電力系統模擬器市場:現狀分析與預測(2024年～2032年)

Power System Simulator Market: Current Analysis and Forecast (2024-2032)

出版日期: 2024年07月01日 | 出版商:

UnivDatos Market Insights Pvt Ltd | 英文 138 Pages | 商品交期: 最快1-2個工作天內

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簡介目錄

電力系統模擬器市場預計在預測期內（2024-2032年）將出現約7.1%的顯著成長率。值得注意的是，隨著新形成的電力系統變得更加複雜和動態，電力系統模擬器的使用正在迅速擴大。隨著越來越多的電力公司轉向風能和太陽能等可變的再生能源，需要模擬器來管理電網穩定性。隨著高效新技術不斷推動電網發展，複雜多樣的通訊和控制功能正在推動有效模擬模型的發展。例如，2020年8月，電力系統模擬器F6150sv成功通過了基本到最複雜的測試。 F6150sv 可以處理從基本到複雜的所有測試，並且具有市場上所有測試裝置中最高的輸出電流。基於 IEC 61850 的系統應用於流程和站匯流排級別，具有採樣值和 GOOSE 訊息。對網路攻擊和基礎設施陳舊地區電網現代化的擔憂也促使工具支出增加。旨在增加再生能源使用和提高電網可靠性的政府政策和政策也在推動電力系統模擬器的使用，這對於規劃未來的能源需求非常重要。

依模組，市場分為潮流、諧波、短路、設備調整選擇、弧閃等。 2023 年的市場將由潮流部分主導。主要驅動因素之一是由於全球電力消耗的增加，對可靠和高效電力供應的需求不斷增加。這種需求的激增需要先進的配電規劃和管理工具，並正在推動潮流系統的採用。此外，再生能源併入電網帶來了潮流管理的複雜性，進一步增加了對先進模擬工具的需求。提供更準確和即時分析的模擬軟體技術進步也在市場成長中發揮重要作用。此外，對智慧電網技術和公用事業數位化的日益重視也推動了先進潮流系統的採用。

根據組件，市場分為硬體、軟體和服務。軟體領域正以最高的複合年增長率成長，並佔據了相當大的市場佔有率。一個關鍵驅動因素是現代電網日益複雜，這需要先進的軟體工具來進行有效的管理和最佳化。隨著再生能源日益一體化，對能夠應對這些資源的可變性和不可預測性的軟體的需求不斷增長。此外，人工智慧和機器學習等技術進步正在被納入模擬軟體中，以增強其功能並使其對公用事業公司具有吸引力。旨在實現電網現代化和實施智慧電網技術的政府法規和措施進一步推動了對複雜軟體解決方案的需求。

市場依最終用戶細分為電力、工業等。 2023年，由於已開發地區和新興市場對可靠不間斷電源的需求不斷增加，電力領域佔據市場主導地位。因此，需要先進的模擬工具來進行有效的電力系統規劃和運作。將風能和太陽能等再生能源併入電網會增加複雜性和可變性，需要先進的模擬器來確保穩定性和效率。此外，監管壓力和政府減少碳排放和促進永續能源利用的措施正迫使公用事業公司採用更先進的模擬技術。模擬軟體的技術進步（例如即時數據分析和預測功能）提高了電力系統模擬的準確性和可靠性，使其對公用事業至關重要。

為了加深對電力系統模擬器市場介紹的了解，它根據其在印度、澳洲、世界其他地區（亞太地區）和世界其他地區的全球分佈對市場進行了分析。北美在電力系統模擬器市場中佔據重要佔有率，預計在預測期內將保持穩定的成長速度。在技??術、監管和市場驅動因素的推動下，北美電力系統模擬器市場正在經歷顯著成長。主要訊息是，風能和太陽能等再生能源越來越多地融入電網，需要先進的模擬工具來管理可變性並確保電網穩定性。旨在減少碳排放和促進永續能源實踐的監管要求進一步推動了電力系統模擬器的採用。此外，該地區正在增加對模擬技術的投資，重點關注老化電力基礎設施的現代化以及提高電網抵禦極端天氣事件和網路威脅的能力。即時數據分析、人工智慧和機器學習等技術進步正在增強電力系統模擬器的功能，使其成為高效電網管理的關鍵。 2020 年，美國能源部宣布對先進電網建模和模擬工具進行重大投資，作為其電網現代化計畫的一部分。該投資旨在支持尖端技術的開發和部署，以提高國家電網的可靠性、彈性和安全性。諸如此類的舉措凸顯了電力系統模擬器在實現能源目標和應對電力產業新課題、推動北美市場成長的關鍵作用。

