紧急关闭系统市场：现况分析与预测（2023-2030）

由于製造流程日益复杂以及各行业中电气元件的使用迅速增加，紧急关闭系统市场预计将以约9.1%的复合年增长率成长。随着业界继续应对日益复杂的操作和严格的安全法规，对先进 ESD 解决方案的需求正在迅速增加。业者必须遵守管理机构实施的严格安全法规和标准，以减少灾难性事故的风险。不遵守这些规定可能会导致严厉的处罚、法律后果和声誉损害。紧急关闭系统透过提供故障安全机制来在紧急情况下快速关闭操作、防止事态升级并最大限度地减少潜在影响，在确保合规性方面发挥着至关重要的作用。此外，随着工业运作变得更加复杂和技术先进，系统故障和危险情况的可能性也随之增加。ESD 系统作为重要的保护设备，使业界能够快速回应紧急情况并减少此类事件的影响。例如，在石油和天然气行业，由于上游、中游和下游运营相关的固有风险，ESD 系统的采用正在迅速增加。这些因素有利于环境，并推动紧急关闭系统在全球各市场的普及。

根据组件，市场分为开关、感测器、可程式安全系统、安全阀和执行器。感测器在紧急关闭系统产业中脱颖而出，成为主导部分。其主要原因是其重要的功能。感测器是工业操作的重要组成部分，用于检测和监控温度、压力、流量和其他製程变数等关键参数。它提供即时数据的能力可以在紧急情况下快速回应和决策，这对于 ESD 系统至关重要。此外，还有不同类型的感测器，例如温度感测器、压力感测器和接近感测器，可让您监控各种参数。它们与各种工业系统的兼容性以及与其他控制组件的无缝整合使其具有高度通用性并广泛应用于 ESD 应用。此外，感测器的设计具有可靠性和冗余功能，以确保关键操作中的持续监控和容错。冗余感测器系统提供备份功能，最大限度地降低感测器故障的风险并提高整个 ESD 系统的可靠性。此外，监管标准和行业要求要求在 ESD 系统中使用可靠且准确的传感器，以符合安全准则和协议。符合国际安全标准和认证的感测器是确保法规遵循和行业最佳实践的首选，使感测器成为各行业紧急关闭系统的首选。

根据控制方法，市场分为气动、电气、光纤和无线遥测。电气控制方式占了紧急停车系统市场的大部分占有率。主要是因为它的可靠性和准确性。电气控制系统以其高可靠性和准确性而闻名。准确检测紧急情况并以最短的等待时间做出回应，确保及时关闭。这种可靠性和准确性在紧急情况下至关重要，瞬间做出的决策可以防止重大损失和人员伤亡。此外，电气控制系统可与其他电子系统无缝整合，例如可程式逻辑控制器（PLC）、监控和资料撷取（SCADA）系统以及分散式控制系统（DCS）。这种整合可以实现集中监控和控制，从而提高 ESD 系统的整体效率。此外，电气控制系统通常包括先进的诊断和监控功能，可即时监控系统性能、故障检测和预测性维护。此功能提高了系统可靠性并减少了紧急情况下的关键停机时间，使其成为各行业紧急关闭系统的理想选择。

市场依应用细分为工业、发电/输电、房地产、交通运输等。在紧急停车系统产业中，发电和输电领域占据着压倒性的占有率。基础设施的重要性是主要因素。发电和输电部门被认为是重要的基础设施，因为它负责提供电力，而电力是其他各种行业和日常生活活动的重要资源。此外，发电厂和输电系统涉及高压设备和危险操作，增加了事故和设备故障的风险，需要强有力的安全措施，例如 ESD 系统。此外，发电和输电资产是高价值投资，需要防止损坏和运作故障。ESD 系统透过快速隔离故障并防止大范围损坏，在保护您的投资方面发挥关键作用。此外，发电厂和电网非常复杂，包括多个相互连接的系统和设备，因此难以有效管理紧急关闭机制并防止连锁故障。因此，紧急停车系统已成为确保发电和输电基础设施持续运作的非常重要的要素。

