なエネルギー技術の採用を促進するために、様々なインセンティブ、補助金、税制上の優遇措置を提供しています。こうした有利な政策は、企業や消費者にマイクロタービンシステムへの投資を促し、市場の成長をさらに促進します。

マイクロタービン市場の動向と促進要因:

分散型エネルギー発電の需要拡大

分散型エネルギーシステムは、集中型発電所と長距離送電線への依存を減らし、局所的な発電を可能にします。この動向は、送電ロスを最小限に抑え、送電網の効率を向上させるだけでなく、エネルギー安全保障と回復力を高める必要性に後押しされています。マイクロタービンは、そのコンパクトなサイズ、低排出ガス、バイオガスのような再生可能資源を含む様々な燃料で運転できる能力により、分散型エネルギーソリューションにおいて重要な役割を果たしています。マイクロタービンは、オンサイト発電が大幅なコスト削減と運用上の利点につながる商業・産業用途に特に適しています。さらに、マイクロタービンの柔軟性は、マイクログリッドやスマートグリッドシステムへの統合を可能にし、より分散化された持続可能なエネルギーへの移行をさらに後押しします。

エネルギー効率と持続可能性の重視

気候変動への懸念が高まり、二酸化炭素排出量を削減する必要性が高まる中、企業や産業界はよりクリーンで効率的な技術を求めています。マイクロタービンは、従来の発電方法と比較して高いエネルギー変換効率を提供することで、この要件に適合しています。さらに、天然ガスやバイオガスのようなクリーンな燃料で運転できるため、温室効果ガスの排出量や大気汚染物質を削減できます。コージェネレーション用に廃熱を回収する能力は、エネルギー効率をさらに高め、全体的な資源保護につながります。政府や組織が持続可能なエネルギー利用を推進する中、マイクロタービンは、信頼性の高い電力供給を確保しつつ、環境目標に沿った魅力的な選択肢を提示しています。

政府のインセンティブとサポート

多くの国や地域では、再生可能技術やエネルギー効率の高い技術の導入を奨励するため、様々な財政的インセンティブ、税額控除、補助金、リベートを提供しています。こうした有利な政策は、マイクロタービンの導入にかかる初期費用を削減し、企業や消費者にとって経済的に実行可能なものにします。さらに、分散型発電やよりクリーンな技術を促進する支援的な規制やエネルギー基準は、マイクロタービンの展開を助長する環境を作り出しています。各国政府は、マイクロタービンがエネルギー安全保障、送電網の安定性、排出量削減に貢献する可能性があることを認識しており、これがさらに後押ししています。このような政策が進化し続けるにつれ、市場は持続的な成長を遂げ、マイクロタービンのエネルギーへの統合が進むと予想されます。

目次

第1章 序文

第2章 調査範囲と調査手法

  • 調査目的
  • 利害関係者
  • データ情報源
  • 市場推定
  • 調査手法

第3章 エグゼクティブサマリー

第4章 イントロダクション

  • 概要
  • 主要産業動向

第5章 マイクロタービンの世界市場

  • 市場概要
  • 市場実績
  • COVID-19の影響
  • 市場予測

第6章 市場内訳:用途別

  • 熱電併給(CHP)
  • 待機電力

第7章 市場内訳:電力定格別

  • 12~50kW
  • 50~250kW
  • 250~500 kW

第8章 市場内訳:エンドユーザー別

  • 住宅
  • 商業
  • 産業

第9章 市場内訳:地域別

  • 北米
    • 米国
    • カナダ
  • アジア太平洋
    • 中国
    • 日本
    • インド
    • 韓国
    • オーストラリア
    • インドネシア
    • その他
  • 欧州
    • ドイツ
    • フランス
    • 英国
    • イタリア
    • スペイン
    • ロシア
    • その他
  • ラテンアメリカ
    • ブラジル
    • メキシコ
    • その他
  • 中東・アフリカ