參與市場的主要公司包括ABB、施耐德電機、伊頓、西門子、通用電氣公司、Operation Technology, Inc.、Aspen Technology Inc.、The MathWorks, Inc.、OPAL-RT TECHNOLOGIES，範例包括PowerWorld Corporation 。

Power system simulation is a mature application for modeling, analyzing, and optimizing the performance of electrical power systems. Such simulators are critical to guaranteeing power grids' performance, reliability, and robustness as they continuously add more renewable energy resources and transform them to become much brighter. They allow utilities and grid operators to model different scenarios, predict potential problems that may arise in specific conditions, and help build efficient grid management and optimization methods. For instance: In 2023 the New York Independent System Operator (NYISO) used power system simulators to integrate significant growth in renewable energy capacity while maintaining grid stability and reliability. This instance further illustrates the importance of power system simulators and their role in enabling a smoother shift toward sustainable, stable energy infrastructure.

The power system simulator market is expected to grow at a significant rate of around 7.1% during the forecast period (2024-2032). As newly shaped power systems are becoming more complex and dynamic, it is noteworthy that the use of power system simulators is expanding rapidly. More utility systems are turning to variable renewable energy sources such as wind and solar power and hence need simulators to manage the grid's stability. As new and efficient technologies continue to develop the grid, complex and diverse communication and control functions propel the development of effective simulation models. For example, in August 2020, the F6150sv, which is a power system simulator, succeeded in performing the basic tests to the most complex ones. The one has the highest output current of any test set on the market- all integrated within one unit. It applies IEC 61850 - based systems at the process-bus and station-bus levels with sampled values and GOOSE messages. Fears of cyber-attacks and the modernization of the grid in regions with old infrastructure have also led to higher spending on the tools. This, coupled with other government policies and regulations that aim at increasing the use of renewable energy and the grid's reliability, also supplements the use of power system simulators, which are crucial in planning future energy needs.

Based on the module, the market is segmented into load flow, harmonics, short circuit, device coordination selectivity, arc flash, and others. The load flow segment dominated the market in 2023. One of the primary drivers is the increasing demand for reliable and efficient power supply due to rising electricity consumption globally. This surge in demand necessitates advanced tools for planning and managing power distribution, leading to a higher adoption of load flow systems. Additionally, integrating renewable energy sources into the power grid creates complexities in power flow management, further boosting the need for sophisticated simulation tools. Technological advancements in simulation software, providing more accurate and real-time analysis, also play a significant role in market growth. Furthermore, the growing emphasis on smart grid technologies and the digitalization of power utilities encourage the adoption of advanced load flow systems.

Based on the components, the market is segmented into hardware, software, and services. The software segment is growing with the highest CAGR and holds a considerable share of the market. A primary driver is the escalating complexity of modern power grids, which requires advanced software tools for efficient management and optimization. As the integration of renewable energy sources increases, there is a growing need for software that can handle the variability and unpredictability of these resources. Additionally, advancements in technology, such as AI and machine learning, are being incorporated into simulation software, enhancing their capabilities, and making them more attractive to power utilities. Government regulations and initiatives aimed at grid modernization and implementing smart grid technologies further propel the demand for sophisticated software solutions.

Based on the end-users, the market is segmented into power, industry, and others. The power segment dominated the market in 2023 owing to the rising demand for reliable and uninterrupted power supply in developed and developing regions. This necessitates advanced simulation tools for effective power system planning and operation. Integrating renewable energy sources, such as wind and solar, into the power grid adds complexity and variability, requiring sophisticated simulators to ensure stability and efficiency. Additionally, regulatory pressures and government initiatives to reduce carbon emissions and promote sustainable energy practices are compelling power utilities to adopt more advanced simulation technologies. Technological advancements in simulation software, including real-time data analysis and predictive capabilities, enhance the accuracy and reliability of power system simulations, making them indispensable for utilities.