为了更瞭解紧急关闭系统的市场实施情况，将市场分为北美（美国、加拿大、北美其他地区）、欧洲（德国、英国、法国、义大利、欧洲其他地区）、亚太地区（中国、日本、印度、韩国、亚太地区其他地区）和世界其他地区。北美地区拥有全球最大的紧急关闭系统市场潜力。北美，特别是美国，拥有严格的监管环境，强调石油天然气、化学品和发电等各行业的安全。这些法规要求实施强大的安全系统，例如紧急关闭系统，以降低风险并保护工人、财产和环境。遵守这些法规是该地区实施紧急关闭系统的关键驱动力。此外，北美还拥有许多紧急关闭系统行业的大公司，包括知名製造商、系统整合商和服务提供者。这些公司在开发和部署适用于各种应用的先进紧急关闭系统方面拥有丰富的经验和专业知识。这些公司的存在和持续的技术创新对该地区的市场成长做出了重大贡献。此外，石油和天然气产业是紧急关闭系统的重要消费者，北美拥有成熟且成熟的石油和天然气产业。该地区拥有许多上游、中游和下游业务，所有这些业务都需要强有力的安全措施，包括紧急关闭系统。确保石油和天然气设施安全高效运作的需求推动了对这些系统的需求。除此之外，这些进步是促进北美采用紧急关闭系统环境的主要因素。

目录

第1章 市场介绍

• 市场定义
• 主要目标
• 利益相关者
• 限制

第2章 研究方法或前提条件

• 调查过程
• 调查方法
• 受访者简介

第3章 市场总结

第4章 执行摘要

第5章 COVID-19 对紧急关闭系统市场的影响

第6章 2020-2030年紧急关闭系统市场收入

第7章 市场分析：依组成部分

• 转变
• 传感器
• 可程式安全系统
• 安全阀门
• 执行器

第8章 市场分析：透过控制方法

• 空气压力
• 电
• 光纤
• 无线遥测

第9章 市场分析：依应用分类

• 行业
• 发电/输电
• 房地产
• 航运
• 其他（资料中心、通讯基础设施等）

第10章 市场分析：依地区

• 北美
  • 美国
  • 加拿大
  • 其他北美
• 欧洲
  • 德国
  • 英国。
  • 法国
  • 义大利
  • 欧洲其他地区
• 亚太地区
  • 中国
  • 印度
  • 日本
  • 韩国
  • 亚太其他地区
• 世界其他地区

第11章 紧急停车系统市场动态

• 市场驱动力
• 市场课题
• 影响分析

第12章 紧急停机系统市场机会

第13章 紧急关闭系统市场趋势

第14章 需求面和供给面分析

• 需求面分析
• 供给侧分析

第15章 价值链分析

第16章 竞争场景

• 竞争格局
  • 波特五力分析

第17章 公司简介

• ABB
• Emerson Electric Co.
• General Electric Company
• Honeywell International Inc.
• Siemens
• Schneider Electric
• Rockwell Automation
• Yokogawa Electric Corporation
• OMRON Corporation
• Proserv UK Ltd

第18章 免责声明

An Emergency Shutdown System (ESD) is a critical safety instrumented system designed to bring a process plant or facility to a safe state in the event of an emergency or abnormal situation. The primary purpose of an ESD system is to protect personnel, equipment, and the environment from hazardous conditions such as fires, explosions, toxic releases, or other catastrophic events. At its core, an ESD system consists of sensors, logic solvers, and final control elements that work together to detect abnormal conditions and initiate actions to mitigate the risks associated with those conditions.