第10章 SWOT分析

  • 概要
  • 強み
  • 弱み
  • 機会
  • 脅威

第11章 バリューチェーン分析

第12章 ポーターのファイブフォース分析

  • 概要
  • 買い手の交渉力
  • 供給企業の交渉力
  • 競合の程度
  • 新規参入業者の脅威
  • 代替品の脅威

第13章 価格指標

第14章 競合情勢

  • 市場構造
  • 主要企業
  • 主要企業のプロファイル
    • Ansaldo Energia SPA
    • Bladon Jets
    • Capstone Turbine Corporation
    • FlexEnergy Inc.
    • Brayton Energy, LLC
    • Toyota Motor Corporation
    • Micro Turbine Technology B.V.
    • ICR Turbine Engine Corporation
    • Calnetix Technologies
図表

List of Figures

  • Figure 1: Global: Microturbine Market: Major Drivers and Challenges
  • Figure 2: Global: Microturbine Market: Sales Value (in Billion US$), 2018-2023
  • Figure 3: Global: Microturbine Market: Breakup by Application (in %), 2023
  • Figure 4: Global: Microturbine Market: Breakup by Power Rating (in %), 2023
  • Figure 5: Global: Microturbine Market: Breakup by End-User (in %), 2023
  • Figure 6: Global: Microturbine Market: Breakup by Region (in %), 2023
  • Figure 7: Global: Microturbine Market Forecast: Sales Value (in Billion US$), 2024-2032
  • Figure 8: Global: Microturbine (Combined Heat and Power) Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 9: Global: Microturbine (Combined Heat and Power) Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 10: Global: Microturbine (Standby Power) Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 11: Global: Microturbine (Standby Power) Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 12: Global: Microturbine (12 kW - 50 kW) Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 13: Global: Microturbine (12 kW - 50 kW) Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 14: Global: Microturbine (50 kW - 250 kW) Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 15: Global: Microturbine (50 kW - 250 kW) Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 16: Global: Microturbine (250 kW - 500 kW) Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 17: Global: Microturbine (250 kW - 500 kW) Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 18: Global: Microturbine (Residential) Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 19: Global: Microturbine (Residential) Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 20: Global: Microturbine (Commercial) Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 21: Global: Microturbine (Commercial) Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 22: Global: Microturbine (Industrial) Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 23: Global: Microturbine (Industrial) Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 24: North America: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 25: North America: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 26: United States: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 27: United States: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 28: Canada: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 29: Canada: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 30: Asia Pacific: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 31: Asia Pacific: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 32: China: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 33: China: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 34: Japan: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 35: Japan: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 36: India: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 37: India: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 38: South Korea: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 39: South Korea: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 40: Australia: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 41: Australia: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 42: Indonesia: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 43: Indonesia: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 44: Others: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 45: Others: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 46: Europe: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 47: Europe: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 48: Germany: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 49: Germany: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 50: France: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 51: France: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 52: United Kingdom: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 53: United Kingdom: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 54: Italy: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 55: Italy: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 56: Spain: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 57: Spain: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 58: Russia: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 59: Russia: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 60: Others: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 61: Others: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 62: Latin America: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 63: Latin America: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 64: Brazil: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 65: Brazil: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 66: Mexico: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 67: Mexico: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 68: Others: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 69: Others: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 70: Middle East and Africa: Microturbine Market: Sales Value (in Million US$), 2018 & 2023
  • Figure 71: Middle East and Africa: Microturbine Market: Breakup by Country (in %), 2023
  • Figure 72: Middle East and Africa: Microturbine Market Forecast: Sales Value (in Million US$), 2024-2032
  • Figure 73: Global: Microturbine Industry: SWOT Analysis
  • Figure 74: Global: Microturbine Industry: Value Chain Analysis
  • Figure 75: Global: Microturbine Industry: Porter's Five Forces Analysis

List of Tables

  • Table 1: Global: Microturbine Market: Key Industry Highlights, 2023 and 2032
  • Table 2: Global: Microturbine Market Forecast: Breakup by Application (in Million US$), 2024-2032
  • Table 3: Global: Microturbine Market Forecast: Breakup by Power Rating (in Million US$), 2024-2032
  • Table 4: Global: Microturbine Market Forecast: Breakup by End-User (in Million US$), 2024-2032
  • Table 5: Global: Microturbine Market Forecast: Breakup by Region (in Million US$), 2024-2032
  • Table 6: Global: Microturbine Market: Competitive Structure
  • Table 7: Global: Microturbine Market: Key Players
目次
Product Code: SR112024A1922

