市场调查报告书
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1149962
2022-2028 年能源领域物联网的全球市场规模和份额,按应用、网络技术(无线网络、蜂窝网络、卫星网络)、组件、组织规模、地区、展望和预测分列的行业趋势分析报告Global IoT in Energy Market Size, Share & Industry Trends Analysis Report By Application, By Network Technology (Radio Network, Cellular Network and Satellite Network), By Component, By Organization Size, By Regional Outlook and Forecast, 2022 - 2028 |
预测期内,全球能源领域的物联网市场规模预计将以 19.7% 的复合年增长率增长,到 2028 年达到 3574 亿美元。
通过结合可再生能源和能源效率,我们可以促进可持续的能源转型并防止气候变化。物联网将是一项颠覆性技术,将通过减少需求来推动能源行业的有益转型。物联网的应用包括能源供应、电力传输、发电、配电等。此外,物联网可用于提高能源效率、扩大可再生能源的使用并减少能源消耗对环境的影响。
COVID-19 影响分析
近年来,能源领域的物联网增长显着,预计这一趋势将在未来持续下去。特别是,物联网有望对能源行业产生重大影响。大流行证明物联网对能源行业非常有利,例如使用传感器监控室温和远程控制能源使用。这不仅有助于节约成本,也有助于可持续发展。
市场增长因素
物联网设备的集成提高了工业可靠性和生产力
环境可持续性和不断增长的需求是能源行业面临的最令人头疼的问题。随着物联网的使用越来越多,企业和个人可以使用此类设备和数据分析在保护环境方面发挥重要作用。物联网消除了浪费并提高了系统效率。将物联网技术引入商业建筑和家庭将能够监测和控制能源使用,从而减少能源需求并提高效率。
总体成本节约和改进的数据管理
能源行业的物联网 (IoT) 是一个复杂的过程,涵盖跨不同领域的消费模式规划和能源管理。这使管理员从一开始就可以完全控制他们的能源数据,从而极大地优化他们的运营。能源行业引入支持物联网的解决方案正在采用基于传感器的方法来实现行业运营自动化。这使我们能够通过实时数据管理和分析决策制定,最大限度地提高我们在这一领域的收益。
市场约束
与安全和自由裁量权相关的问题
随着物联网设备用途的扩大和发展,确保物联网设备收集和传输的数据安全变得越来越困难。儘管网络安全很重要,但物联网设备通常不包含在计划中。必须保护系统免受物理操作、基于网络的攻击、基于 Internet 的软件攻击和硬件攻击。在医疗保健和银行业等高度敏感领域采用物联网设备进一步引发了对数据安全的担忧。
应用展望
根据应用,能源领域的物联网市场分为石油和天然气、智能电网、煤炭开采等。 2021 年,煤炭开采行业在能源行业的物联网市场中占据了很大的收入份额。物联网 (IoT) 使煤炭开采变得更加容易。这项技术可以很容易地追踪矿工的行踪。物联网 (IoT) 技术还有助于监控整个采矿作业。
网络技术前景□□
基于网络技术,能源领域的物联网市场分为蜂窝网络、卫星网络和无线电网络。无线网络部分在 2021 年的能源领域物联网市场收入份额最高。 LPWAN 是目前看来合适的主要无线网络技术(低功耗广域网)。 LoRa 无线技术是一种开放的行业标准,应用广泛且易于访问。这项技术是“物联网”的基础。因此,预计该行业在预测期内将经历快速增长。
组件视角
能源领域的物联网市场在组件基础上分为解决方案和服务。 2021 年,服务部门在能源领域的物联网市场中占据了重要的收入份额。这是因为我们的服务提供了多种好处,提供高质量的加工和製造服务,同时保持最高的健康、安全和环境行业标准。预计这方面将推动能源领域物联网市场的增长。
组织规模展望
按组织规模,能源领域的物联网市场分为大型企业和中小型企业。大型企业部门在 2021 年占据了能源领域物联网市场的最大收入份额。在能源领域引入物联网将帮助大型公司利用可再生能源,提高工业效率并降低成本,将现有照明系统转换为节能解决方案,促进客户节能,并提供智能技术解决方案。它提供了多重好处市场,也在推动市场增长。
区域展望
按地区划分,分析了北美、欧洲、亚太地区和拉美地区的能源领域物联网市场。到 2021 年,亚太地区将在能源领域的物联网市场中占据重要的收入份额。这是物联网在能源领域日益普及以及物联网设备和技术的广泛使用推动该地区市场扩张的结果。技术进步推动了物联网 (IoT) 在亚太地区能源领域的扩张。
合作伙伴关係是市场进入者采取的主要策略。根据 Cardinal Matrix 中的分析;Google LLC 和 IBM Corporation 是能源市场的物联网先驱。英特尔公司、思科系统公司和埃森哲公司等公司是能源领域物联网市场的主要创新者。
The Global IoT in Energy Market size is expected to reach $357.4 billion by 2028, rising at a market growth of 19.7% CAGR during the forecast period.
