市場調查報告書
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全球公用事業通信市場:到 2028 年的預測——按技術、按公用事業、按組件、按應用、按最終用戶、按地區Utility Communication Market Forecasts to 2028 - Global Analysis By Technology, Utility, Component, Application, End User and Geography |
根據 Stratistics MRC 的數據,2022 年全球公用事業通信市場規模將達到 175.9 億美元,預計到 2028 年將達到 453.7 億美元,預計將以 17.1% 的複合年增長率增長.
公用事業通信是在公用事業運營商和最終消費者之間在網絡的所有分佈式數據點建立雙向通信所採取的步驟。 這使得實時數據傳輸到控制中心、控制和監控電網設備以及測量電網性能成為可能。 電力線載波、光纖、以太網、微波和無線通信只是可用於石油和天然氣行業傳輸和分配網絡的公用事業通信技術中的幾種。 公用事業通信市場可實現與基礎設施的更快、更可靠且更具成本效益的連接,從而降低運營成本、減少客戶投訴並節省能源。
根據 IEA 的數據,可再生能源容量預計將在未來五年快速增長,到 2026 年將佔全球電力容量增長的 95% 左右。 根據聯合國的一份報告,到 2025 年,將有 18 億人生活在絕對缺水的國家和地區,對包括糧食安全在內的多個領域構成重大威脅。
需要公用事業通信技術來提高配電網的可靠性。 使用傳感器、處理器、通信網絡、交換機等收集、自動化、分析和優化數據,以提高配電系統的運行效率。 自動穩壓器可幫助公用事業公司降低峰值負載、充分利用當前資源並提高電力可靠性。 公用事業通信系統可幫助電網運營商有效地利用維修人員、減少上門服務並根據實時數據最大限度地遠程操作。 因此,公用事業通信使公用事業能夠更快地恢復服務、減少污染物排放並保持高水平的運營效率和可靠性。
互操作性是指兩個或多個網絡、系統、設備、用途或組件安全、有效地共享信息並輕鬆使用信息而不會引起用戶不適的能力。這對於電網現代化至關重要。 電力系統互操作性是硬件和軟件的無縫端到端互連,從客戶端設備通過配電和傳輸系統再到電源,以更好地協調實時信息和分析流與能源流。就是這樣。 設備多樣化部署的最大障礙之一是缺乏普遍接受的通信標準以及各種 IT 協議和通信系統組件的不兼容。 數據管理和存儲也是一個問題。 大多數解決方案提供商面臨的挑戰是從網絡各個節點提供的大量數據中識別非定量數據。
在城市地區,智慧城市的發展正在推進,以促進可持續的經濟增長。 全球已有 100 多個智慧城市項目在進行中,這對科技公司、服務提供商、公用事業提供商和諮詢公司來說前景廣闊。 智慧城市的成功取決於提供不間斷供電的配電網,這是傳統電網由於其高效率要求而無法實現的。 因此,預計智能城市需要公用通信來提供穩定的電力供應。 電力服務的效率、質量、可靠性、安全性和保障性都通過公用事業通信得到改善。 節能和儲能等新興需求也為公用事業通信帶來了有利的市場前景。
COVID-19 疫情抑制了需求並減緩了石油和天然氣行業的擴張,導致油價下跌。 封鎖影響了一些國家,當局在全國范圍內實施封鎖。 結果,運輸和相關行業大幅萎縮,影響了對石油和天然氣的需求。 由於全球停工和相關供應鏈問題,COVID-19 的傳播也將對用於公用事業通信的現場設備生產商產生不利影響。 由於供應短缺,預計原材料價格也將上漲,最終推遲訂單截止日期。
2020 年的公用事業通信將感受到冠狀病毒的一部分危害,它已經對地球產生了負面影響。 2019 年 12 月,世界衛生組織針對 COVID-19 病毒爆發發布了公共衛生緊急聲明。 這種疾病已經蔓延到 100 多個國家,並在全世界造成大量死亡。 全球旅遊業、進出口、銀行業和製造業都遭受重創。 全球經濟的下行壓力,最初表明有改善的潛力,正在再次增加。 緩慢擴張的經濟的一個危險因素已經被病毒大流行放大了。
據估計,公共部門的增長利潤豐厚,成為壟斷企業的主要動機是通過提供價格具有競爭力的服務來更好地服務於客戶。 為了提高業績,這些公司還獲得了一些特權。 上市公司需要大量的資本投資,而這些投資主要以固定資產的形式出現。
由於寫字樓、商店、市政大樓、數據中心、學校、醫院、體育館、倉庫等商業設施的快速擴張和發展,商業領域對公用事業通信的需求不斷增加,預計2020 年以最快的複合年增長率增長。 商業設施可以通過使用公用通信系統有效地管理峰值負載和功耗來減少能源支出。 因此,預計零售類別在預測期內的複合年增長率最高。
由於人口不斷增長和製造業蓬勃發展,預計亞太地區在預測期內將佔據最大的市場份額。 因此,發展中國家正在積極投資矩陣擴展項目,以提高撥款組織的可信度和適應性。 當地經濟的重點是增加可再生能源的生產。 區州行政部門還可以快速更新過時的電力系統,並將公用事業交換系統集成到網絡中,以實現持續監控、減少停電、跟蹤使用情況以及矩陣無限能源。 預計這些因素將擴大該地區的公用事業市場。
由於公司採用更多技術解決方案,歐洲對先進通信解決方案的需求不斷增長,預計歐洲在預測期內的複合年增長率最高。 此外,海上鑽井的擴張為歐洲市場擴張提供了有利機會。 這些因素極大地促進了歐洲公用事業通信部門的擴張。
公用事業通信市場的主要參與者包括: ABB、Honeywell International Inc.、Yokogawa、Hitachi、Azbil、General Electric、Schneider Electric、Metso Corporation、Emerson、Rockwell Automation、Toshiba、Siemens、Black & Veatch Holding、Itron、Telefonaktiebolaget LM Ericsson、Nokia、Fujitsu、 Sensus(賽萊默)和摩托羅拉解決方案。
2022 年 6 月,諾基亞與西班牙無線基礎設施和服務公司 Cellnex Telecom 展開合作。 該合作夥伴關係旨在促進一系列行業的數字化轉型。
2022 年 6 月,GE Digital 與氣象技術公司 Climavision 合作。 該合作夥伴關係旨在幫助 GE Digital 的公用事業客戶增強他們預測天氣的能力,並更好地計劃應對更嚴重的風暴。
2022 年 6 月,施耐德電氣與輸配電和電網自動化解決方案領域的技術領導者 Hitachi Energy 展開合作。 通過此次合作,兩家公司旨在提供更好的客戶價值並加速能源轉型。 此外,我們希望這種合作能夠確保在客戶的運營生命週期中受益。
2022 年 5 月,Itron 與製造計算機軟件和消費電子產品的科技公司 Microsoft 合作。 此次合作將微軟領先的雲解決方案與 Itron 領先的能源管理解決方案相結合,以轉變最終用戶管理和查看能源的方式,並幫助公用事業滿足快速變化的行業需求。你必須改變你的方法。
2021 年 12 月,富士通與從事提供設備、解決方案和服務的能源領導者 GE 簽訂了協議。 該協議將結合富士通的系統集成、運營服務和維護與 GE 在電網資產性能管理方面的 OEM 專業知識,全力支持輸配電公司創建和完成數字化項目。