The Emergency Shutdown Software Market is expected to grow at a strong CAGR of around 9.1% owing to the increasing complexity of manufacturing processes and surging use of electrical components across various industries. As industries continue to grapple with increasingly complex operations and stringent safety regulations, the demand for advanced ESD solutions is witnessing a remarkable surge. Industries are subject to rigorous safety regulations and standards imposed by governing bodies to mitigate the risk of catastrophic incidents. Failure to comply with these regulations can result in severe penalties, legal repercussions, and reputational damage. Emergency shutdown systems play a pivotal role in ensuring compliance by providing a failsafe mechanism to rapidly shut down operations in emergencies, preventing escalation and minimizing potential consequences. Furthermore, as industrial operations become more intricate and technologically advanced, the potential for system failures and hazardous situations escalates. ESD systems act as a crucial safeguard, enabling industries to swiftly respond to emergencies and mitigate the impact of such incidents. The oil and gas industry, for instance, has witnessed a surge in the adoption of ESD systems due to the inherent risks associated with upstream, midstream, and downstream operations. Factors such as these are fostering a conducive environment, and encouraging the widespread adoption of emergency shutdown systems across various markets worldwide.

Based on the component, the market is categorized into switches, sensors, programmable safety systems, safety valves, and actuators. The Sensors stand out as a dominant segment in the emergency shutdown system industry. Driven primarily due to its critical functionality. Sensors are indispensable components that detect and monitor critical parameters such as temperature, pressure, flow, and other process variables in industrial operations. Their ability to provide real-time data enables quick response and decision-making in emergencies, making them essential for ESD systems. Furthermore, Sensors come in various types such as temperature sensors, pressure sensors, proximity sensors, and more, allowing them to monitor a wide range of parameters. Their compatibility with different industrial systems and ability to integrate seamlessly with other control components make them versatile and widely used in ESD applications. Additionally, sensors are designed with reliability and redundancy features to ensure continuous monitoring and fault tolerance in critical operations. Redundant sensor systems provide backup functionality, minimizing the risk of sensor failure and enhancing the overall reliability of the ESD system. Moreover, regulatory standards and industry requirements necessitate the use of reliable and accurate sensors in ESD systems to comply with safety guidelines and protocols. Sensors that meet international safety standards and certifications are preferred choices for ensuring regulatory compliance and adherence to industry best practices, making sensors preferred choices for emergency shutdown systems across various industries.

Based on the control method, the market is segmented into pneumatic, electrical, fiber optics, and radio telemetry. The electrical control method holds the major portion of the emergency shutdown systems market share. Primarily driven, due to its reliability and precision. Electrical control systems are known for their high reliability and precision. They can accurately detect and respond to emergency situations with minimal latency, ensuring timely shutdown of operations. This reliability and precision are crucial in emergency situations where split-second decisions can prevent significant damage or loss of life. Furthermore, electrical control systems can be seamlessly integrated with other electronic systems, such as programmable logic controllers (PLCs), supervisory control and data acquisition (SCADA) systems, and distributed control systems (DCS). This integration allows for centralized monitoring and control, enhancing the overall effectiveness of the ESD system. Additionally, electrical control systems often incorporate advanced diagnostic and monitoring capabilities, allowing for real-time monitoring of system performance, fault detection, and predictive maintenance. This feature enhances system reliability and reduces downtime, which is crucial in an emergency, making them an ideal choice for the emergency shutdown system across various industries.

Based on application, the market is segmented into Industrial, Power Generation and Transmission, real estate, transportation, and others. The Power Generation and Transmission segment holds a predominant share of the emergency shutdown system industry. Primarily driven by the critical nature of the infrastructure. The power generation and transmission sector are considered a critical infrastructure due to its role in providing electricity, a vital resource for various other industries and daily life activities. Furthermore, power plants and transmission systems involve high-voltage equipment and hazardous operations, increasing the risk associated with accidents or equipment failures, necessitating robust safety measures like ESD systems. Moreover, power generation and transmission assets are high-value investments that need protection against damage or operational failures. ESD systems play a crucial role in quickly isolating faults and preventing widespread damage, thus safeguarding investments. Additionally, the complexity of power generation plants and transmission networks, involving multiple interconnected systems and equipment, heightens the need for effective emergency shutdown mechanisms to manage emergencies efficiently and prevent cascading failures, thus making the emergency shutdown systems a very crucial component, ensuring continuous operation of the power generation and transmission infrastructure.

