![]() |
市场调查报告书
商品编码
1489417
到 2030 年高可靠性压力保护系统市场预测:按类型、组件、服务、最终用户和地区分類的全球分析High-Integrity Pressure Protection System Market Forecasts to 2030 - Global Analysis By Type (Electronic and Mechanical), Component, Service, End User and By Geography |
根据 Stratistics MRC 的数据,2023 年全球高可靠性压力保护系统市场规模为 5.261 亿美元,预计在预测期内将以 8.7% 的复合年增长率增长,到 2030 年达到 9.433 亿美元。
高完整性压力保护系统 (HIPPS) 是一种安全仪器系统,旨在防止管道和製程容器中出现超压。它由感测器、逻辑控制器和阀门等最终元件组成。当压力超过安全极限时,可靠的压力保护系统会迅速切断流量或将流量降至安全水平,避免爆炸或洩漏等潜在灾难。高可靠性压力保护系统自主运行,独立于其他控制系统,确保危急情况下的快速反应和可靠性。其设计符合严格的安全标准,为防止高压事故提供了坚实的屏障,保护工业环境中的人员和资产。
IEA表示,未来五年的天然气需求将由亚太地区推动,预计2024年该地区将占总消费量成长的近60%。
对安全和风险管理的需求增加
人们对安全问题的认识不断提高,促使石油和天然气等传统行业以外的行业采用高可靠性压力保护系统。製造商努力开发具有增强功能、可靠性和性能的系统,以满足不断变化的产业安全要求。化学、製药和发电等行业已经认识到降低风险的重要性,并透过将高可靠性压力保护系统纳入其流程来扩大其市场范围。
设计与实现复杂性
设计高度整合的压力保护系统需要技术精湛的工程师,他们了解压力控制、安全通讯协定和相关法规的复杂性。这种专业知识会导致更高的工程成本。这会延长工程时间,延迟可靠压力保护系统的安装和运行,并影响计划预算和生产计划。此外,纠正这些错误的成本也很高,进一步推迟了计划完成并阻碍了市场成长。
新兴国家都市化与工业化进展
都市化和工业化带动了管线、炼油厂、化工厂、发电设施等新型基础设施的发展。随着产量的增加,对强大安全系统的需求也随之增加,例如可靠的压力保护系统,以保护人员、设备和环境免受超压事件等潜在危险的影响。此外,新兴国家的政府和监管机构正在强制要求使用先进的安全技术,例如高可靠性压力保护系统,以最大限度地降低事故风险并确保遵守安全通讯协定,这正在推动市场的成长。
认识有限
由于认识有限,产业可能低估与超压事件相关的风险以及不采取适当保护措施的潜在影响。如果不考虑或实施高度完整性的压力保护系统,产业可能会错失提高安全性和降低风险的机会。这种碎片化可能会让客户感到困惑,阻碍标准化工作,并使製造商更难建立市场优势并有效扩大业务规模。
COVID-19 的影响
由于计划延误、供应链中断和工业部门投资减少,COVID-19 大流行最初减缓了高完整性压力保护系统 (HIPPS) 市场的发展。然而,随着各行业适应新的安全通讯协定并恢復运营,人们重新关注安全和风险管理,对高可靠性压力保护系统的需求激增。远端监控和预测性维护解决方案已广受欢迎,业界已优先投资关键基础设施的弹性。此次疫情也加速了数位化趋势,刺激了高可靠性压力保护系统技术的创新。
预计电子领域在预测期内将是最大的
由于电子系统能够即时监控高可靠性压力保护系统中的压力水平、阀门位置和其他关键参数,因此预计电子领域将出现良好的成长。这样可以更精确地控制製程,确保压力保持在安全范围内,并且能够快速回应异常情况,从而提高操作灵活性和效率。
预计现场引发剂产业在预测期内复合年增长率最高。
现场引发剂领域预计在预测期内复合年增长率最高。现场启动器使高可靠性压力保护系统能够快速检测压力偏差并在异常源附近启动保护操作。反应速度更快,设备损坏的可能性降低,安全风险更有效降低。这对于遵守安全法规至关重要的行业尤其重要,例如石油和天然气、石化和製药。
由于人们越来越担心石油和天然气行业天然气燃烧和排放对环境的影响,预计亚太地区在预测期内将占据最大的市场占有率。高可靠性压力保护系统透过安全隔离设备并以受控方式释放压力,有助于减少燃烧和排气。该市场的主要企业通常提供各种高可靠性压力保护系统解决方案,包括阀门、感测器、控制器以及用于监视和控制压力水平的软体。这些系统通常整合到工业设施的整体製程控制和安全系统中,以确保可靠运作并符合安全法规。
由于快速工业化,特别是在石油和天然气、化学品和发电等领域,预计北美在预测期内的复合年增长率最高。这种成长需要建造新的炼油厂、化工厂和发电厂,而这些都需要可靠的压力保护系统来确保安全运作。此外,该地区政府正在加强有关工业安全的法规。这些法规强制要求在高压应用中使用安全仪器系统 (SIS),例如高可靠性压力保护系统。
According to Stratistics MRC, the Global High-Integrity Pressure Protection System Market is accounted for $526.1 million in 2023 and is expected to reach $943.3 million by 2030 growing at a CAGR of 8.7% during the forecast period. High-Integrity Pressure Protection System (HIPPS) is a safety instrumented system designed to prevent overpressure in pipelines or process vessels. It consists of sensors, logic solvers, and final elements such as valves. When pressure exceeds safe limits, High-integrity pressure protection system swiftly shuts off flow or reduces it to a safe level, averting potential disasters like explosions or leaks. High-integrity pressure protection system operates autonomously, independent of other control systems, ensuring rapid response and reliability in critical situations. Its design adheres to rigorous safety standards, providing a robust barrier against high-pressure incidents, safeguarding both personnel and assets in industrial environments.
