北米の有機ランキンサイクル(ORC)廃熱発電市場、規模(小規模、中規模、大規模)、容量(1000kW未満、1001~4000kW、4001~7000kW、7000kW以上)、モデル(定常、動的)、アプリケーション(ICEまたはガスタービン、廃棄物発電、金属生産、セメントおよび石灰産業、ガラス産業、石油精製、化学産業、埋立地ICE、その他)別 – 2029年までの業界動向と予測。
北米有機ランキンサイクル(ORC)廃熱発電市場の分析と規模
有機ランキンサイクル (ORC) 廃熱発電の役割は、液体またはガスの熱を変換して、カーボン ニュートラルな電力を効率的に生成することです。熱は地熱源または産業または商業廃熱から生成されます。有機ランキンサイクル (ORC) 廃熱発電は、企業が需要の増加に対応するためにより多くの電力を生産するのに役立ちます。有機ランキンサイクル (ORC) 技術の採用が増えると、発電に使用される燃料が削減され、さまざまな大規模企業がこれらの技術を使用して廃熱回収から電力を生成しています。
Data Bridge Market Research の分析によると、北米の有機ランキンサイクル (ORC) 廃熱発電市場は、予測期間中に 9.2% の CAGR で成長し、2029 年までに 1,379,245.87 千米ドルに達すると予想されています。有機ランキンサイクル (ORC) 廃熱発電市場レポートでは、価格分析、特許分析、技術進歩についても包括的に取り上げています。
|
レポートメトリック |
詳細 |
|
予測期間 |
2022年から2029年 |
|
基準年 |
2021 |
|
歴史的な年 |
2020 (2019 - 2015 にカスタマイズ可能) |
|
定量単位 |
収益は1000米ドル、価格は米ドル |
|
対象セグメント |
サイズ (小、中、大)、容量 (1000 kW 未満、1001 ~ 4000 kW、4001 ~ 7000 kW、7000 kW 以上)、モデル (定常、動的)、用途 (ICE またはガスタービン、廃棄物エネルギー、金属生産、セメントおよび石灰産業、ガラス産業、石油精製、化学産業、埋立地 ICE、その他) 別。 |
|
対象国 |
北米では米国、カナダ、メキシコ。 |
|
対象となる市場プレーヤー |
三菱重工業株式会社、Kaishan USA、Strebl Energy Pte Ltd、ORCAN ENERGY AG、ALFA LAVAL、Fujian Snowman Co., Ltd.、Ormat、Rank、TMEIC、Triogen、ABB、Siemens Energy (Siemens AG)、Dürr Group、ElectraTherm Inc. (BITZER Group)、Enerbasque、Enertime、Enogia、EXERGY、CLIMEON、INTEC Engineering GmbH、Zuccato Energia srl.、Opel Energy Systems Pvt. Ltd.、Corycos Group、CTMI - Steam Turbines、BorgWarner Inc. |
市場の定義
有機ランキンサイクル (ORC) システムは、80 ~ 350 °C の低温から中温の熱源からの発電や、あらゆる温度での小規模から中規模の用途に使用されます。この技術により、本来は無駄になる低品位の熱を有効活用できます。有機ランキンサイクル発電所の動作原理は、発電に最も広く使用されているプロセスであるクラウジウス ランキンサイクルに似ています。
The main difference is using organic substances instead of water (steam) as a working fluid. The organic working fluid has a lower boiling point and a higher vapor pressure than water and is, therefore, able to use low-temperature heat sources to produce electricity. The organic fluid is chosen to best fit the heat source according to their differing thermodynamic properties, thus obtaining higher efficiencies of both cycle and expander.
North America Organic Rankine Cycle (ORC) Waste Heat to Power Market Dynamics
This section deals with understanding the market drivers, advantages, opportunities, restraints, and challenges. All of this is discussed in detail as below:
Drivers
- Upsurge in the reduction of usage of primary energy in industrial operations
Waste heat to power is one of the adoptable renewable sources to generate electricity. This technique is found to be the most efficient resource to generate power as it helps to reduce the usage of energy or fuels for industrial processes, and the waste heat generated is used to generate emission-free electricity, which is further used in the normal industrial process or sold to the grid for distribution.