The Internet of Things (IoT) platform comprises web-connected smart devices that gather, analyze, and maintain data utilizing sensors, communication hardware, and CPUs. IoT symbolizes a new production reality. By gathering, transferring, and combining vast quantities of data, IoT in the energy industry produces intelligent networks referred to as smart grid. Hence, it intelligently combines all network-connected assets, improves operations, and boosts system flexibility.
Therefore, it aids in the creation of new services, increases efficiency and production, addresses crucial issues, and enhances real-time decision making. In addition, the increased usage of IoT and AI in the energy business is expected to create attractive potential prospects for the market. In addition, the implementation of smart grid for energy optimization in residential, commercial, and industrial buildings will further accelerate the IoT in Energy Industry's growth throughout the forecast period.
Combining renewable energy and energy efficiency can facilitate sustainable energy transitions and prevent climate change. IoT becomes a disruptive technology which has facilitated a beneficial transformation in the energy sector by reducing demand. Internet of Things applications include energy supply, transmission, generation, and distribution, among others. In addition, IoT may be deployed to enhance energy efficiency, increase the use of renewable energy, and reduce the environmental effect of energy consumption.
COVID-19 Impact Analysis
The growth of IoT in the energy sector has been substantial in recent years, and this trend is anticipated to continue in the coming years. In particular, IoT is expected to have a significant influence on the energy industry. During the pandemic, IoT had proved extremely beneficial for the energy industry, with sensors allowing surveillance of room temperatures as well as remote control of energy use. This contributed not just to cost savings but also to sustainable development.
Market Growth Factors
Integration of IoT Devices Improves the Reliability and Productivity of Industry
Environmental sustainability and demand growth are the most troublesome concerns facing the energy business. With increased IoT usage, enterprises and individuals can do a great deal to protect the environment using such devices and data analytics. IoT reduces waste and increases system efficiency. The deployment of IoT technology in business and residential buildings enables the monitoring and control of energy use, hence reducing their energy demand and increasing their efficiency.
Reduction in the Overall Cost and Improvement in Data Management
The Internet of Things (IoT) in the energy industry is a sophisticated procedure that encompasses planning & energy management of consumption patterns across different domains. It enables managers to take total control of energy data from inception and considerably optimize the operation. Implementing an IoT-enabled solution in the energy industry employs sensor-based approaches to automate the industry's operations. This has maximized the sector's benefits through real-time data management and analytical decision-making.
Market Restraining Factors
Problem Associated With Security and Discretion
Maintaining the data collected and transferred by IoT devices secure is difficult as their use expands and evolves. Despite the importance of cybersecurity, IoT devices are not usually incorporated in the plan. Systems must be safeguarded against physical manipulation, network-based attacks, internet-based software assaults, and hardware attacks. The adoption of IoT devices in highly sensitive areas, like healthcare and banking, raises additional concerns regarding data security.
Application Outlook
Based on application, the IoT in energy market is classified into Oil & Gas, Smart Grid, Coal Mining and Others. The coal mining segment registered a significant revenue share in the IoT in energy market in 2021. The internet of things (IoT) has facilitated coal mining. With this technology, it is simple to track the whereabouts of miners. The internet of things (IoT) technology also aids in monitoring the entire mining operation.
Network Technology Outlook
On the basis of network technology, the IoT in energy market is divided into Cellular Network, Satellite Network, and Radio Network. Radio Network segment recorded the highest revenue share in the IoT in energy market in 2021. LPWAN is the principal radio network technology which appears to be suited (Low Power Wide Area Network). LoRa radio technology refers to an open industry standard that is widely accessible owing to its widespread use. This technology is the foundation for the "Internet of Things". Thus, this segment would witness a surge in growth over the forecast period.
Component Outlook
On the basis of component, the IoT in energy market is bifurcated into Solutions and Services. The services segment recorded a significant revenue share in the IoT in energy market in 2021. This is due to the multiple benefits given by services that provide high-quality machining & manufacturing services whilst also keeping the highest industry standards for health, safety, and the environment. This aspect is anticipated to drive the growth of the IoT market in the energy sector.
Organization Size Outlook
By organization size, the IoT in energy market is segmented into Large Enterprises and SMEs. Large enterprises segment garnered the maximum revenue share in the IoT in energy market in 2021. IoT adoption in energy offers multiple advantages to large enterprises, including renewable energy source, increased industry efficiency and cost reduction, conversion of existing lighting systems to energy-efficient solutions, facilitation of energy savings for customers, and provision of smart technology solutions, that also fuels market growth.