For a better understanding of the market adoption of the emergency shutdown system, the market is analyzed based on its worldwide presence in countries such as North America (The U.S., Canada, and the Rest of North America), Europe (Germany, The U.K., France, Italy, Rest of Europe), Asia-Pacific (China, Japan, India, South Korea, Rest of Asia-Pacific), Rest of World. The North American region offers the largest market potential for the emergency shutdown system worldwide. North America, particularly the United States, has a stringent regulatory environment that places a strong emphasis on safety across various industries, including oil and gas, chemical, and power generation. These regulations mandate the implementation of robust safety systems, such as emergency shutdown systems, to mitigate risks and protect workers, assets, and the environment. Compliance with these regulations is a significant driver for the adoption of emergency shutdown systems in this region. Furthermore, North America is home to numerous major players in the emergency shutdown system industry, including renowned manufacturers, system integrators, and service providers. These companies have extensive experience and expertise in developing and deploying advanced emergency shutdown systems for various applications. Their presence and continuous innovation have contributed significantly to the growth of the market in this region. Additionally, the oil and gas industry are a significant consumer of emergency shutdown systems, and North America has a well-established and mature oil and gas sector. The region is home to numerous upstream, midstream, and downstream operations, all of which require robust safety measures, including emergency shutdown systems. The demand for these systems is driven by the need to ensure the safe and efficient operation of oil and gas facilities. These advances among others are primary factors fostering a conducive environment for the adoption of emergency shutdown systems in North America.

Some of the major players operating in the market include ABB; Emerson Electric Co.; General Electric Company; Honeywell International Inc.; Siemens; Schneider Electric; Rockwell Automation; Yokogawa Electric Corporation; OMRON Corporation; and Proserv UK Ltd

TABLE OF CONTENTS

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 Emergency Shutdown System Market
• 2.2. Research Methodology of the Emergency Shutdown System Market
• 2.3. Respondent Profile

3.MARKET SYNOPSIS

4.EXECUTIVE SUMMARY

5.IMPACT OF COVID-19 ON THE EMERGENCY SHUTDOWN SYSTEM MARKET

6.EMERGENCY SHUTDOWN SYSTEM MARKET REVENUE (USD MN), 2020-2030F.

7.MARKET INSIGHTS BY COMPONENT

• 7.1. Switches
• 7.2. Sensors
• 7.3. Programmable Safety System
• 7.4. Safety Valves
• 7.5. Actuators

8.MARKET INSIGHTS BY CONTROL METHOD

• 8.1. Pneumatic
• 8.2. Electrical
• 8.3. Fiber Optics
• 8.4. Radio Telemetry

9.MARKET INSIGHTS BY APPLICATION

• 9.1. Industrial
• 9.2. Power Generation and Transmission
• 9.3. Real Estate
• 9.4. Transportation
• 9.5. Others (Data centres, Telecomm Infrastructure, etc)

10.MARKET INSIGHTS BY REGION

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

11.EMERGENCY SHUTDOWN SYSTEM MARKET DYNAMICS

• 11.1. Market Drivers
• 11.2. Market Challenges
• 11.3. Impact Analysis

12.EMERGENCY SHUTDOWN SYSTEM MARKET OPPORTUNITIES

13.EMERGENCY SHUTDOWN SYSTEM MARKET TRENDS

14.DEMAND AND SUPPLY-SIDE ANALYSIS

• 14.1. Demand Side Analysis
• 14.2. Supply Side Analysis

15.VALUE CHAIN ANALYSIS

16.COMPETITIVE SCENARIO

• 16.1. Competitive Landscape
  • 16.1.1. Porters Five Forces Analysis

17.COMPANY PROFILED

• 17.1. ABB
• 17.2. Emerson Electric Co.
• 17.3. General Electric Company
• 17.4. Honeywell International Inc.
• 17.5. Siemens
• 17.6. Schneider Electric
• 17.7. Rockwell Automation
• 17.8. Yokogawa Electric Corporation
• 17.9. OMRON Corporation
• 17.10. Proserv UK Ltd

18.DISCLAIMER