The waste heat generated is considered a by-product in most industries, such as steel paper manufacturing, refineries, chemical, and general manufacturing, as the waste heat is produced in industrial operations. Thus, the energy or the cost involved in running the main industrial operation will also generate waste heat that can be dumped into the environment.
- Increased focus on improving the power plant efficiency
The world's electricity generation is majorly dependent on the fossil fuel resources such as coal, natural gas, and oil. The number of installed fossil-fired power generation plants has increased in North America, and the development of such power plants is trending across the globe. However, waste heat is discharged in a power plant and can be dumped in the environment. How recovering the waste heat is the main approach to improve thermal efficiencies further and reduce greenhouse gas emissions for fossil-fired power plants.
Moreover, it is found that adopting technologies to recover waste heat is gaining importance to improve power plant efficiency. Thus, a waste heat ORC system is applied, based on a closed loop thermodynamic cycle for generating electricity and thermal power, which is suitable for plant operations. This system has been found to support various power plant functions such as economizer, heat pump, rotary heat exchanger, regenerator, and many others. This will support the functioning of the power plant and improves its efficiency.
Opportunities
- Rapid industrialization and climate change concerns
Industrialization is a process of adopting an economy based on manufacturing. This step involves many changes that help the society's economy grow and prosper. Industrialization does not seem to have a sudden change, but it takes a gradual change that happens over a period. Thus, indirectly there will be a large number of fossil fuels, which in turn generate the climate.
The cause of climate change has been a serious issue that has been changing with the rapid increase in industrialization. However, industrialization is the route to economic development, but climate change is one of the major concerns that must be controlled. This will lead to adopting sustainable and efficient technologies in the industrial process, including the WHP system. The adoption of such technologies with the increase in industrialization along with the climate change concerns will help to protect the environment.
Restraints/Challenges
- High cost of installation and maintenance
Although waste heat recovery systems have significant advantages, installation costs limit the market growth. The waste heat recovery can be done through various techniques such as steam rankine cycle (SRC), organic rankine cycle (ORC), or kalina cycle. These technologies will cost differently based on the production and industrial sector scale.
Moreover, the total cost to install or adopt the waste heat to power (WHP) systems in any industry includes various factors and equipment such as waste heat recovery equipment, power generation equipment, and power conditioning and interconnection equipment. The total cost would also include the soft costs associated with designing, permitting, and constructing the system. However, the maintenance requirements of the heat recovery boilers and balancing the plant are also included, which can vary according to technology and site conditions.
- Lack of awareness about the technology
The need for waste heat recovery is gaining importance, but knowledge about the awareness, technology, and financial aspects of WHP systems is essential for decision-making. The ultimate goal is to optimize the overall energy efficiency and, thus, maximize the economic and environmental benefits.
However, most industries are adopting the WHP system in industrial operations as most of the industry professionals are unaware of the technical aspects, leading to a misconception, perception, and wrong method implementation, resulting in inefficiency and negative results.
Post COVID-19 Impact on North America Organic Rankine Cycle (ORC) Waste Heat to Power Market
COVID-19 created a negative impact on the organic rankine cycle (ORC) waste heat to power market due to lockdown regulations and rules at manufacturing facilities.
