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全球智慧電網網路安全市場 - 2025-2032

Global Smart Grid Cybersecurity Market - 2025-2032
出版日期: | 出版商: DataM Intelligence | 英文 180 Pages | 商品交期: 最快1-2個工作天內

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簡介目錄

2024 年全球智慧電網網路安全市場規模達到 79.9 億美元,預計到 2032 年將達到 190.6 億美元,在 2025-2032 年預測期內的複合年成長率為 11.48%。

智慧電網的日益普及歸功於世界各國政府實施的有利法規及其在民眾中推廣節能的努力。此外,將這些整合組件納入系統,並更加重視減少停電,智慧電網工程可以將傳統電網轉變為更可靠、更有彈性的系統。

由於電網數位化以及針對關鍵國家資產的攻擊事件不斷增加,網路安全已成為電力公司關注的重要議題。由於分散式能源 (DER)、電動車 (EV)、行動勞動力和雲端技術的連接點迅速增加,電力公司面臨的風險日益增加。

市場擴張可以歸因於電網可靠性的提高和碳足跡控制意識的增強等原因。由於越來越重視實施再生能源的強力的監管框架,預計北美將在預測期內擴張。

智慧電網網路安全市場趨勢

智慧城市是先進的城市區域,旨在透過在技術、流動性、環境、生活水準和治理等關鍵領域的卓越表現來促進永續經濟發展並改善生活品質。目前全球有100多個智慧城市專案正在進行中,為科技企業、公用事業服務供應商和顧問公司帶來了巨大的前景。

這些城鎮利用先進的資源管理和創新技術,例如物聯網 (IoT) 和智慧能源表,來增強公用事業、交通、安全和醫療保健的關鍵服務。傳統電網缺乏滿足這些情況下即時能源監控要求所需的效率和靈活性。

可靠的智慧電網基礎設施對於智慧城市服務的集中管理和控制至關重要。資訊通訊技術基礎設施先進、網際網路普及率高的地區更傾向於實施智慧電網技術。亞太地區的快速城市化正在推動已開發國家和新興國家採用智慧城市技術,這得益於中國、印度和巴西等國的基礎設施投資。

市場動態

政府措施推動智慧電網現代化

世界各國政府已經實施了多項戰略舉措和監管措施,以鼓勵部署智慧電網技術並提高節能意識。這些措施對於加快工業、商業和住宅領域智慧電網解決方案的實施至關重要。

美國能源部(DOE)從2009年美國復甦與再投資法案(復甦法案)中獲得45億美元,用於升級國家電力基礎設施。智慧電網投資補助金(SGIG)計畫使美國能源部和電力部門聯合投資了 80 億美元。這項撥款促進了 99 個成本分攤項目,涉及 200 多家公用事業公司和其他組織。這些措施旨在更新電網、增強網路安全性、擴大系統互通性,並收集大量有關智慧電網效能及其相關優勢的資料。

數位轉型與網路安全

2024年12月21日,通用電氣旗下GE Vernova部門推出GridOS軟體平台,以促進電網的升級和即時管理。該平台促進了分散式能源資源的無縫整合,提高了電網可見性,並加強了網路安全標準。

由於再生能源、電動車和智慧電錶的加入,電力網路變得越來越複雜,公用事業公司面臨的網路安全挑戰也越來越大。因此,公司正在投資整合到電網管理解決方案中的複雜安全技術。

完整平台的出現凸顯了產業向數位化的轉型,也凸顯了網路安全在保護基礎設施的重要角色。這些進步大大增強了專為智慧電網系統設計的彈性網路安全解決方案日益成長的需求。

互通性和標準差距阻礙了市場的成長

儘管智慧電網技術的應用日益廣泛,但仍有許多重大限制阻礙了網路安全措施的有效部署。主要的困難是智慧電網系統設計人員對現有標準認知不足,導致設備製造過程中不符合標準。來自全球眾多供應商的外包和標準化組件的採用阻礙了設備的互通性,從而限制了公用事業網路內的無縫通訊。

許多製造商和設備供應商缺乏適當的認證,阻礙了公用事業公司存取遺留系統的資料。由於缺乏對 IT 通訊協定的理解以及缺乏實施所需的基本組件和設備,這個問題變得更加嚴重。

