市场调查报告书
商品编码
1467739
2024-2032 年按技术、组件、应用和地区分類的能量收集系统市场报告Energy Harvesting System Market Report by Technology, Component, Application, and Region 2024-2032 |
IMARC Group年,全球能量收集系统市场规模达到 5.412 亿美元。对绿色能源解决方案和减少温室气体排放的日益关注、技术进步和设备小型化、无线感测器网路(WSN)的增长以及政府支持性政策的实施是推动市场的一些主要因素。
能量收集系统是指将环境中的能量转化为电能的创新技术。这些系统可作为小型电子设备的自我永续电源解决方案,消除对传统电池或有线电源的需求。它们由多个组件组成,例如能量感测器、储存单元和电源管理电路。能量收集系统广泛应用于无线感测器网路 (WSN)、穿戴式装置、医疗植入物、远端监控仪器和物联网 (IoT) 装置。他们透过利用再生能源提供永续电力解决方案,从而减少对不可再生资源的依赖并最大限度地减少对环境的影响。
全球快速城市化,加上随后对智慧、节能基础设施的需求,正在显着推动市场成长。此外,智慧家庭和城市中广泛的系统集成为负责自动化和监控的各种感测器和系统提供动力,这对市场成长产生了积极影响。除此之外,智慧电网基础设施中为分散式感测器网路供电并提高能源分配效率的系统利用率不断提高,也是另一个成长诱导因素。此外,向工业 4.0 和自动化的逐步转变正在促进系统需求,为用于预测性维护、品质控制和资料收集的行业中的无线感测器和物联网设备供电。除此之外,由于人们越来越关注医疗设备和植入物的小型化,医疗保健产业也越来越多地采用系统,这对市场成长产生了积极影响。其他因素,包括交通系统利用率的提高、先进能量收集系统开发投资的增加以及智慧城市计划的数量不断增加,预计将推动市场成长。
人们越来越关注绿色能源解决方案和减少温室气体排放。
在气候变迁问题和政府政策的推动下,对永续能源解决方案的日益推动正在推动对能量收集系统的需求。由于这些系统利用太阳能、热能和动能等再生能源,因此它们成为绿色能源组合不可或缺的一部分。此外,它们最大限度地减少了对传统能源(例如化石燃料)的依赖,众所周知,化石燃料是温室气体(GHG)排放的贡献者。此外,《巴黎协定》等全球倡议迫使各国降低碳足迹,进而刺激能量收集系统等节能技术的部署。此外,世界各国政府提供激励措施和补贴来促进再生能源的使用,这进一步推动了市场的成长。
技术的进步和设备的小型化
电子设备持续的小型化趋势极大地推动了对能量收集系统的需求。随着设备尺寸不断缩小,对紧凑、高效电源解决方案的需求变得至关重要。这在物联网 (IoT) 和穿戴式技术应用中表现得尤为明显,其中设备必须在充满挑战的环境中长时间可靠运作。此外,技术的快速进步使得能够开发出更有效率的能量采集器,能够为这些设备提供足够的电力。同时,奈米技术的创新使得能量采集器的性能特征和可靠性得到改善,这有利于整合到小型化设备中。技术和设备小型化的发展开启了广泛的应用领域,刺激了能量收集系统市场。
无线感测器网路的发展
无线感测器网路 (WSN) 在各行业的日益普及正在推动能量收集系统市场的发展。这些网路由空间分布的自主感测器组成,用于监视物理或环境条件并透过网路将其资料传输到中央位置。无线感测器网路广泛应用于农业、石油和天然气以及製造业等各个领域。它们通常部署在偏远和恶劣的环境中,因此很难更换电池。因此,能够将环境能量转换为电能的能量收集系统变得非常宝贵。他们确保这些感测器可以长期有效运行,无需人工干预。
The global energy harvesting system market size reached US$ 541.2 Million in 2023. Looking forward, IMARC Group expects the market to reach US$ 1,423.1 Million by 2032, exhibiting a growth rate (CAGR) of 11% during 2024-2032. The increasing focus on green energy solutions and reducing greenhouse gas emissions, advancement in technology and miniaturization of devices, growth of wireless sensor networks (WSNs), and the implementation of supportive government policies are some of the major factors propelling the market.
Energy harvesting systems refer to an innovative technology that converts ambient energy from the environment into electrical energy. These systems serve as self-sustainable power solutions for small electronic devices, eliminating the need for traditional batteries or wired power sources. They are comprised of several components, such as an energy transducer, storage units, and a power management circuit. Energy harvesting systems are widely used in wireless sensor networks (WSN), wearables, medical implants, remote monitoring instruments, and the Internet of Things (IoT) devices. They offer sustainable power solutions by harnessing renewable energy sources, thus reducing dependence on non-renewable resources and minimizing environmental impact.