The global microturbine market size reached US$ 83.8 Billion in 2023. Looking forward, IMARC Group expects the market to reach US$ 160.2 Billion by 2032, exhibiting a growth rate (CAGR) of 7.2% during 2024-2032. The rising prevalence of dental disorders, increasing dental tourism in the emerging markets, and inflating disposable incomes in developing nations are some of the major factors propelling the market.

A microturbine is a small-scale power generation device that operates on the same principles as traditional gas turbines but at a much smaller scale. Typically ranging from 25 kilowatts to 500 kilowatts in capacity, microturbines are compact, lightweight, and highly efficient power generators. They are designed to provide distributed energy solutions for various applications, including residential, commercial, industrial, and remote power generation. The microturbine's operation involves the combustion of a variety of fuels, such as natural gas, diesel, or even biogas, which drives a turbine to produce electricity. The exhaust heat generated during this process can be utilized for co-generation or thermal applications, enhancing overall energy efficiency. Due to their compact size and modular design, microturbines offer easy installation and flexibility, making them suitable for both on-grid and off-grid power generation scenarios. These innovative devices have gained popularity in recent years due to their environmental benefits, reduced greenhouse gas emissions, and lower operational costs. Moreover, advancements in technology have led to increased reliability and longer maintenance intervals, further bolstering their appeal in the energy market. As the demand for decentralized and sustainable energy solutions continues to grow, microturbines are expected to play an increasingly vital role in meeting the diverse power generation needs of various industries and applications.

The rise in demand for decentralized energy solutions is one of the primary factors driving the market. Microturbines offer a compact and efficient way to generate power on-site, reducing the need for extensive transmission infrastructure and enabling businesses and communities to become more self-reliant in meeting their energy needs. Additionally, with increasing concerns about climate change and the need to reduce greenhouse gas emissions, there is a growing emphasis on adopting energy-efficient and environmentally friendly technologies. They fit this criterion by utilizing cleaner fuels and offering co-generation capabilities that leverage waste heat for additional energy generation, thus reducing overall energy wastage. Other than this, the increasing frequency of power outages and grid disruptions due to natural disasters or other factors has highlighted the importance of resilient energy systems. Microturbines offer a reliable and stable source of power, making them an appealing choice for critical infrastructure, data centers, hospitals, and other essential facilities. Various industries, such as oil and gas, manufacturing, and telecommunications, require continuous and reliable power supply for their operations. These turbines provide a viable solution for meeting these demands, driving their adoption in industrial and commercial sectors. Besides this, in remote or off-grid areas where connecting to the main power grid is challenging or economically unviable, microturbines offer a practical and efficient solution to generate electricity independently. Moreover, many governments around the world are offering various incentives, subsidies, and tax benefits to promote the adoption of renewable and efficient energy technologies. These favorable policies encourage businesses and consumers to invest in microturbine systems, further driving market growth.

Microturbines Market Trends/Drivers:

Growing Demand for Distributed Energy Generation

Distributed energy systems enable localized power generation, reducing the reliance on centralized power plants and long-distance transmission lines. This trend is fueled by the need for greater energy security and resilience, as well as the desire to minimize transmission losses and improve grid efficiency. Microturbines play a vital role in distributed energy solutions due to their compact size, low emissions, and ability to operate on a variety of fuels, including renewable sources like biogas. They are particularly well-suited for commercial and industrial applications where on-site power generation can lead to significant cost savings and operational advantages. Additionally, the flexibility of microturbines allows them to be integrated into microgrids and smart grid systems, further supporting the transition towards a more decentralized and sustainable energy landscape.