儘管美國國家標準與技術研究院(NIST)的智慧電網互通性小組(SGIP)以及中國、日本、巴西和印度等國發布的能源標準等舉措代表著值得稱讚的進步,但缺乏普遍接受的互通性標準仍然限制著智慧電網網路安全市場的綜合潛力。

目錄

第1章:方法論和範圍

第 2 章:定義與概述

第3章:執行摘要

第4章:動態

  • 影響因素
    • 驅動程式
      • 政府措施推動智慧電網現代化
      • 數位轉型與網路安全
    • 限制
      • 互通性和標準差距阻礙了市場的成長
    • 機會
    • 影響分析

第5章:產業分析

  • 波特五力分析
  • 供應鏈分析
  • 定價分析
  • 監管分析
  • 永續性分析
  • 產業趨勢分析
  • DMI 意見

第6章:依安全類型

  • 網路安全
  • 應用程式安全
  • 端點安全
  • 資料庫安全
  • 其他

第7章:依部署模式

  • 本地
  • 基於雲端
  • 混合

第 8 章:按組件

  • 解決方案
  • 服務

第9章:按應用

  • 能源生產
  • 能量傳輸
  • 能源分配
  • 能源消耗
  • 其他

第 10 章:按最終用戶

  • 住宅
  • 商業的
  • 工業的
  • 公用事業
  • 其他

第 11 章:按地區

  • 北美洲
    • 美國
    • 加拿大
    • 墨西哥
  • 歐洲
    • 德國
    • 英國
    • 法國
    • 義大利
    • 西班牙
    • 歐洲其他地區
  • 南美洲
    • 巴西
    • 阿根廷
    • 南美洲其他地區
  • 亞太
    • 中國
    • 印度
    • 日本
    • 澳洲
    • 亞太其他地區
  • 中東和非洲

第 12 章:競爭格局

  • 競爭格局
  • 市場定位/佔有率分析
  • 併購分析

第13章:公司簡介

  • IBM Corporation
    • 公司概況
    • 產品組合和描述
    • 財務概覽
    • 關鍵進展
  • Cisco Systems
  • Siemens AG
  • Schneider Electric
  • General Electric (GE)
  • Honeywell International Inc.
  • Lockheed Martin Corporation
  • AlertEnterprise
  • AlienVault Inc.
  • Thales Group

第 14 章:附錄

簡介目錄
Product Code: ICT9484

Global smart grid cybersecurity market size reached US$ 7.99 billion in 2024 and is expected to reach US$ 19.06 billion by 2032, growing with a CAGR of 11.48% during the forecast period 2025-2032.

The growing popularity of smart grids is attributed to favorable regulations implemented by governments globally and their efforts to promote energy conservation among the people. Moreover, the incorporation of these integrated components into the system, along with a heightened focus on reducing power blackouts, positions smart grid engineering to transform the traditional grid into a more reliable and resilient system.

Cybersecurity has emerged as a vital concern for electric utilities due to the digitization of the grid and the rising incidence of assaults on critical national assets. Electric utilities face an increasing risk landscape due to the rapid proliferation of connection points from Distributed Energy Resources (DERs), Electric Vehicles (EVs), mobile workforces, and cloud technology.

The market expansion can be ascribed to causes including improved grid dependability and heightened awareness regarding carbon footprint control. North America is anticipated to expand over the projected period, owing to the increasing emphasis on a strong regulatory framework for the implementation of renewable energy.

Smart grid cybersecurity Market Trend

Smart cities are advanced urban regions engineered to promote sustainable economic development and improve quality of life by excelling in critical areas such as technology, mobility, environment, living standards, and governance. Over 100 smart city programs are currently in progress globally, presenting substantial prospects for technology enterprises, utility service providers, and consultancy companies.

These towns utilize sophisticated resource management and innovative technologies, such as the Internet of Things (IoT) and smart energy meters to enhance key services in utilities, transportation, safety, and healthcare. Conventional power grids lack the efficiency and agility necessary to fulfill real-time energy monitoring requirements in these contexts.

A reliable smart grid infrastructure is essential for the centralized management and control of services in smart cities. Areas with advanced ICT infrastructure and extensive internet accessibility are more inclined to implement smart grid technologies. Rapid urbanization in the Asia-Pacific region is driving both developed and emerging countries to adopt smart city technologies, bolstered by infrastructure investments in nations such as China, India, and Brazil.