According to IEA, gas demand in the coming five years is set to be driven by Asia Pacific, and it is anticipated to account for almost 60% of the total consumption increase by 2024.
Increasing demand for safety and risk management
The growing awareness of safety issues prompts industries beyond traditional sectors like oil and gas to adopt high-integrity pressure protection system. Manufacturers strive to develop systems with enhanced functionalities, reliability, and performance to meet the evolving safety requirements of industries. Industries such as chemicals, pharmaceuticals, and power generation recognize the importance of risk mitigation and incorporate high-integrity pressure protection system into their processes, expanding the market's scope.
Complexity in design and implementation
Designing a high-integrity pressure protection systems system requires highly skilled engineers who understand the intricacies of pressure control, safety protocols, and relevant regulations. This specialized expertise translates to higher engineering costs. This extends the engineering period and delays the installation and operation of the high-integrity pressure protection systems, impacting project budgets and production schedules. Moreover correcting these errors can be expensive and further delay project completion thus hampering the growth of the market.
Rising urbanization and industrialization in emerging economies
Urbanization and industrialization lead to the development of new infrastructure, including pipelines, refineries, chemical plants, and power generation facilities. As production volumes rise, so does the need for robust safety systems like high-integrity pressure protection system to protect personnel, equipment, and the environment from potential hazards such as overpressure events. Additionally governments and regulatory bodies in emerging economies often mandate the use of advanced safety technologies like high-integrity pressure protection system to minimize the risk of accidents and ensure compliance with safety protocols which propel the markets growth.
Limited awareness
Limited awareness may lead industries to underestimate the risks associated with overpressure events and the potential consequences of not having adequate protection measures in place. Industries may miss out on opportunities to enhance safety and mitigate risks by not considering or implementing high-integrity pressure protection system. This fragmentation can confuse customers and hinder standardization efforts, making it more challenging for manufacturers to establish market dominance and scale their operations efficiently.
Covid-19 Impact
The COVID-19 pandemic initially slowed down the High-Integrity Pressure Protection System (HIPPS) market due to project delays, supply chain disruptions, and reduced investments in industrial sectors. However, as industries adapted to new safety protocols and resumed operations, the demand for high-integrity pressure protection system surged, driven by a renewed focus on safety and risk management. Remote monitoring and predictive maintenance solutions gained traction, while industries prioritized investments in critical infrastructure resilience. The pandemic also accelerated digitalization trends, fostering innovation in high-integrity pressure protection system technologies.
The electronic segment is expected to be the largest during the forecast period
The electronic segment is estimated to have a lucrative growth, as electronic systems enable real-time monitoring of pressure levels, valve positions, and other critical parameters in high-integrity pressure protection system. This allows for more precise control over the process, ensuring that pressure is maintained within safe limits and enabling quicker response to abnormal conditions enhancing operational flexibility and efficiency.
The field initiator segment is expected to have the highest CAGR during the forecast period
The field initiator segment is anticipated to witness the highest CAGR growth during the forecast period, Field initiators enable high-integrity pressure protection system to rapidly detect pressure deviations and initiate protective actions closer to the source of the anomaly. This results in quicker response times, reducing the likelihood of equipment damage and mitigating safety risks more effectively. This is particularly important in industries such as oil and gas, petrochemicals, and pharmaceuticals where adherence to safety regulations is paramount.
Asia Pacific is projected to hold the largest market share during the forecast period owing to the growing concern about the environmental impact of gas flaring and venting in the oil & gas industry. High-integrity pressure protection system can help to reduce flaring and venting by safely isolating equipment and releasing pressure in a controlled manner. Key players in this market typically offer a range of high-integrity pressure protection system solutions including valves, sensors, controllers, and software for monitoring and controlling pressure levels. These systems are often integrated into the overall process control and safety systems of industrial facilities to ensure reliable operation and compliance with safety regulations.
North America is projected to have the highest CAGR over the forecast period, as the region is experiencing rapid industrialization, particularly in sectors like oil & gas, chemicals, and power generation. This growth necessitates the construction of new refineries, chemical plants, and power plants, all of which require high-integrity pressure protection system for safe operation. Further governments in this region are implementing stricter regulations regarding industrial safety. These regulations mandate the use of safety instrumented systems (SIS) like high-integrity pressure protection system in high-pressure applications.
Key players in the market
Some of the key players in the High-Integrity Pressure Protection System Market include ABB Ltd, ATV Hipps, BEL Valves (British Engines Limited), Ceasefire Industries Pvt. Ltd, Electro Detectors Ltd, Emerson Electric Co., HIMA Paul Hildebrandt GmbH, Hochiki Corporation, L&T Valves Limited (Larsen & Toubro Limited), Mogas Industries Inc., Mokveld Valves BV, Napco Security technologies, Inc., PetrolValves SpA, Rockwell Automation, Schlumberger NV, Schneider Electric, SELLA CONTROLS Ltd, Severn Glocon Group , Siemens AG and Yokogawa Electric Corporation
In March 2024, ABB launches new share buyback program of up to $1 billion. The maximum number of shares that may be repurchased under this new program on any given trading day is 692,486.
In January 2024, ABB to acquire weather routing business to expand marine software portfolio, the transaction is subject to customary closing conditions as well as completion of applicable works councils' consultation procedures. It is expected to close during Q2 2024.
In October 2024, Emerson announced it has closed its acquisition of NI (Nasdaq: NATI), a leading provider of software-connected automated test and measurement systems, at an equity value of $8.2 billion.