Emphasis on Energy Efficiency and Sustainability

With increasing concerns over climate change and the need to reduce carbon footprints, businesses and industries are seeking cleaner and more efficient technologies. Microturbines fit this requirement by offering higher energy conversion efficiencies compared to conventional power generation methods. Furthermore, they can operate on cleaner fuels like natural gas or biogas, which reduces greenhouse gas emissions and air pollutants. Their ability to capture waste heat for co-generation applications further enhances their energy efficiency, leading to overall resource conservation. As governments and organizations push for sustainable energy practices, microturbines present an attractive option that aligns with their environmental goals while ensuring reliable power supply.

Government Incentives and Support

Many countries and regions offer various financial incentives, tax credits, grants, and rebates to encourage the adoption of renewable and energy-efficient technologies. These favorable policies reduce the upfront costs of acquiring microturbines, making them more economically viable for businesses and consumers. Additionally, supportive regulations and energy standards that promote distributed generation and cleaner technologies create a conducive environment for microturbine deployment. Governments recognize the potential of microturbines to contribute to energy security, grid stability, and reduced emissions, which further motivates their backing. As these policies continue to evolve, the market is expected to witness sustained growth, enabling greater integration of these systems into the energy landscape.

Microturbines Industry Segmentation:

IMARC Group provides an analysis of the key trends in each segment of the global microturbine market report, along with forecasts at the global, regional and country levels from 2024-2032. Our report has categorized the market based on application, power rating and end-user.

Breakup by Application:

Combined Heat and Power (CHP)

Standby Power

Combined heat and power (CHP) dominates the market

The report has provided a detailed breakup and analysis of the market based on the application. This includes combined heat and power (CHP) and standby power. According to the report, combined heat and power represented the largest segment.

CHP systems generate electricity while simultaneously capturing and utilizing the waste heat produced during the generation process. This process significantly increases the overall efficiency of the system, often exceeding 80%, as compared to traditional separate heat and power generation methods, which can have much lower efficiency levels. The high efficiency of CHP systems translates into reduced fuel consumption and lower greenhouse gas emissions, making them an attractive choice for industries and commercial facilities looking to improve their environmental footprint. By utilizing the waste heat for space heating, water heating, or industrial processes, CHP systems offer cost savings and enhance energy utilization, resulting in lower operational expenses for end-users. Moreover, the versatility of CHP systems allows them to be applied across various sectors, including manufacturing, hospitals, universities, district heating, and residential complexes. As governments and industries increasingly prioritize energy efficiency and sustainability, CHP's ability to provide both electricity and heat in an integrated manner positions it as a prominent and viable solution.

Breakup by Power Rating:

12 kW - 50 kW

50 kW - 250 kW

250 kW - 500 kW

12 kW- 50kW hold the largest share in the market

A detailed breakup and analysis of the market based on the power rating has also been provided in the report. This includes 12 kW-50 kW, 50 kW-250 kW, and 250 kW-500 kW. According to the report, 12 kW- 50 kW accounted for the largest market share.

Microturbines falling within 12 kW-50 kW suitable for a diverse range of applications, including small commercial businesses, remote off-grid locations, residential complexes, and small-scale industrial operations. They provide a reliable and consistent power supply without the need for extensive infrastructure, making them an ideal solution for distributed energy generation. Additionally, microturbines in the 12kW to 50kW range are often more cost-effective to install and maintain compared to larger units, making them financially accessible to a broader market segment. Their compact size and ease of integration allow for flexible installation in various settings. Other than this, advancements in technology have improved the efficiency and performance of microturbines in this power range, enhancing their appeal to customers seeking sustainable and environmentally friendly energy solutions. As a result, the 12kW to 50kW power rating segment stands out as the largest in the market, catering to the energy needs of diverse sectors while offering economic and environmental benefits.

Breakup by End-User:

Residential

Commercial

Industrial

Industrial represents the largest end user segment

The report has provided a detailed breakup and analysis of the market based on the end-user. This includes residential, commercial and industrial. According to the report, industrial represented the largest segment.