Market Dynamics

Government Initiatives Driving Smart Grid Modernization

Governments globally have implemented several strategic initiatives and regulatory measures to encourage the deployment of smart grid technologies and enhance awareness of energy conservation. These initiatives are crucial for expediting the implementation of smart grid solutions in industrial, commercial, and residential sectors.

The US Department of Energy (DOE) received US$ 4.5 billion from the American Recovery and Reinvestment Act of 2009 (Recovery Act) to upgrade the national electric power infrastructure. The Smart Grid Investment Grant (SGIG) program enabled a joint investment of US$ 8 billion by the DOE and the power sector. This grant facilitated 99 cost-shared projects, engaging over 200 utilities and other organizations. The initiatives aimed at updating the electric grid, augmenting cybersecurity, expanding system interoperability, and gathering an unparalleled amount of data on smart grid performance and its related advantages.

Digital Transformation and Cybersecurity

On December 21, 2024, GE Vernova, a division of General Electric, launched the GridOS software platform to facilitate the upgrading and real-time administration of electric power grids. This platform facilitates the seamless integration of distributed energy resources, improves grid visibility, and fortifies cybersecurity standards.

Utility companies have escalating cybersecurity challenges with the rising complexity of power networks due to the incorporation of renewable energy, electric vehicles, and smart meters. As a result, companies are investing in sophisticated security technology integrated into grid management solutions.

The emergence of complete platforms underscores the industry's transition to digitization and accentuates the essential role of cybersecurity in protecting infrastructure. These advancements substantially enhance the increasing need for resilient cybersecurity solutions specifically designed for smart grid systems.

Interoperability and Standards Gaps Hamper the Growth of the Market

Despite the increasing implementation of smart grid technology, numerous significant constraints impede the effective deployment of cybersecurity measures. A primary difficulty is the insufficient awareness among smart grid system designers about existing standards, resulting in non-compliance during appliance manufacturing. The incorporation of outsourced and standardized components from many worldwide suppliers hinders device interoperability, hence restricting seamless communication inside utility networks.

Numerous manufacturers and equipment suppliers lack appropriate certifications, hindering utility companies' access to data from legacy systems. This problem is exacerbated by a lack of comprehension of IT communication protocols and the unavailability of essential components and devices required for implementation.

Although initiatives such as the Smart Grid Interoperability Panel (SGIP) by NIST and the issuance of energy standards in nations like China, Japan, Brazil, and India represent commendable advancements, the absence of universally accepted interoperability standards persists in limiting the comprehensive potential of the smart grid cybersecurity market.

Segment Analysis

The global smart grid cybersecurity market is segmented based on security type, deployment mode, component, application, end-user and region.

Network security segment is driving smart grid cybersecurity market

The network security type segment has emerged as significant force in the global smart grid cybersecurity market, accounting for approximately over 30% of the total market share in 2024. The increasing convergence of Information Technology (IT) and Operational Technology (OT) is driving the integration of production and enterprise networks. Simultaneously, the demand for remote access to OT environments is rising, necessitating enhanced protection measures.

To safeguard automation networks from unauthorized access, network security plays a critical role by monitoring all interfaces between corporate and plant-level systems, as well as remote maintenance entry points. This is achieved through advanced mechanisms such as network access control, segmentation, encrypted communication, and the adoption of Zero Trust security principles.

In the context of smart grids, which comprise a highly interconnected network of devices, systems, and communication protocols, network security becomes even more essential. The distributed nature of modern power infrastructure, spanning substations, control centers, smart meters, and distributed energy resources, makes secure data transmission a top priority. Network security ensures the integrity, confidentiality, and availability of data across these channels, effectively protecting against a wide range of cyber threats.

Geographical Penetration

North America's Leadership in Smart Grid Cybersecurity Market Growth Driven by Clean Energy Integration

North America is the most rapidly growing region in the global smart grid cybersecurity market, propelled by many factors. A primary factor in this increase is the region's swift development of renewable energy systems, especially solar and wind energy. Governments throughout the region, particularly in the US, are providing incentives including tax credits and policy support to encourage the adoption of sustainable energy. Simultaneously, increasing environmental consciousness among stakeholders is propelling the transition to sustainable energy techniques.