COVID-19パンデミックは、有機ランキンサイクル(ORC)廃熱発電市場にある程度の悪影響を及ぼしました。しかし、エネルギー分野で有機ランキンサイクル(ORC)廃熱発電の採用が増えたことで、パンデミック後の市場の成長に貢献しました。また、COVID-19後に市場が開かれて以来、成長率は高く、この分野では大幅な成長が見込まれています。
メーカーは、COVID-19後の回復に向けてさまざまな戦略的決定を下しています。各社は、有機ランキンサイクル(ORC)廃熱発電に関わる技術を向上させるために、複数の研究開発活動を行っています。これにより、各社は高度な技術を市場に投入します。さらに、リサイクル技術の利用に関する政府の取り組みにより、市場の成長が促進されています。
最近の開発
- 2020年9月、BorgWarner Inc.はPlug and Playと提携しました。この戦略的提携の主な目的は、自動車およびテクノロジー分野の独創的なアイデアを強化し、同分野の能力を新たな高みに引き上げることでした。この提携を通じて、同社は自動車およびテクノロジー分野の市場を拡大しました。
- 2018 年 12 月、Corycos グループは Clean Energy Technologies, Inc. と提携しました。この提携は、バイオガス産業向けの革新的な有機ランキンサイクル (ORC) 熱回収ジェネレーターの開発を目的としています。この提携を通じて、両社は市場と地域での存在感を強化します。
北米有機ランキンサイクル(ORC)廃熱発電市場の範囲
北米の有機ランキンサイクル (ORC) 廃熱発電市場は、規模、容量、モデル、およびアプリケーションに基づいてセグメント化されています。これらのセグメントの成長は、業界のわずかな成長セグメントを分析するのに役立ち、ユーザーに貴重な市場の概要と市場の洞察を提供し、コア市場アプリケーションを特定するための戦略的決定を下すのに役立ちます。
サイズ
- 小さい
- 中くらい
- 大きい
規模に基づいて、北米の有機ランキンサイクル(ORC)廃熱発電市場は、小規模、中規模、大規模に分類されます。
容量
- 1000kW未満
- 1001~4000kW
- 4001~7000kW
- 7000kW以上
容量に基づいて、北米の有機ランキンサイクル (ORC) 廃熱発電市場は、1000 kW 未満、1001 ~ 4000 kW、4001 ~ 7000 kW、7000 kW 超に分類されています。
モデル
- 定常状態
- 動的
このモデルに基づいて、北米の有機ランキンサイクル (ORC) 廃熱発電市場は定常状態と動的状態に分割されています。
応用
- ICEまたはガスタービン
- 廃棄物からエネルギーへ
- 金属生産
- セメント・石灰産業
- ガラス産業
- 石油精製
- 化学産業
- 埋立地ICE
- その他
用途に基づいて、北米の有機ランキンサイクル(ORC)廃熱発電市場は、ICE またはガスタービン、廃棄物発電、金属生産、セメントおよび石灰産業、ガラス産業、石油精製、化学産業、埋立地 ICE などに分類されます。
北米有機ランキンサイクル(ORC)廃熱発電市場地域分析/洞察
北米の有機ランキンサイクル (ORC) 廃熱発電市場が分析され、上記のように国、規模、容量、モデル、アプリケーション別に市場規模の洞察と傾向が提供されます。
有機ランキンサイクル (ORC) 廃熱発電市場レポートの対象国は、米国、カナダ、メキシコです。
廃熱回収による発電の重要性が高まっているため、米国は有機ランキンサイクル(ORC)廃熱発電市場を支配しています。
レポートの国別セクションでは、市場の現在および将来の傾向に影響を与える個別の市場影響要因と市場規制の変更も提供しています。下流および上流のバリュー チェーン分析、技術動向、ポーターの 5 つの力の分析、ケース スタディなどのデータ ポイントは、個々の国の市場シナリオを予測するために使用される指標の一部です。また、国別データの予測分析を提供する際には、北米ブランドの存在と可用性、および地元および国内ブランドとの競争が激しいか少ないために直面する課題、国内関税の影響、貿易ルートも考慮されます。
競争環境と北米の有機ランキンサイクル(ORC)廃熱発電市場シェア分析
北米の有機ランキンサイクル (ORC) 廃熱発電市場の競争状況では、競合他社の詳細が提供されます。含まれる詳細には、会社概要、会社の財務状況、収益、市場の可能性、研究開発への投資、新しい市場への取り組み、北米でのプレゼンス、生産拠点と施設、生産能力、会社の強みと弱み、製品の発売、製品の幅と広さ、アプリケーションの優位性などがあります。提供されている上記のデータ ポイントは、有機ランキンサイクル (ORC) 廃熱発電市場に関連する会社の焦点にのみ関連しています。