The rapid urbanization across the globe, coupled with the subsequent demand for smart, energy-efficient infrastructure, is significantly boosting the market growth. Furthermore, the widespread system incorporation in smart homes and cities to power various sensors and systems responsible for automation and monitoring is positively influencing the market growth. Along with this, the rising system utilization in smart grid infrastructure to power distributed sensor networks and enhance energy distribution efficiency is acting as another growth-inducing factor. Moreover, the gradual shift towards Industry 4.0 and automation are facilitating system demand to power wireless sensors and IoT devices in industries that are used for predictive maintenance, quality control, and data collection. Besides this, the growing system adoption in the healthcare industry, owing to the increasing focus on the miniaturization of medical devices and implants, is positively influencing the market growth. Other factors, including rising system utilization in transportation systems, increasing investment in the development of advanced energy harvesting systems, and the growing numbers of smart city initiatives, are anticipated to drive the market growth.
The increasing focus on green energy solutions and reducing greenhouse gas emissions.
The increasing push towards sustainable energy solutions, driven by climate change concerns and governmental policies, is fuelling the demand for energy harvesting systems. As these systems tap into renewable sources, such as solar, thermal, and kinetic energy, they are an integral part of the green energy portfolio. Furthermore, they minimize reliance on traditional energy sources, such as fossil fuels, that are known contributors to greenhouse gas (GHG) emissions. In addition, global initiatives, such as the Paris Agreement, compel nations to lower their carbon footprints, thus stimulating the deployment of energy-efficient technologies, such as energy harvesting systems. Moreover, governments worldwide offer incentives and subsidies to promote the use of renewable energy, which is further driving the market growth.
The advancement in technology and miniaturization of devices
The ongoing miniaturization trend in electronic devices is significantly driving the demand for energy harvesting systems. As devices shrink, the need for compact, efficient power solutions becomes paramount. This is evident in the case of the Internet of Things (IoT) and wearable technology applications, where devices must operate reliably, often in challenging environments, over extended periods. Moreover, the rapid advancements in technology enable the development of more efficient energy harvesters capable of providing sufficient power for these devices. Along with this, the innovations in nanotechnology have led to energy harvesters with improved performance characteristics and reliability, which are conducive to integrating into miniaturized devices. This evolution of technology and device miniaturization opens up a wide array of applications, stimulating the energy harvesting system market.
The growth of wireless sensor networks
The increasing adoption of wireless sensor networks (WSNs) across various industries is boosting the energy harvesting system market. These networks, comprising spatially distributed autonomous sensors, are used to monitor physical or environmental conditions and transmit their data through the network to a central location. WSNs are prevalent in a diverse range of sectors, including agriculture, oil and gas, and manufacturing. They are often deployed in remote and harsh environments, making it difficult to replace batteries. As a result, energy harvesting systems capable of converting ambient energy into electrical power have become invaluable. They ensure that these sensors can operate effectively over the long term without requiring manual intervention.
IMARC Group provides an analysis of the key trends in each segment of the global energy harvesting system market report, along with forecasts at the global, regional, and country levels from 2024-2032. Our report has categorized the market based on technology, component and application.
Light Energy Harvesting
Vibration Energy Harvesting
Electromagnetic/Radio Frequency (RF) Energy Harvesting
Thermal Energy Harvesting
Others
Light energy harvesting dominates the market
The report has provided a detailed breakup and analysis of the market based on the technology. This includes light energy harvesting, vibration energy harvesting, electromagnetic/radio frequency (RF) energy harvesting, thermal energy harvesting, and others. According to the report, light energy harvesting represented the largest market segment.
Light energy harvesting is dominating the market as it is the most abundant and accessible renewable energy source on earth. It is easily available making it a highly scalable solution for various applications, such as IoT devices, consumer electronics, and industrial automation. Furthermore, the rapid technological advancements in photovoltaic cells have resulted in increased efficiency and reduced costs, which enhances the feasibility of solar energy harvesting, making it a preferred choice for many applications. Apart from this, sunlight is relatively predictable and consistent, ensuring a reliable and steady energy supply. Moreover, the implementation of supportive government policies and incentives to promote the adoption of light energy harvesting through subsidies and tax benefits is contributing to the market growth.
Transducers
Power Management IC (PMIC)
Storage Unit
Transducer dominates the market
The report has provided a detailed breakup and analysis of the market based on the component. This includes transducer, power management IC (PMIC), and storage unit. According to the report, transducer represented the largest market segment.