The US is in the forefront of implementing smart grid solutions that enable the smooth integration of renewable energy sources into the current electricity infrastructure. Technological developments are important in this transformation, augmenting the grid's capacities regarding energy distribution, effective data collecting, and real-time monitoring and control. As the smart grid ecosystem advances, the necessity for comprehensive cybersecurity measures intensifies, consequently propelling expansion in the smart grid cybersecurity market throughout the area.

Sustainability Analysis

The integration of digital and electric technologies in smart grids is crucial for promoting sustainability through the reduction of carbon emissions and the improvement of energy efficiency. The adoption of distributed energy resources (DERs), electric vehicles (EVs), and cloud-based systems by utilities enhances the dependability and resilience of energy infrastructure. This digital transition concurrently heightens cybersecurity threats. The increase in cyberattacks, which doubled from 2020 to 2022 as reported by the IEA, poses substantial operational and financial hazards to critical infrastructure.

Utility organizations must establish comprehensive cybersecurity frameworks that adhere to global standards like ISA/IEC 62443 and NIST to guarantee environmental advancement and system security. A comprehensive defense-in-depth strategy, integrated with governance, risk management, and incident response capabilities, is needed.

Although the initial expenditure on cybersecurity may be substantial, the enduring advantages encompass operational continuity, diminished emissions, and protected digital infrastructure. As electrification progresses, ensuring the security of smart grids is essential for a robust and sustainable energy future.

Competitive Landscape

The major global players in the market include IBM Corporation, Cisco Systems, Siemens AG, Schneider Electric, General Electric (GE), Honeywell International Inc., Lockheed Martin Corporation, AlertEnterprise, AlienVault Inc., and Thales Group.

Key Developments

  • In December 2024, Honeywell International Inc. introduced INNCOM Direct, an automated energy management system designed for mid-market hotels. The system improves energy efficiency by optimizing HVAC operation in unoccupied rooms. This corresponds with Honeywell's emphasis on automation and the energy shift. With as much as 30% of US hotel rooms perhaps unoccupied in 2024, INNCOM Direct aids in minimizing energy waste.
  • In April 2024, GE Vernova's Grid Solutions division and Sonelgaz, Algeria's national electricity and gas enterprise, are augmenting the capacity of GE Algeria Turbines (GEAT) to implement advanced grid solutions. This strategic accord, achieved through the modification of their joint venture, emphasizes a dedication to furthering Algeria's energy objectives. It denotes a shared commitment to sustainable energy advancement, enhancement of local industrial capabilities, and promotion of economic success through technological innovation and collaboration.

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Target Audience 2024

  • Manufacturers/ Buyers
  • Industry Investors/Investment Bankers
  • Research Professionals
  • Emerging Companies

Table of Contents

1. Methodology and Scope

  • 1.1. Research Methodology
  • 1.2. Research Objective and Scope of the Report

2. Definition and Overview

3. Executive Summary

  • 3.1. Snippet by Security Type
  • 3.2. Snippet by Deployment Mode
  • 3.3. Snippet by Component
  • 3.4. Snippet by Application
  • 3.5. Snippet by End-user
  • 3.6. Snippet by Region

4. Dynamics

  • 4.1. Impacting Factors
    • 4.1.1. Drivers
      • 4.1.1.1. Government Initiatives Driving Smart Grid Modernization
      • 4.1.1.2. Digital Transformation and Cybersecurity
    • 4.1.2. Restraints
      • 4.1.2.1. Interoperability and standards gaps hamper the growth of the market
    • 4.1.3. Opportunity
    • 4.1.4. Impact Analysis

5. Industry Analysis

  • 5.1. Porter's Five Force Analysis
  • 5.2. Supply Chain Analysis
  • 5.3. Pricing Analysis
  • 5.4. Regulatory Analysis
  • 5.5. Sustainability Analysis
  • 5.6. Industry Trend Analysis
  • 5.7. DMI Opinion

6. By Security Type

  • 6.1. Introduction
    • 6.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Security Type
    • 6.1.2. Market Attractiveness Index, By Security Type
  • 6.2. Network Security*
    • 6.2.1. Introduction
    • 6.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 6.3. Application Security
  • 6.4. Endpoint Security
  • 6.5. Database Security
  • 6.6. Others