北米の有機ランキンサイクル(ORC)廃熱発電市場で活動している主要企業には、三菱重工業株式会社、Kaishan USA、Strebl Energy Pte Ltd、ORCAN ENERGY AG、ALFA LAVAL、Fujian Snowman Co., Ltd.、Ormat、Rank、TMEIC、Triogen、ABB、Siemens Energy(Siemens AG)、Dürr Group、ElectraTherm Inc.(BITZER Group)、Enerbasque、Enertime、Enogia、EXERGY、CLIMEON、INTEC Engineering GmbH、Zuccato Energia srl.、Opel Energy Systems Pvt. Ltd.、Corycos Group、CTMI - Steam Turbines、BorgWarner Inc. などがあります。
SKU-
世界初のマーケットインテリジェンスクラウドに関するレポートにオンラインでアクセスする
- インタラクティブなデータ分析ダッシュボード
- 成長の可能性が高い機会のための企業分析ダッシュボード
- カスタマイズとクエリのためのリサーチアナリストアクセス
- インタラクティブなダッシュボードによる競合分析
- 最新ニュース、更新情報、トレンド分析
- 包括的な競合追跡のためのベンチマーク分析のパワーを活用
目次
1 INTRODUCTION
1.1 OBJECTIVES OF THE STUDY
1.2 MARKET DEFINITION
1.3 OVERVIEW OF NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET
1.4 CURRENCY AND PRICING
1.5 LIMITATIONS
1.6 MARKETS COVERED
2 MARKET SEGMENTATION
2.1 MARKETS COVERED
2.2 GEOGRAPHICAL SCOPE
2.3 YEARS CONSIDERED FOR THE STUDY
2.4 DBMR TRIPOD DATA VALIDATION MODEL
2.5 PRIMARY INTERVIEWS WITH KEY OPINION LEADERS
2.6 DBMR MARKET POSITION GRID
2.7 VENDOR SHARE ANALYSIS
2.8 MARKET APPLICATION COVERAGE GRID
2.9 MULTIVARIATE MODELING
2.1 SIZE TIMELINE CURVE
2.11 SECONDARY SOURCES
2.12 ASSUMPTIONS
3 EXECUTIVE SUMMARY
4 PREMIUM INSIGHTS
5 MARKET OVERVIEW
5.1 DRIVERS
5.1.1 RISE IN IMPORTANCE FOR GENERATING POWER FROM WASTE HEAT RECOVERY
5.1.2 UPSURGE IN THE REDUCTION OF USAGE OF PRIMARY ENERGY IN INDUSTRIAL OPERATIONS
5.1.3 INCREASED FOCUS ON IMPROVING THE POWER PLANT EFFICIENCY
5.1.4 RISING STRINGENT EMISSION NORMS
5.2 RESTRAINTS
5.2.1 HIGH COST OF INSTALLATION AND MAINTENANCE
5.2.2 SUPPLY DEFICIT OF RAW MATERIALS
5.3 OPPORTUNITIES
5.3.1 RAPID INDUSTRIALIZATION AND CLIMATE CHANGE CONCERNS
5.3.2 RISE IN LARGE-SCALE ORC-BASED GEOTHERMAL POWER PROJECTS
5.3.3 GOVERNMENT INCENTIVES TO PROMOTE GREEN ENERGY CHANGES
5.3.4 INCREASE IN THE ADOPTION OF SUSTAINABLE TECHNOLOGIES ACROSS INDUSTRIES
5.4 CHALLENGES
5.4.1 LACK OF AWARENESS ABOUT THE TECHNOLOGY
6 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE
6.1 OVERVIEW