Microturbines find extensive use in industrial applications because they offer a reliable and decentralized power generation solution, ensuring uninterrupted production processes. Industries often have high and consistent electricity demands, making them ideal candidates for on-site power generation, which reduces dependence on the grid and minimizes the risk of power outages. Furthermore, microturbines' ability to operate on various fuels, including natural gas and biogas, aligns with the diverse energy needs of different industrial settings. This versatility provides industries with options for selecting the most cost-effective and environmentally friendly fuel sources. Industrial facilities also benefit from the co-generation capability of microturbines, which allows them to utilize waste heat for various heating applications, enhancing overall energy efficiency and lowering operational costs. Additionally, many governments and organizations are placing increasing emphasis on sustainability and environmental responsibility in industrial operations. Microturbines' clean and efficient power generation characteristics align with these objectives, making them an attractive choice for industrial end-users looking to reduce their carbon footprint and comply with environmental regulations.

Breakup by Region:

North America

United States

Canada

Asia Pacific

China

Japan

India

South Korea

Australia

Indonesia

Others

Europe

Germany

France

United Kingdom

Italy

Spain

Russia

Others

Latin America

Brazil

Mexico

Others

Middle East and Africa

North America exhibits a clear dominance, accounting for the largest microturbine market market share

The report has also provided a comprehensive analysis of all the major regional markets, which include North America (the United States and Canada); Europe (Germany, France, the United Kingdom, Italy, Spain, Russia, Others); Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, Others); Latin America (Brazil, Mexico, Others); and the Middle East and Africa. According to the report, North America was the largest market.

North America has a strong focus on energy efficiency, sustainability, and environmental responsibility. The demand for cleaner and more efficient energy solutions aligns well with the characteristics of microturbines, which offer high energy conversion efficiencies and lower greenhouse gas emissions. Additionally, supportive government policies and incentives play a crucial role in driving the market. Various federal and state-level programs offer financial incentives, tax credits, and grants to encourage the adoption of renewable and energy-efficient technologies, including microturbines. These initiatives reduce the upfront costs for businesses and consumers, making these turbines more economically viable. Other than this, the region's diverse industrial landscape contributes to the market's growth. They find applications in various sectors, such as oil and gas, manufacturing, healthcare, and data centers, where they serve as reliable on-site power generation solutions, ensuring uninterrupted operations. Moreover, North America's well-developed infrastructure and grid connectivity make it conducive for integrating distributed energy resources like microturbines. The ease of interconnection and compatibility with existing systems further promote the deployment of microturbines in the region.

Competitive Landscape:

The leading companies in the market invest heavily in research and development to improve the efficiency, reliability, and performance of their products. By continuously innovating and introducing cutting-edge technologies, they offer more advanced and competitive solutions to meet the evolving demands of end-users. Additionally, key players often engage in strategic partnerships and collaborations with other industry stakeholders, including energy providers, utilities, and system integrators. These alliances help them expand their market presence, access new distribution channels, and integrate their microturbine solutions into broader energy systems and smart grid initiatives. Other than this, to capitalize on emerging market opportunities, major players actively pursue global expansion strategies. They establish subsidiaries, distribution networks, and service centers in various regions to cater to local demand and provide better customer support. Besides this, key players conduct extensive marketing campaigns to create awareness about the benefits of microturbines, targeting industries, commercial entities, and consumers. These efforts play a crucial role in expanding the overall market by educating potential customers about the advantages of microturbines over conventional power generation methods. In line with this, to build long-term relationships with customers and enhance loyalty, leading companies prioritize after-sales service and technical support. Timely maintenance, spare parts availability, and comprehensive service agreements contribute to customer satisfaction and drive repeat business.

The report has provided a comprehensive analysis of the competitive landscape in the market. Detailed profiles of all major companies have also been provided. Some of the key players in the market include:

Ansaldo Energia SPA

Bladon Jets

Capstone Turbine Corporation

FlexEnergy Inc.

Brayton Energy, LLC

Toyota Motor Corporation

Micro Turbine Technology B.V.