The transducer dominates the market due to its fundamental role in energy harvesting systems. It is responsible for transforming ambient energy sources, such as light, heat, or mechanical vibration, into electrical energy. Moreover, the recent advancement and diversification of transducer technologies, which enabled energy harvesting systems to exploit a broader range of energy sources, is positively influencing the market growth. Along with this, the continuous innovations in piezoelectric, thermoelectric, and photovoltaic transducers, which improved the efficiency of energy conversion and have broadened their applicability, are boosting the market growth. Moreover, they are highly durable and reliable components, as they can operate in challenging environments and can withstand various conditions while maintaining high performance.
Consequently, the crucial role of transducers in energy conversion, their technological progression, and their contribution to system miniaturization make them a dominating component in the energy harvesting system market.
Consumer Electronics
Building and Home Automation
Transportation
Healthcare
Others
Building and home automation dominate the market
The report has provided a detailed breakup and analysis of the market based on the application. This includes consumer electronics, building and home automation, transportation, healthcare, and others. According to the report, building and home automation represented the largest market segment.
Building and home automation dominate the market due to the increasing global emphasis on energy efficiency and sustainability in buildings. Energy harvesting systems aid in converting ambient energy into usable electricity, which contributes significantly to reducing energy consumption and carbon footprints. Furthermore, the introduction of favorable regulations and incentives by several governments across the globe to promote sustainability and encourage the adoption of green building practices is favoring the market growth. Additionally, the rapid proliferation of IoT devices in building and home automation is facilitating the demand for energy harvesting systems to provide an efficient and self-sustaining power solution. Moreover, the shifting trend towards smart homes and cities, where various sensors and devices interact to automate and optimize building operations, such as managing lighting, heating, ventilation, and air conditioning (HVAC) systems, and security, are contributing to the market growth.
North America
United States
Canada
Asia Pacific
China
Japan
India
South Korea
Australia
Indonesia
Others
Europe
Germany
France
United Kingdom
Italy
Spain
Russia
Others
Latin America
Brazil
Mexico
Others
Middle East and Africa
North America exhibits a clear dominance in the market, accounting for the largest energy harvesting system market share
The report has also provided a comprehensive analysis of all the major regional markets, which includes North America (the United States and Canada); Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, and others); Europe (Germany, France, the United Kingdom, Italy, Spain, Russia, and others); Latin America (Brazil, Mexico, and others); and the Middle East and Africa. According to the report, North America represented the largest market segment.
North America is dominating the energy harvesting system market due to the presence of a strong technological infrastructure. Furthermore, the region is home to numerous leading tech and energy companies actively investing in research and development (R&D) of energy harvesting technologies. Additionally, the implementation of supportive governmental policies in North America to promote the adoption of renewable energy and energy-efficient technologies through incentives, grants, and tax breaks is strengthening the market growth. Moreover, the widespread application of the Internet of Things (IoT) devices across different sectors, such as industrial, healthcare, and consumer electronics, in North America is driving the demand for energy harvesting systems to provide a sustainable power solution, particularly in remote or difficult-to-access locations. Apart from this, the significant growth of smart cities and home automation in the region is acting as another growth-inducing factor.
The top companies in the energy harvesting market are actively engaged in research and development (R&D) to enhance the performance and reliability of their energy harvesting solutions. In line with this, they are improving the efficiency of photovoltaic cells, enhancing piezoelectric and thermoelectric materials, and developing novel techniques for energy conversion. Furthermore, several key players are focusing on expanding their product portfolios, improving energy conversion efficiency, and exploring new applications for energy harvesting systems. Additionally, the increasing collaboration between leading companies and academic and research institutions to explore new energy sources and optimize energy harvesting systems for specific applications by conducting feasibility studies, prototyping, and testing of energy harvesting technologies is positively influencing the market growth. Apart from this, key market players are working closely with clients and partners to tailor energy harvesting systems to specific requirements and integrate them seamlessly into existing or emerging technologies and applications.
ABB Ltd.
Analog Devices Inc.
Cymbet
Cypress Semiconductor Corporation (Infineon Technologies AG)
EnOcean GmbH
Fujitsu Limited (Furukawa Group)
Honeywell International Inc.
Microchip Technology Inc.
Powercast Corporation
STMicroelectronics SA
Texas Instruments Incorporated
In Jan 2023, Cypress Semiconductor Corporation (Infineon Technologies AG) partnered with NuCurrent to deploy market-leading smart lock and energy harvesting technology.
In June 2021, EnOcean GmbH announced the launch of the EnOcean IoT Connector, which will link energy harvesting sensors and IoT applications to facilitate easier integration of EnOcean products.
In February 2022, Honeywell International Inc. announced that it will supply Energy Storage System (ESS) to Hecate Energy for a solar project located in Northern New Mexico