7. By Deployment Mode

  • 7.1. Introduction
    • 7.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Deployment Mode
    • 7.1.2. Market Attractiveness Index, By Deployment Mode
  • 7.2. On-premises*
    • 7.2.1. Introduction
    • 7.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 7.3. Cloud-based
  • 7.4. Hybrid

8. By Component

  • 8.1. Introduction
    • 8.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Component
    • 8.1.2. Market Attractiveness Index, By Component
  • 8.2. Solutions*
    • 8.2.1. Introduction
    • 8.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 8.3. Services

9. By Application

  • 9.1. Introduction
    • 9.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 9.1.2. Market Attractiveness Index, By Application
  • 9.2. Energy Generation *
    • 9.2.1. Introduction
    • 9.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 9.3. Energy Transmission
  • 9.4. Energy Distribution
  • 9.5. Energy Consumption
  • 9.6. Others

10. By End-user

  • 10.1. Introduction
    • 10.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-user
    • 10.1.2. Market Attractiveness Index, By End-user
  • 10.2. Residential*
    • 10.2.1. Introduction
    • 10.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
  • 10.3. Commercial
  • 10.4. Industrial
  • 10.5. Utilities
  • 10.6. Others

11. By Region

  • 11.1. Introduction
    • 11.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Region
    • 11.1.2. Market Attractiveness Index, By Region
  • 11.2. North America
    • 11.2.1. Introduction
    • 11.2.2. Key Region-Specific Dynamics
    • 11.2.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Security Type
    • 11.2.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Deployment Mode
    • 11.2.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Component
    • 11.2.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 11.2.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-user
    • 11.2.8. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 11.2.8.1. US
      • 11.2.8.2. Canada
      • 11.2.8.3. Mexico
  • 11.3. Europe
    • 11.3.1. Introduction
    • 11.3.2. Key Region-Specific Dynamics
    • 11.3.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Security Type
    • 11.3.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Deployment Mode
    • 11.3.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Component
    • 11.3.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 11.3.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-user
    • 11.3.8. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 11.3.8.1. Germany
      • 11.3.8.2. UK
      • 11.3.8.3. France
      • 11.3.8.4. Italy
      • 11.3.8.5. Spain
      • 11.3.8.6. Rest of Europe
  • 11.4. South America
    • 11.4.1. Introduction
    • 11.4.2. Key Region-Specific Dynamics
    • 11.4.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Security Type
    • 11.4.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Deployment Mode
    • 11.4.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Component
    • 11.4.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 11.4.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-user
    • 11.4.8. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 11.4.8.1. Brazil
      • 11.4.8.2. Argentina
      • 11.4.8.3. Rest of South America
  • 11.5. Asia-Pacific
    • 11.5.1. Introduction
    • 11.5.2. Key Region-Specific Dynamics
    • 11.5.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Security Type
    • 11.5.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Deployment Mode
    • 11.5.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Component
    • 11.5.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 11.5.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-user
    • 11.5.8. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
      • 11.5.8.1. China
      • 11.5.8.2. India
      • 11.5.8.3. Japan
      • 11.5.8.4. Australia
      • 11.5.8.5. Rest of Asia-Pacific
  • 11.6. Middle East and Africa
    • 11.6.1. Introduction
    • 11.6.2. Key Region-Specific Dynamics
    • 11.6.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Security Type
    • 11.6.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Deployment Mode
    • 11.6.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Component
    • 11.6.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Application
    • 11.6.7. Market Size Analysis and Y-o-Y Growth Analysis (%), By End-user

12. Competitive Landscape

  • 12.1. Competitive Scenario
  • 12.2. Market Positioning/Share Analysis
  • 12.3. Mergers and Acquisitions Analysis

13. Company Profiles

  • 13.1. IBM Corporation*
    • 13.1.1. Company Overview
    • 13.1.2. Product Portfolio and Description
    • 13.1.3. Financial Overview
    • 13.1.4. Key Developments
  • 13.2. Cisco Systems
  • 13.3. Siemens AG
  • 13.4. Schneider Electric
  • 13.5. General Electric (GE)
  • 13.6. Honeywell International Inc.
  • 13.7. Lockheed Martin Corporation
  • 13.8. AlertEnterprise
  • 13.9. AlienVault Inc.
  • 13.10. Thales Group

LIST NOT EXHAUSTIVE

14. Appendix

  • 14.1. About Us and Services
  • 14.2. Contact Us