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According to Stratistics MRC, the Global Utility Communication Market is accounted for $17.59 billion in 2022 and is expected to reach $45.37 billion by 2028 growing at a CAGR of 17.1% during the forecast period. Utility communications are the steps taken to set up two-way communication between utility and end consumers across all of the network's distributed data points. It enables real-time data transfer to control centres, the control and monitoring of grid equipment, and the measurement of electric network performance. Power line carrier, fibre optics, ethernet, microwave, and radio communications are just a few of the utility communication technologies that can be used in the Oil & Gas sectors' transmission and distribution networks. The utility communications market makes it possible to connect with quicker, more reliable, and cost-effective infrastructure, which results in lower operational costs, fewer customer complaints, and more energy conservation.
According to the IEA, renewable energy capacity is anticipated to grow at a rapid pace in the following five years, accounting for about 95% of the increase in global power capacity by 2026. According to the UN report, by 2025, 1.8 billion people will be living in countries or regions with absolute water scarcity and that poses a major threat to several sectors including food security.
In order to increase the reliability of the electricity distribution network, utility communication technologies are needed. To increase the operational effectiveness of power distribution systems, data is collected, automated, analysed, and optimised using sensors, processors, communication networks, and switches. Automated voltage regulators aid electric utilities in lowering peak loads, making the most of their current resources, and enhancing power reliability. Utility communication systems assist grid operators in utilising repair workers effectively and reducing truck rolls based on real-time data to maximise operations remotely. As a result, implementing utility communication enables utilities to restore service more quickly, emit less pollution, and maintain high levels of operational efficiency and dependability.
The capacity of two or more networks, systems, devices, applications, or components to share and easily use information safely and effectively without the user experiencing any discomfort is known as interoperability, and it is vital for grid modernization. Interoperability in electric power systems is the seamless, end-to-end interconnection of hardware and software from client appliances via distribution and transmission systems to the power source to improve the coordination of energy flow with real-time information and analysis flow. One of the biggest obstacles to the deployment of diverse devices is the lack of a universally accepted communication standard, as well as the incompatibility of various IT protocols and communication system components. Data management and storage is another problem. The difficulty that the majority of solution providers are dealing with is identifying non-quantifiable data from the enormous volume of data provided by various nodes of the network.