6.2 MEDIUM
6.3 SMALL
6.4 LARGE
7 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY CAPACITY
7.1 OVERVIEW
7.2 LESS THAN 1000 KW
7.3 1001-4000 KW
7.4 4001 - 7000 KW
7.5 MORE THAN 7000 KW
8 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY MODEL
8.1 OVERVIEW
8.2 STEADY-STATE
8.3 DYNAMIC
9 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY APPLICATION
9.1 OVERVIEW
9.2 ICE OR GAS TURBINE
9.2.1 MEDIUM
9.2.2 SMALL
9.2.3 LARGE
9.3 WASTE TO ENERGY
9.3.1 MEDIUM
9.3.2 SMALL
9.3.3 LARGE
9.4 METAL PRODUCTION
9.4.1 MEDIUM
9.4.2 SMALL
9.4.3 LARGE
9.5 CEMENT AND LIME INDUSTRY
9.5.1 MEDIUM
9.5.2 SMALL
9.5.3 LARGE
9.6 GLASS INDUSTRY
9.6.1 MEDIUM
9.6.2 SMALL
9.6.3 LARGE
9.7 PETROLEUM REFINING
9.7.1 MEDIUM
9.7.2 SMALL
9.7.3 LARGE
9.8 CHEMICAL INDUSTRY
9.8.1 MEDIUM
9.8.2 SMALL
9.8.3 LARGE
9.9 LANDFILL ICE
9.9.1 MEDIUM
9.9.2 SMALL
9.9.3 LARGE
9.1 OTHERS
10 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION
10.1 NORTH AMERICA
10.1.1 U.S.
10.1.2 CANADA
10.1.3 MEXICO
11 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: COMPANY LANDSCAPE
11.1 COMPANY SHARE ANALYSIS: NORTH AMERICA
12 SWOT ANALYSIS
13 COMPANY PROFILE
13.1 ORMAT
13.1.1 COMPANY SNAPSHOT
13.1.2 REVENUE ANALYSIS
13.1.3 COMPANY SHARE ANALYSIS
13.1.4 PRODUCTS PORTFOLIO
13.1.5 RECENT DEVELOPMENTS
13.2 SIEMENS ENERGY
13.2.1 COMPANY SNAPSHOT
13.2.2 REVENUE ANALYSIS
13.2.3 COMPANY SHARE ANALYSIS
13.2.4 SOLUTION PORTFOLIO
13.2.5 RECENT DEVELOPMENTS
13.3 BORGWARNER INC.
13.3.1 COMPANY SNAPSHOT
13.3.2 REVENUE ANALYSIS
13.3.3 COMPANY SHARE ANALYSIS
13.3.4 PRODUCTS PORTFOLIO
13.3.5 RECENT DEVELOPMENTS
13.4 ALFA LAVAL
13.4.1 COMPANY SNAPSHOT
13.4.2 REVENUE ANALYSIS
13.4.3 COMPANY SHARE ANALYSIS
13.4.4 PRODUCTS PORTFOLIO
13.4.5 RECENT DEVELOPMENTS
13.5 MITSUBISHI HEAVY INDUSTRIES, LTD
13.5.1 COMPANY SNAPSHOT
13.5.2 REVENUE ANALYSIS
13.5.3 COMPANY SHARE ANALYSIS
13.5.4 PRODUCTS PORTFOLIO
13.5.5 RECENT DEVELOPMENT
13.6 ABB
13.6.1 COMPANY SNAPSHOT
13.6.2 REVENUE ANALYSIS
13.6.3 PRODUCTS PORTFOLIO
13.6.4 RECENT DEVELOPMENTS
13.7 CLIMEON
13.7.1 COMPANY SNAPSHOT
