市场调查报告书
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智能电网传感器全球市场规模、份额、行业趋势分析报告:按应用、按类型(电压/温度传感器、停电检测、其他)、展望和地区预测,2022-2028 年Global Smart Grid Sensors Market Size, Share & Industry Trends Analysis Report By Application, By Type (Voltage & Temperature Sensors, Outage Detection and Others), By Regional Outlook and Forecast, 2022 - 2028 |
到 2028 年,智能电网传感器的全球市场规模预计将达到 9.138 亿美元,预计该市场在预测期内将以 15.8% 的复合年增长率增长。
智能电网系统可以自动跟踪各地的用电量。 能源管理软件和电网架构也可用于估算公司的能源使用情况和成本。 需求通常会推高电价。 智能电网能源管理系统为用户提供有关当前能源使用情况和能源成本的信息,帮助他们在高成本高峰需求期间减少消耗。
与电网发展相关的多项举措在全球范围内势头迅猛。 现代能源网络使传统能源与可再生能源和储能相结合成为可能。 例如,美国能源部 (DOE) 电网现代化计划已宣布计划开发未来的先进电网。 该部正在与多个公共和私人合作伙伴合作,以构建评估、测量、预测和监管智能电网所需的工具和技术。
COVID-19 影响分析
COVID-19 迫使智能电网传感器领域做出具有直接和长期影响的选择。 然而,COVID-19 对智能电网传感器市场的负面影响预计是短期的。 另一方面,随着整个工业部门对数字解决方案的需求增长,预计市场将在 2022 年年中强劲復苏。 此外,当前的大流行预计将增加对高端测试解决方案的需求,从而在市场上创造潜在机会。
市场增长因素
政府政策和有利于市场增长的政策
这些技术有望促进长期经济增长并帮助政府实现其碳减排目标,越来越多地得到各国政府的资助。我来了。 然而,一些国家已经引入了净能量计量协议和设备,而另一些国家仍在研究这项技术和机制。 这将开闢有利可图的商业前景。 例如,印度财政部长在2020年表示,政府计划在三年内将所有传统电錶更换为智能电錶。 世界各国政府推出的这些政府计划促进了市场扩张。
电动汽车销量上升推动市场增长
电动汽车 (EV) 有朝一日将超越内燃机的未来将需要更好的电网技术,而增加的容量可能有助于抑制能源消耗的峰值。. 为了实现更智能的电网,电网基础设施必须配备可靠的蜂窝连接。 此外,您应该使用物联网传感器。 与上文提到的 DERMS 类似,这是一种智能需求响应等,可以在 EV 充电高峰期间平衡负载,甚至自动将不必要的高峰檔位转移到一天中的其他时间。有助于解锁新的能源管理机会。
市场製约因素
引入智能电网技术的初始成本高
市场增长预计将受到这些电网系统高投资成本的限制。 客户和高级电网之间的电网必须使用这些技术来构建,这些技术最初很昂贵。 即使在安装之后,高昂的运营和维护成本仍然是电力供应商关注的主要问题。 印度、墨西哥和巴西是基础设施薄弱且系统升级成本高昂的发展中国家的例子。
按类型划分的前景
根据类型,智能电网传感器市场分为电压和温度传感器、断电检测等。 停电检测细分市场将在 2021 年占据可观的收入份额。 私营公司可以通过使用智能电錶查看其基础设施或家中是否发生停电,从而避免不必要且代价高昂的上门服务。 通过从智能电錶收集数据,公用事业可以快速识别和纠正公用事业问题。 智能电錶可识别通常由极端天气引起的嵌套问题。 好处包括通过减少驾驶距离来提高工人的安全性和减少车辆的碳足迹,尤其是在恶劣天气下。
使用展望
根据应用,智能电网传感器市场分为高级计量基础设施、智能电网配电管理、监控和数据采集、智能电錶等。 2021 年,监督控制和数据采集部门将占据很大的收入份额。 SCADA 系统用于调节和监控构成现代社会基础的系统的物理过程示例,例如电力传输、石油和天然气通过管道的流动、交通信号灯和配水。。
区域展望
按地区划分,智能电网传感器市场分为北美、欧洲、亚太地区和 LAMEA。 由于亚太地区专注于这些技术的传播和可再生能源的扩张,目前亚太地区的收入份额最大。 例如,印度政府的智能电錶国家计划已承诺到 2020 年 2 月在全国安装 100 万个智能电錶 (SMNP)。 中国、印度、澳大利亚、日本和韩国等国家也为该地区的繁荣做出了重大贡献,而中国最有可能成为这一发展的领导者。
The Global Smart Grid Sensors Market size is expected to reach $913.8 Million by 2028, rising at a market growth of 15.8% CAGR during the forecast period.