Regional Outlook
Region-wise, the IoT in energy market is analyzed across North America, Europe, Asia Pacific and LAMEA. Asia Pacific acquired a significant revenue share in the IoT in energy market in 2021. This is a result of more IoT penetration in the energy sector and greater use of IoT devices and technologies that drives market expansion in the area. The expansion of the internet of things (IoT) in the Asia-Pacific energy sector is being pushed by technical advances.
The major strategies followed by the market participants are Partnerships. Based on the Analysis presented in the Cardinal matrix; Google LLC and IBM Corporation are the forerunners in the IoT in Energy Market. Companies such as Intel Corporation, Cisco System, Inc. and Accenture PLC are some of the key innovators in IoT in Energy Market.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Accenture PLC, IBM Corporation, Cisco Systems, Inc., Hewlett-Packard Enterprise Company, Intel Corporation, SAP SE, Schneider Electric SE, Robert Bosch GmbH, Google LLC and HCL Technologies Ltd. (HCL Enterprises)
Recent strategies deployed in IoT in Energy Market
Partnerships, Collaborations & Agreements
May-2022: Intel joined hands with Ericsson, a Swedish multinational networking and telecommunications company. This collaboration aimed to boost the adoption of Cloud RAN solutions and provide insights into Cloud RAN designs, which would help in technology investment decisions.
May-2022: HCL Technologies joined hands with SAP, a German multinational software company. Under this collaboration, HCL Technologies' experience in allowing Industry 4.0 and connected business transformation programs, when coupled with SAP's expertise in complementing IoT applications within development and deployment, stands to support the customers in fueling sustainable business transformation and growth.
May-2022: Google Cloud came into a partnership with Saule Technologies, a nanotechnology company. This partnership aimed to create new products utilizing perovskite solar cells and solutions in the field of distributed energy and IoT (Internet of Things).
Mar-2022: Schneider Electric came into a collaboration with NTT, a Japanese telecommunications company. This collaboration aimed to provide Private 5G (P5G), which is an on-premise private network solution and digitization-allowing platform that would significantly advance digital solutions in the manufacturing environment.
Dec-2021: IBM collaborated with Samsung Electronics, a South Korean multinational electronics corporation. This collaboration aimed to jointly introduce a breakthrough in semiconductor design using a new vertical transistor architecture.
Apr-2021: Accenture extended its partnership with SAP SE, a German multinational software company. This partnership aimed to assist organizations to embed sustainability across the full spectrum of their business operations. Integrating SAP technology with Accenture's Sustainability Services and broad industry knowledge, the companies would together develop new solutions that would empower companies to boost their progress on fully de-carbonizing their supply chains.
Feb-2021: IBM teamed up with Siemens and Red Hat. This collaboration aimed to utilize a hybrid cloud developed to provide an open, flexible, and more secure solution for manufacturers and plant operators to fuel real-time value from operational information.
Jan-2021: IBM extended its collaboration with Atos, a global leader in digital transformation. This collaboration aimed to assist the client to boost the digital transformation and optimize business procedures. Together, the companies would address business challenges to serve the Manufacturing, Oil and Gas, Energy and Utilities, Retail, and Transportation sectors.
Product Launches
Sep-2022: IBM unveiled the Next Generation of LinuxONE Servers. These servers are developer to decrease energy consumption. Through this launch, IBM expanded its capabilities to assist customers across industries, including Citibank, to reach sustainability targets.
Jun-2022: HCL Technologies launched NeXT, a transformational framework. This framework developed to assist customers in digitally reinventing their companies. Industry NeXT components comprise Supply Chain NeXT, Product NeXT, Aftermarket NeXT, Manufacturing NeXT, and Facility & Sustainability NeXT.
Apr-2022: Accenture unveiled sovereign cloud practice. A sovereign cloud is an approach, which would allow companies to manage the location, access to and processing of their data in a cloud environment in response to the latest, rising industry standards and compliance needs in certain nations or sectors.
Oct-2021: Schneider Electric launched EcoStruxure Power. This product is developed to assist in minimizing power downtime, proactively safeguarding critical infrastructure and equipment from the dangers of electrical failures, and to enable better integration of clean renewable energy.
May-2021: Robert Bosch Engineering and Business Solutions (RBEI) introduced the new Phantom Edge, an IoT platform. This platform aimed to integrate the power of Artificial Intelligence and the Internet of Things to offer a real-time view of electrical energy consumption, electrical parameters, operating usage, and appliance-level information.
Mergers & Acquisition
Dec-2021: Accenture took over Zestgroup, a services firm specializing in energy transitions. This acquisition aimed to enhance its energy transition and net zero emissions information portfolio.
Market Segments covered in the Report:
By Application
By Network Technology
By Component
By Organization Size
By Geography
Companies Profiled
Unique Offerings from KBV Research
List of Figures