13.7.2 REVENUE ANALYSIS
13.7.3 PRODUCTS PORTFOLIO
13.7.4 RECENT DEVELOPMENTS
13.8 CORYCOS GROUP
13.8.1 COMPANY SNAPSHOT
13.8.2 PRODUCTS PORTFOLIO
13.8.3 RECENT DEVELOPMENTS
13.9 CTMI - STEAM TURBINES
13.9.1 COMPANY SNAPSHOT
13.9.2 PRODUCTS PORTFOLIO
13.9.3 RECENT DEVELOPMENTS
13.1 DÜRR GROUP
13.10.1 COMPANY SNAPSHOT
13.10.2 REVENUE ANALYSIS
13.10.3 PRODUCTS PORTFOLIO
13.10.4 RECENT DEVELOPMENT
13.11 ENERBASQUE
13.11.1 COMPANY SNAPSHOT
13.11.2 PRODUCT PORTFOLIO
13.11.3 RECENT DEVELOPMENTS
13.12 ENERTIME
13.12.1 COMPANY SNAPSHOT
13.12.2 PRODUCTS PORTFOLIO
13.12.3 RECENT DEVELOPMENT
13.13 ENOGIA
13.13.1 COMPANY SNAPSHOT
13.13.2 PRODUCTS PORTFOLIO
13.13.3 RECENT DEVELOPMENT
13.14 EXERGY INTERNATIONAL SRL
13.14.1 COMPANY SNAPSHOT
13.14.2 PRODUCTS PORTFOLIO
13.14.3 RECENT DEVELOPMENT
13.15 ELECTRATHERM (ACQUIRED BY BITZER)
13.15.1 COMPANY SNAPSHOT
13.15.2 PRODUCT PORTFOLIO
13.15.3 RECENT DEVELOPMENTS
13.16 INTEC ENGINEERING GMBH
13.16.1 COMPANY SNAPSHOT
13.16.2 PRODUCT PORTFOLIO
13.16.3 RECENT DEVELOPMENTS
13.17 KAISHAN USA
13.17.1 COMPANY SNAPSHOT
13.17.2 PRODUCTS PORTFOLIO
13.17.3 RECENT DEVELOPMENT
13.18 OPEL ENERGY SYSTEMS PVT. LTD.
13.18.1 COMPANY SNAPSHOT
13.18.2 PRODUCTS PORTFOLIO
13.18.3 RECENT DEVELOPMENTS
13.19 ORCAN ENERGY AG
13.19.1 COMPANY SNAPSHOT
13.19.2 PRODUCTS PORTFOLIO
13.19.3 RECENT DEVELOPMENT
13.2 RANK ORC, S.L.
13.20.1 COMPANY SNAPSHOT
13.20.2 PRODUCTS PORTFOLIO
13.20.3 RECENT DEVELOPMENT
13.21 STREBL ENERGY PTE LTD
13.21.1 COMPANY SNAPSHOT
13.21.2 PRODUCTS PORTFOLIO
13.21.3 RECENT DEVELOPMENT
13.22 SRMTEC
13.22.1 COMPANY SNAPSHOT
13.22.2 PRODUCT PORTFOLIO
13.22.3 RECENT DEVELOPMENTS
13.23 TMEIC
13.23.1 COMPANY SNAPSHOT
13.23.2 PRODUCTS PORTFOLIO
13.23.3 RECENT DEVELOPMENTS
13.24 TRIOGEN
13.24.1 COMPANY SNAPSHOT
13.24.2 PRODUCT PORTFOLIO
13.24.3 RECENT DEVELOPMENTS
13.25 ZUCCATO ENERGIA SRL.
13.25.1 COMPANY SNAPSHOT
13.25.2 PRODUCTS PORTFOLIO
13.25.3 RECENT DEVELOPMENTS
14 QUESTIONNAIRE
15 RELATED REPORTS
表のリスト
TABLE 1 EXISTING WHP PROJECTS AND POWER GENERATION CAPACITY BY DIFFERENT INDUSTRIES IN THE U.S.