A smart grid sensor gathers information about the electrical power infrastructure. These sensors can measure various variables, including voltage, temperature, current, and power use. The data collected by these sensors may be utilized to improve the electric power grid's effectiveness, dependability, and security. In addition, smart grid sensors have an Internet connection that enables the data they gather to be sent to a distant location for monitoring and analysis.
In order to find patterns and abnormalities in the data, some smart grid sensor systems utilize sophisticated analytics and machine learning algorithms. This may assist utilities in identifying and preventing problems like power outages and equipment breakdowns. Enterprises, retail establishments, hospitals, colleges, and international businesses may all benefit from smart grid technology.
The smart grid system is automated to track how much power is used everywhere. Energy management software and grid architecture are sometimes used to estimate an enterprise's energy use and costs. In general, demand drives up power rates. Smart grid energy management systems assist in reducing consumption during high-cost, peak-demand periods by giving users information about current energy usage and energy costs.
Across the globe, several efforts related to grid advances are gathering steam. Modern energy networks make it possible to combine conventional energy sources with renewables and energy storage. For instance, the Grid Modernization Initiative of the US Department of Energy (DOE) has declared plans to develop the advanced grid of the future. The department collaborates with several public and commercial partners to build the tools and technology required to evaluate, measure, anticipate, and regulate the smart grid.
COVID-19 Impact Analysis
COVID-19 has mandated that the smart grid sensors sector make choices that have both immediate and long-term effects. Yet, it's anticipated that COVID-19's detrimental impact on the market for smart grid sensors would only last a short while. On the other hand, by mid-2022, the market is expected to have a strong rebound due to the widespread demand for digital solutions across industrial sectors. Also, the current pandemic is anticipated to increase demand for high-end testing solutions, creating a potential opportunity for the market.
Market Growth Factors
Government policies and regulations that are favorable to market growth
While these technologies are predicted to promote long-term economic growth and assist governments in meeting their carbon emission reduction goals, they are increasingly being funded by various governments. However, some nations have net energy metering protocols and equipment, while others are still researching the technology and its workings. This is likely to open up lucrative business prospects. For instance, the Indian Finance Minister said in 2020 that the government plans to switch to smart power meters in three years to replace all conventional ones. These government programs launched by governments of various nations worldwide promote market expansion.
Increase in electric car sales to boost market growth
A future where electric vehicles (EVs) might someday outnumber internal combustion engines would need better grid technology, while increasing capacity may assist with peak energy consumption. In order to achieve a more intelligent grid, grid infrastructure must be equipped with dependable cellular connectivity. Additionally, Internet of Things (IoT) sensors must be used, as they can help unlock new energy management opportunities such as intelligent demand response, which can help balance the load during peak EV charging times and even automatically shift non-essential gears from peak demand periods to other times of the day, as well as the aforementioned DERMS.
Market Restraining Factors
High initial costs for smart grid technologies adoption
The market growth is anticipated to be constrained by the high investment cost of these grid systems. The transmission network between the clients and the advanced grid must be put up using these technologies, which initially requires significant expenditures. After implementation, high operations and maintenance costs are a major worry for power suppliers. India, Mexico, and Brazil are examples of developing nations with poor infrastructure that need substantial expenditures to update their systems.
Type Outlook
Based on the type, the smart grid sensors market is segmented into voltage & temperature sensors, outage detection, and others. The outage detection market segment garnered a significant revenue share in 2021. Utility companies may avoid needless and costly truck rolls by using smart meters to verify whether an outage occurs on their infrastructure or at a private house. Utilities can swiftly identify and fix utility-side issues by collecting data from smart meters. Smart meters determine the nested problems often brought on by extreme weather. Advantages include less miles driven, particularly during bad weather, which enhances worker safety and lowers vehicle carbon emissions.