ICR Turbine Engine Corporation

Calnetix Technologies

Recent Developments:

Ansaldo Energia SPA launched AE-T100. The high-frequency electricity produced is converted into either AC or DC power at the specified frequency by the advanced power electronics system. The AE-T100 rotor system consists of a high-speed generator, a compressor, and turbine wheels, all mounted on a single shaft, making it the sole rotating component within the engine.

Bladon Jets and Ryse Energy entered into a significant and strategic partnership to advance clean energy solutions for the off-grid telecommunications sector. This collaboration brings together the expertise and technologies of both companies to address the growing demand for reliable and sustainable power solutions in remote and off-grid locations, particularly within the telecommunications industry.

Capstone green energy C65 microturbine recertified by the stringent California Air Resources Board (CARB). This marks a significant achievement for the company and highlights the turbine's compliance with rigorous environmental standards set by CARB.

Key Questions Answered in This Report:

  • How has the global microturbine market performed so far, and how will it perform in the coming years?
  • What are the drivers, restraints, and opportunities in the global microturbine market?
  • What is the impact of each driver, restraint, and opportunity on the global microturbine market?
  • What are the key regional markets?
  • Which countries represent the most attractive microturbine market?
  • What is the breakup of the market based on the application?
  • Which is the most attractive application in the microturbine market?
  • What is the breakup of the market based on the power rating?
  • Which is the most attractive power rating in the microturbine market?
  • What is the breakup of the market based on the end-user?
  • Which is the most attractive end-user in the microturbine market?
  • What is the competitive structure of the global microturbine market?
  • Who are the key players/companies in the global microturbine market?

Table of Contents

1 Preface

2 Scope and Methodology

  • 2.1 Objectives of the Study
  • 2.2 Stakeholders
  • 2.3 Data Sources
    • 2.3.1 Primary Sources
    • 2.3.2 Secondary Sources
  • 2.4 Market Estimation
    • 2.4.1 Bottom-Up Approach
    • 2.4.2 Top-Down Approach
  • 2.5 Forecasting Methodology

3 Executive Summary

4 Introduction

  • 4.1 Overview
  • 4.2 Key Industry Trends

5 Global Microturbine Market

  • 5.1 Market Overview
  • 5.2 Market Performance
  • 5.3 Impact of COVID-19
  • 5.4 Market Forecast

6 Market Breakup by Application

  • 6.1 Combined Heat and Power (CHP)
    • 6.1.1 Market Trends
    • 6.1.2 Market Forecast
  • 6.2 Standby Power
    • 6.2.1 Market Trends
    • 6.2.2 Market Forecast

7 Market Breakup by Power Rating

  • 7.1 12 kW - 50 kW
    • 7.1.1 Market Trends
    • 7.1.2 Market Forecast
  • 7.2 50 kW - 250 kW
    • 7.2.1 Market Trends
    • 7.2.2 Market Forecast
  • 7.3 250 kW - 500 kW
    • 7.3.1 Market Trends
    • 7.3.2 Market Forecast

8 Market Breakup by End-User

  • 8.1 Residential
    • 8.1.1 Market Trends
    • 8.1.2 Market Forecast
  • 8.2 Commercial
    • 8.2.1 Market Trends
    • 8.2.2 Market Forecast
  • 8.3 Industrial
    • 8.3.1 Market Trends
    • 8.3.2 Market Forecast