TABLE 2 ENERGY GENERATION POTENTIAL THROUGH WASTE HEAT IN DIFFERENT SECTORS IN INDIA
TABLE 3 WHP COST COMPARISON
TABLE 4 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 5 NORTH AMERICA MEDIUM IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 6 NORTH AMERICA SMALL IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 7 NORTH AMERICA LARGE IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 8 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY CAPACITY, 2020-2029 (USD THOUSAND)
TABLE 9 NORTH AMERICA LESS THAN 1000 KW IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 10 NORTH AMERICA 1001-4000 KW IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 11 NORTH AMERICA 4001-7000 KW IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 12 NORTH AMERICA MORE THAN 7000 KW IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 13 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY MODEL, 2020-2029 (USD THOUSAND)
TABLE 14 NORTH AMERICA STEADY-STATE IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 15 NORTH AMERICA DYNAMIC IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 16 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY APPLICATION, 2020-2029 (USD THOUSAND)
TABLE 17 NORTH AMERICA ICE OR GAS TURBINE IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 18 NORTH AMERICA ICE OR GAS TURBINE IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY TYPE, 2020-2029 (USD THOUSAND)
TABLE 19 NORTH AMERICA WASTE TO ENERGY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 20 NORTH AMERICA WASTE TO ENERGY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY TYPE, 2020-2029 (USD THOUSAND)
TABLE 21 NORTH AMERICA METAL PRODUCTION IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 22 NORTH AMERICA METAL PRODUCTION IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY TYPE, 2020-2029 (USD THOUSAND)
TABLE 23 NORTH AMERICA CEMENT AND LIME INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 24 NORTH AMERICA CEMENT AND LIME INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY TYPE, 2020-2029 (USD THOUSAND)
TABLE 25 NORTH AMERICA GLASS INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 26 NORTH AMERICA GLASS INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY TYPE, 2020-2029 (USD THOUSAND)
TABLE 27 NORTH AMERICA PETROLEUM REFINING IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 28 NORTH AMERICA PETROLEUM REFINING IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY TYPE, 2020-2029 (USD THOUSAND)
TABLE 29 NORTH AMERICA CHEMICAL INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 30 NORTH AMERICA CHEMICAL INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY TYPE, 2020-2029 (USD THOUSAND)
TABLE 31 NORTH AMERICA LANDFILL ICE IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 32 NORTH AMERICA LANDFILL ICE INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY TYPE, 2020-2029 (USD THOUSAND)
TABLE 33 NORTH AMERICA OTHERS IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY REGION, 2020-2029 (USD THOUSAND)
TABLE 34 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY COUNTRY, 2020-2029 (USD THOUSAND)
TABLE 35 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 36 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY CAPACITY, 2020-2029 (USD THOUSAND)
TABLE 37 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY MODEL, 2020-2029 (USD THOUSAND)
TABLE 38 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY APPLICATION, 2020-2029 (USD THOUSAND)
TABLE 39 NORTH AMERICA ICE OR GAS TURBINE IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 40 NORTH AMERICA WASTE TO ENERGY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 41 NORTH AMERICA METAL PRODUCTION IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 42 NORTH AMERICA CEMENT AND LIME INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 43 NORTH AMERICA GLASS INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 44 NORTH AMERICA PETROLEUM REFINING IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 45 NORTH AMERICA CHEMICAL INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 46 NORTH AMERICA LANDFILL ICE IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 47 U.S. ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 48 U.S. ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY CAPACITY, 2020-2029 (USD THOUSAND)
TABLE 49 U.S. ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY MODEL, 2020-2029 (USD THOUSAND)
TABLE 50 U.S. ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY APPLICATION, 2020-2029 (USD THOUSAND)