Application Outlook
Based on application, the smart grid sensors market is divided into Advanced Metering Infrastructure, Smart Grid Distribution Management, Supervisory Control and Data Acquisition, Smart Energy Meters, and Others. The supervisory control and data acquisition department obtained a sizeable revenue share in 2021. A few examples of the physical processes that SCADA systems are used to regulate and monitor include the transmission of electricity, the flow of gas and oil through pipelines, traffic lights, the distribution of water, and other systems that serve as the foundation of contemporary society.
Regional Outlook
Based on region, the Smart Grid Sensors Market is divided into North America, Europe, Asia Pacific, and LAMEA. Due to the widespread use of these technologies and a strong emphasis on expanding renewable energy, Asia Pacific now accounts for the largest revenue share in the market. For instance, the Smart Meter National Plan of the Indian Government declared in February 2020 that 1 million smart meters will be installed throughout the nation (SMNP). In addition, countries like China, India, Australia, Japan, and South Korea are significant contributors to the region's prosperity, with China being the most likely leader in such deployment.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include General Electric Company (GE Grid Solutions), Siemens Energy AG, ABB Group, Renesas Electronics Corporation (Echelon Industries Corporation), Aclara Technologies LLC. (Hubbell Incorporated), Landis+Gyr Group AG, Itron, Inc., S&C Electric Company, Trilliant Holdings, Inc., and Sentient Energy, Inc. (Koch Engineered Solutions) (Koch Industries, Inc.)
Strategies Deployed in Smart Grid Sensors Market
Feb-2023: GE Digital came into collaboration with Amazon Web Services, a subsidiary of Amazon that provides on-demand cloud computing platforms and APIs to individuals, companies, etc. Under this collaboration, both organizations would be able to provide the latest smart grid orchestration solutions. Moreover, GE Digital would be able to give a new GridOS, a grid operating software platform, and cloud-enabled solutions that are crafted to be quicker, and secure, and help lower infrastructure and operational costs for energy organizations.
Jan-2023: Landis+Gyr Technology Inc, signed an agreement with the National Grid of Massachusetts. Under this agreement, Landis+Gyr Technology Inc would be providing a total of 1.4 million grid sensors for a next-generation advanced metering infrastructure (AMI) project in Massachusetts.
Dec-2022: GE Grid Solutions came into partnership with LineVision, Inc., a climate tech company. Under this partnership, both organizations would be able to sell utilities that are the world's first integrated suite of grid-enhancing technologies which is used to improve transmission capability on living infrastructure.
Nov-2022: GE Renewable Energy's Grid Solutions business unveiled the new 123kV, 16.7Hz HYpact switchgear. This new 123kV, 16.7Hz HYpact switchgear is an element of the EU-funded IN2STEMPO project which is a digital hybrid compact switchgear and is the first of its kind. Additionally, this new product makes the unpredictability of the electrical network more predictable along with lowering the customer's operational costs.
Nov-2022: Siemens Smart Infrastructure came into partnership with OverIT, the global leader in field service management. Under this partnership, Siemens Smart Infrastructure would be able to strengthen its portfolio ecosystem, also allowing regular growth in distributed renewable energy by combining information from all necessary parts of the converging OT/IT landscape.
Apr-2022: Siemens Energy unveiled CAREPOLE. CAREPOLE is an ingenious dry-type single-phase transformer for pole applications. Additionally, it is prepared for the technological needs of the American grid and the new cast-resin diffusion transformer delivers a trustworthy and sustainable option to oil-filled transformers.
Jan-2020: Siemens Ltd. took over C&S Electric Limited, a leading manufacturer of electrical and electronic equipment in India. Through this acquisition, Siemens Ltd. would strengthen its standing as a critical supplier of electrical installation technology and low-voltage power distribution in one of the world's rapidly expanding economies.
Apr-2019: S&C Electric Company unveiled Scada-Mate SD Switching System. The new Scada-Mate SD Switching System is a non-SF6 environmentally friendly solution developed to enhance dependability while lowering greenhouse gases on the distribution grid. Additionally, this switching system utilizes vacuum interrupters to extinguish electrical arcs that replace the SF6 gas interrupters operated in the previous products of the same product line.
Market Segments covered in the Report:
By Application
By Type
By Geography
Companies Profiled
Unique Offerings from KBV Research
List of Figures