9 Market Breakup by Region

  • 9.1 North America
    • 9.1.1 United States
      • 9.1.1.1 Market Trends
      • 9.1.1.2 Market Forecast
    • 9.1.2 Canada
      • 9.1.2.1 Market Trends
      • 9.1.2.2 Market Forecast
  • 9.2 Asia Pacific
    • 9.2.1 China
      • 9.2.1.1 Market Trends
      • 9.2.1.2 Market Forecast
    • 9.2.2 Japan
      • 9.2.2.1 Market Trends
      • 9.2.2.2 Market Forecast
    • 9.2.3 India
      • 9.2.3.1 Market Trends
      • 9.2.3.2 Market Forecast
    • 9.2.4 South Korea
      • 9.2.4.1 Market Trends
      • 9.2.4.2 Market Forecast
    • 9.2.5 Australia
      • 9.2.5.1 Market Trends
      • 9.2.5.2 Market Forecast
    • 9.2.6 Indonesia
      • 9.2.6.1 Market Trends
      • 9.2.6.2 Market Forecast
    • 9.2.7 Others
      • 9.2.7.1 Market Trends
      • 9.2.7.2 Market Forecast
  • 9.3 Europe
    • 9.3.1 Germany
      • 9.3.1.1 Market Trends
      • 9.3.1.2 Market Forecast
    • 9.3.2 France
      • 9.3.2.1 Market Trends
      • 9.3.2.2 Market Forecast
    • 9.3.3 United Kingdom
      • 9.3.3.1 Market Trends
      • 9.3.3.2 Market Forecast
    • 9.3.4 Italy
      • 9.3.4.1 Market Trends
      • 9.3.4.2 Market Forecast
    • 9.3.5 Spain
      • 9.3.5.1 Market Trends
      • 9.3.5.2 Market Forecast
    • 9.3.6 Russia
      • 9.3.6.1 Market Trends
      • 9.3.6.2 Market Forecast
    • 9.3.7 Others
      • 9.3.7.1 Market Trends
      • 9.3.7.2 Market Forecast
  • 9.4 Latin America
    • 9.4.1 Brazil
      • 9.4.1.1 Market Trends
      • 9.4.1.2 Market Forecast
    • 9.4.2 Mexico
      • 9.4.2.1 Market Trends
      • 9.4.2.2 Market Forecast
    • 9.4.3 Others
      • 9.4.3.1 Market Trends
      • 9.4.3.2 Market Forecast
  • 9.5 Middle East and Africa
    • 9.5.1 Market Trends
    • 9.5.2 Market Breakup by Country
    • 9.5.3 Market Forecast

10 SWOT Analysis

  • 10.1 Overview
  • 10.2 Strengths
  • 10.3 Weaknesses
  • 10.4 Opportunities
  • 10.5 Threats

11 Value Chain Analysis

12 Porters Five Forces Analysis

  • 12.1 Overview
  • 12.2 Bargaining Power of Buyers
  • 12.3 Bargaining Power of Suppliers
  • 12.4 Degree of Competition
  • 12.5 Threat of New Entrants
  • 12.6 Threat of Substitutes

13 Price Indicators

14 Competitive Landscape

  • 14.1 Market Structure
  • 14.2 Key Players
  • 14.3 Profiles of Key Players
    • 14.3.1 Ansaldo Energia SPA
      • 14.3.1.1 Company Overview
      • 14.3.1.2 Product Portfolio
      • 14.3.1.3 Financials
      • 14.3.1.4 SWOT Analysis
    • 14.3.2 Bladon Jets
      • 14.3.2.1 Company Overview
      • 14.3.2.2 Product Portfolio
      • 14.3.2.3 Financials
    • 14.3.3 Capstone Turbine Corporation
      • 14.3.3.1 Company Overview
      • 14.3.3.2 Product Portfolio
      • 14.3.3.3 Financials
      • 14.3.3.4 SWOT Analysis
    • 14.3.4 FlexEnergy Inc.
      • 14.3.4.1 Company Overview
      • 14.3.4.2 Product Portfolio
    • 14.3.5 Brayton Energy, LLC
      • 14.3.5.1 Company Overview
      • 14.3.5.2 Product Portfolio
    • 14.3.6 Toyota Motor Corporation
      • 14.3.6.1 Company Overview
      • 14.3.6.2 Product Portfolio
      • 14.3.6.3 Financials
      • 14.3.6.4 SWOT Analysis
    • 14.3.7 Micro Turbine Technology B.V.
      • 14.3.7.1 Company Overview
      • 14.3.7.2 Product Portfolio
      • 14.3.7.3 Financials
    • 14.3.8 ICR Turbine Engine Corporation
      • 14.3.8.1 Company Overview
      • 14.3.8.2 Product Portfolio
    • 14.3.9 Calnetix Technologies
      • 14.3.9.1 Company Overview
      • 14.3.9.2 Product Portfolio