TABLE 51 U.S. ICE OR GAS TURBINE IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 52 U.S. WASTE TO ENERGY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 53 U.S. METAL PRODUCTION IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 54 U.S. CEMENT AND LIME INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 55 U.S. GLASS INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 56 U.S. PETROLEUM REFINING IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 57 U.S. CHEMICAL INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 58 U.S. LANDFILL ICE IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 59 CANADA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 60 CANADA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY CAPACITY, 2020-2029 (USD THOUSAND)
TABLE 61 CANADA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY MODEL, 2020-2029 (USD THOUSAND)
TABLE 62 CANADA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY APPLICATION, 2020-2029 (USD THOUSAND)
TABLE 63 CANADA ICE OR GAS TURBINE IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 64 CANADA WASTE TO ENERGY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 65 CANADA METAL PRODUCTION IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 66 CANADA CEMENT AND LIME INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 67 CANADA GLASS INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 68 CANADA PETROLEUM REFINING IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 69 CANADA CHEMICAL INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 70 CANADA LANDFILL ICE IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 71 MEXICO ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 72 MEXICO ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY CAPACITY, 2020-2029 (USD THOUSAND)
TABLE 73 MEXICO ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY MODEL, 2020-2029 (USD THOUSAND)
TABLE 74 MEXICO ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY APPLICATION, 2020-2029 (USD THOUSAND)
TABLE 75 MEXICO ICE OR GAS TURBINE IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 76 MEXICO WASTE TO ENERGY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 77 MEXICO METAL PRODUCTION IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 78 MEXICO CEMENT AND LIME INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 79 MEXICO GLASS INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 80 MEXICO PETROLEUM REFINING IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 81 MEXICO CHEMICAL INDUSTRY IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
TABLE 82 MEXICO LANDFILL ICE IN ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET, BY SIZE, 2020-2029 (USD THOUSAND)
図表一覧
FIGURE 1 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: SEGMENTATION
FIGURE 2 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: DATA TRIANGULATION
FIGURE 3 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: DROC ANALYSIS
FIGURE 4 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: NORTH AMERICA VS REGIONAL MARKET ANALYSIS
FIGURE 5 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: COMPANY RESEARCH ANALYSIS
FIGURE 6 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: INTERVIEW DEMOGRAPHICS
FIGURE 7 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: DBMR MARKET POSITION GRID
FIGURE 8 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: VENDOR SHARE ANALYSIS
FIGURE 9 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: MARKET APPLICATION COVERAGE GRID
FIGURE 10 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: MULTIVARIATE MODELING
FIGURE 11 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: SIZE TIMELINE CURVE
FIGURE 12 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: SEGMENTATION
FIGURE 13 RISE IN IMPORTANCE FOR GENERATING POWER FROM WASTE HEAT RECOVERY IS EXPECTED TO DRIVE THE NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET IN THE FORECAST PERIOD 2022-2029
FIGURE 14 MEDIUM SEGMENT IS EXPECTED TO ACCOUNT FOR THE LARGEST SHARE OF THE NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET IN 2022 & 2029
FIGURE 15 DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES OF NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET
FIGURE 16 REAL GROSS DOMESTIC PRODUCT (GDP) GROWTH RATE OF INDIA
FIGURE 17 GEOTHERMAL POWER GENERATION IN THE NET ZERO SCENARIO, 2000-2030
FIGURE 18 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET : BY SIZE, 2021
FIGURE 19 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET : BY CAPACITY, 2021
FIGURE 20 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET : BY MODEL, 2021
FIGURE 21 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: BY APPLICATION, 2021
FIGURE 22 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: SNAPSHOT (2021)
FIGURE 23 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: BY COUNTRY (2021)
FIGURE 24 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: BY COUNTRY (2022 & 2029)
FIGURE 25 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: BY COUNTRY (2021 & 2029)
FIGURE 26 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: BY SIZE (2022-2029)
FIGURE 27 NORTH AMERICA ORGANIC RANKINE CYCLE (ORC) WASTE HEAT TO POWER MARKET: COMPANY SHARE 2021 (%)
調査方法
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