For a better understanding of the market adoption of power system simulator, the market is analyzed based on its worldwide presence in countries such as North America (U.S., Canada, and the Rest of North America), Europe (Germany, France, U.K., Spain, Italy, Rest of Europe), Asia-Pacific (China, Japan, India, Australia, and, Rest of Asia-Pacific), Rest of World. North America holds a significant share of the power system simulator market and is anticipated to maintain a steady growth rate over the forecast period. The power system simulator market in North America is experiencing significant growth due to technological, regulatory, and market-driven factors. The increasing integration of renewable energy sources, such as wind and solar, into the power grid is a primary driver, necessitating advanced simulation tools to manage variability and ensure grid stability. Regulatory mandates aimed at reducing carbon emissions and promoting sustainable energy practices further propel the adoption of power system simulators. Additionally, the region's focus on modernizing aging power infrastructure and enhancing grid resilience against extreme weather events and cyber threats has increased investment in simulation technologies. Technological advancements, including real-time data analytics, AI, and machine learning, enhance the capabilities of power system simulators, making them indispensable for efficient grid management. An instance highlighting this growth occurred in 2020 when the U.S. Department of Energy announced a significant investment in advanced grid modeling and simulation tools as part of its Grid Modernization Initiative. This investment aimed to support developing and deploying cutting-edge technologies to improve the nation's power grid's reliability, resilience, and security. Such initiatives underscore the critical role of power system simulators in achieving energy goals and addressing emerging challenges in the power sector, thereby driving the market's growth in North America.

Some of the major players operating in the market include ABB, Schneider Electric, Eaton, Siemens, General Electric Company, Operation Technology, Inc., Aspen Technology Inc, The MathWorks, Inc, OPAL-RT TECHNOLOGIES, PowerWorld Corporation.

1.MARKET INTRODUCTION

1.1. Market Definitions
1.2. Main Objective
1.3. Stakeholders
1.4. Limitation

2.RESEARCH METHODOLOGY OR ASSUMPTION

2.1. Research Process of the Global Power System Simulator Market
2.2. Research Methodology of the Global Power System Simulator Market
2.3. Respondent Profile

3.EXECUTIVE SUMMARY

3.1. Industry Synopsis
3.2. Segmental Outlook
- 3.2.1. Market Growth Intensity
3.3. Regional Outlook

4.MARKET DYNAMICS

4.1. Drivers
4.2. Opportunity
4.3. Restraints
4.4. Trends
4.5. PESTEL Analysis
4.6. Demand Side Analysis
4.7. Supply Side Analysis
- 4.7.1. Merger & Acquisition
- 4.7.2. Investment Scenario
- 4.7.3. Industry Insights: Leading Startups and Their Unique Strategies

5.PRICING ANALYSIS

5.1. Regional Pricing Analysis
5.2. Price Influencing Factors

6.GLOBAL POWER SYSTEM SIMULATOR MARKET REVENUE (USD BN), 2022-2032F

7.MARKET INSIGHTS BY MODULE

7.1. Load Flow
7.2. Harmonics
7.3. Short Circuit
7.4. Device Coordination Selectivity
7.5. Arc Flash
7.6. Others

8.MARKET INSIGHTS BY COMPONENT

8.1. Hardware
8.2. Software
8.3. Services

9.MARKET INSIGHTS BY END-USERS

9.1. Power
9.2. Industrial
9.3. Others

10.MARKET INSIGHTS BY REGION

10.1. North America
- 10.1.1. U.S.
- 10.1.2. Canada
- 10.1.3. Rest of North America
10.2. Europe
- 10.2.1. Germany
- 10.2.2. U.K.
- 10.2.3. France
- 10.2.4. Italy
- 10.2.5. Spain
- 10.2.6. Rest of Europe
10.3. Asia-Pacific
- 10.3.1. China
- 10.3.2. Japan
- 10.3.3. India
- 10.3.4. Australia
- 10.3.5. Rest of Asia-Pacific
10.4. Rest of World

11.VALUE CHAIN ANALYSIS

11.1. Marginal Analysis
11.2. List of Market Participants

12.COMPETITIVE LANDSCAPE

12.1. Competition Dashboard
12.2. Competitor Market Positioning Analysis
12.3. Porter Five Forces Analysis

13.COMPANY PROFILED

13.1. ABB
- 13.1.1. Company Overview
- 13.1.2. Key Financials
- 13.1.3. SWOT Analysis
- 13.1.4. Product Portfolio
- 13.1.5. Recent Developments
13.2. Schneider Electric
13.3. Eaton
13.4. Siemens
13.5. General Electric Company
13.6. Operation Technology, Inc
13.7. Aspen Technology Inc
13.8. The MathWorks, Inc
13.9. OPAL-RT TECHNOLOGIES
13.10. PowerWorld Corporation