Urban areas are developing smart cities to foster sustainable economic growth. There are already more than 100 smart city projects underway throughout the globe, which present enormous prospects for tech firms, service providers, utility providers, and consulting firms. An uninterrupted power supply distribution network, which the traditional grid cannot deliver due to the high level of efficiency required, is a crucial component of the success of smart cities. As a result, utility communication is expected to be necessary for smart cities to have a reliable electricity supply. Electric service efficiency, quality, dependability, safety, and security are all improved through utility communication. New requirements like energy conservation and storage also present profitable market prospects for utility communications.
The COVID-19 epidemic has slowed the expansion of the oil and gas sector by lowering demand and, as a result, the price of oil. Lockdowns affected the nations, and the authorities imposed them all throughout the country. As a result, transportation and allied industries have experienced a significant reduction, which has had an effect on the demand for oil and gas. Due to the global shutdown and related problems along the supply chain, the spread of COVID-19 is also likely to have a negative impact on the producers of field devices used in utility communication. Due to the lack of supply, it is also anticipated that raw material prices would rise, which will ultimately cause order closures to be delayed.
Utility communications in 2020 will feel some of the harmful effects of the coronavirus, which are already having an adverse influence on the planet. The World Health Organization issued a public health emergency declaration in response to the COVID-19 virus epidemic in December 2019. The disease has spread to more than 100 countries, resulting in a huge mortality toll on a global scale. Global tourism, export-import, banking, and manufacturing all experienced significant losses. After initially demonstrating the potential for improvement, the downward pressure on the global economy has once more grown. The dangerous elements of the slowly expanding economy have already expanded due to the viral pandemic.
The public segment is estimated to have a lucrative growth, whose primary motivation in becoming monopoly businesses is to better serve their customers by offering competitively priced services. In order to enhance their performance, these concerns are also given a few extra privileges. Large capital investments are needed for public utility companies, and these investments primarily take the form of fixed assets.
The commercial segment is anticipated to witness the fastest CAGR growth during the forecast period, due to the demand for utility communication in the business sector has been driven by the quick expansion and development of commercial facilities, including office buildings, shops, municipal buildings, data centres, schools, hospitals, gymnasiums, and warehouses among others. Commercial buildings can reduce their energy expenditures by effectively managing peak load and power consumption through the use of utility communication systems. As a result, it is predicted that the commercial category would have the highest CAGR during the forecast period.
Asia Pacific is projected to hold the largest market share during the forecast period owing to its growing population and sizable manufacturing base. As a result, the developing nations are actively investing in matrix extension projects to improve the dependability and adaptability of appropriation organisations. Local economies are heavily focused on increasing the amount of renewable energy production. In addition, the district's state-run administrations are quickly updating its outdated power system and integrating utility exchange systems into the network to enable continuous monitoring, reduce blackouts, track usage, and integrate infinite energy sources into the matrix. These factors are anticipated to support the extension of the utilities correspondence market in the district.
Europe is projected to have the highest CAGR over the forecast period, owing to the demand for advanced communication solutions is rising in Europe as a result of enterprises adopting more technological solutions. Additionally, the expansion of offshore drilling operations provides an opportunity for market expansion in Europe. These elements significantly contribute to the expansion of the utility communications sector in Europe.
Some of the key players profiled in the Utility Communication Market include: ABB, Honeywell International Inc., Yokogawa, Hitachi, Azbil Corporation, General Electric, Schneider Electric, Metso Corporation, Emerson, Rockwell Automation, Toshiba, Siemens, Black & Veatch Holding, Itron, Telefonaktiebolaget LM Ericsson, Nokia, FUJITSU, Sensus (Xylem) and Motorola Solutions.
In June 2022 Nokia came into collaboration with Cellnex Telecom, a Spanish wireless telecommunications infrastructure, and services company. This partnership is aimed to promote digital transformation across a series of industries.
In June 2022, GE Digital partnered with Climavision, a weather technology company. The partnership is made to support GE Digital's electric utility customers to enhance their capability to forecast weather and good plan for worse storm events.
In June 2022, Schneider Electric came into collaboration with Hitachi Energy, a technology leader in transmission, distribution, and grid automation solutions. Through this collaboration, both companies aim to offer better customer value and boost the energy transition. Additionally, the company assumes this collaboration would ensure benefits for customers in their operational life cycle.
In May 2022, Itron, Inc., collaborated with Microsoft, a technology corporation producing computer software, and consumer electronics. Under this collaboration, companies would combine Microsoft's leading cloud solutions and Itron's leading energy management solutions to change the way end users manage and look at their energy and how utilities address the requirements of a quickly transforming industry.
In December 2021, Fujitsu signed an agreement with GE, an energy leader engaged in offering equipment, solutions, and services. Under this Agreement, Companies combine Fujitsu's system integration, operation services, and maintenance and GE's OEM expertise in grid asset performance management to deliver Transmission & Distribution utilities full support in creating and finalizing their digitalization projects.
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