市場調查報告書
商品編碼
1441961
太陽能收集市場規模 - 按組件(能量收集感測器、電源管理積體電路 (PMIC))、最終用途(無線感測器網路、消費性電子產品、建築自動化、汽車)和預測,2024 - 2032 年Solar Energy Harvesting Market Size - By Component (Energy Harvesting Transducer, Power Management Integrated Circuits (PMIC)), By End Use (Wireless Sensor Networks, Consumer Electronics, Building Automation, Automotive), & Forecast, 2024 - 2032 |
在該領域研發不斷進步的推動下,2024 年至 2032 年間,全球太陽能收集市場的CAGR將超過 9.2%。隨著科學家和工程師探索更有效地利用太陽能的新技術和工藝,太陽能的潛力不斷擴大。
例如,2023 年 7 月,霍華休斯應用物理和材料科學教授哈里·阿特沃特的實驗室開發了一種新穎的設備,打破了物體吸收效率和發射效率之間的傳統關係。這項突破為永續能量收集系統和偽裝技術的進步帶來了希望。
根據這項研究,吸收效率和排放效率之間的差異可能會徹底改變能量收集機制。透過將重新發射的能量從源頭(例如光伏板中的太陽)重新定向,可以最大限度地減少損失,從而有可能提高能量轉換率。材料科學、光伏技術和儲能解決方案的突破正在推動創新並降低成本,使太陽能對消費者和企業更容易獲得和更具吸引力。研究和開發的不斷成長勢頭正在推動全球對太陽能收集系統的需求。
整個太陽能收集產業根據組件、最終用戶和地區進行分類。
能量收集感測器領域將在 2024 年至 2032 年間經歷重大發展。這些重要組件可有效地將太陽輻射轉化為可用電能,從而徹底改變再生能源系統。隨著全球向永續能源轉變的加劇,對高性能感測器的需求激增。企業和消費者擴大投資於這些技術,以利用太陽能豐富的清潔能源。對環境永續性的日益重視進一步推動了太陽能收集市場的擴張。
從 2024 年到 2032 年,無線感測器網路領域的太陽能收集市場規模將實現顯著的CAGR。這些網路依靠太陽能系統來收集和傳輸資料,而不需要傳統電源。隨著各行業採用物聯網和智慧技術進行監控,對太陽能收集解決方案的需求不斷增加。利用太陽能為這些網路供電的能力提供了前所未有的靈活性和可擴展性,推動太陽能收集市場的進一步創新和成長。
歐洲太陽能收集產業從 2024 年到 2032 年將呈現出值得稱讚的CAGR。憑藉雄心勃勃的永續發展目標和支持性的政府政策,人們越來越重視太陽能的採用。歐洲消費者和企業擴大投資於太陽能收集解決方案,以減少碳足跡和能源成本。
此外,技術進步和太陽能電池板成本下降正在推動市場成長。這一趨勢凸顯了歐洲在塑造全球太陽能採集未來的關鍵作用。例如,2023 年 8 月,利用分子光開關為提高太陽能收集效率提供了一條有前景的途徑。來自丹麥和西班牙的科學家利用量子計算為此目的確定了一種異常有效的分子配置。他們的方法在《Angewandte Chemie》雜誌上概述,涉及篩選超過 40 萬個分子的資料集,以確定太陽能儲存材料的最佳候選材料。
Global Solar Energy Harvesting Market will witness over 9.2% CAGR between 2024 and 2032, fueled by continuous advancements in research and development within the field. As scientists and engineers explore new technologies and techniques to harness solar power more efficiently, the potential for solar energy continues to expand.
For instance, in July 2023, in the laboratory of Harry Atwater, the Howard Hughes Professor of Applied Physics and Materials Science, a novel device was developed, disrupting the conventional relationship between an object's absorbed and emitted efficiencies. This breakthrough held promise for sustainable energy harvesting systems and the advancement of camouflage technology.
According to the research, the divergence between absorption and emission efficiencies could revolutionize energy-harvesting mechanisms. By redirecting re-emitted energy away from the source, such as the Sun in the case of photovoltaic panels, losses can be minimized, potentially leading to higher energy conversion rates. Breakthroughs in materials science, photovoltaic technology, and energy storage solutions are driving innovation and reducing costs, making solar energy more accessible and attractive to consumers and businesses alike. This increasing momentum in research and development is propelling the demand for solar energy harvesting systems worldwide.
The overall Solar Energy Harvesting Industry is classified based on the component, end-user, and region.
Energy harvesting transducer segment will undergo significant development from 2024 to 2032. These essential components efficiently convert solar radiation into usable electrical energy, revolutionizing renewable energy systems. As the global shift towards sustainable energy intensifies, the demand for high-performance transducers surges. Businesses and consumers alike are increasingly investing in these technologies to capitalize on solar power's abundant and clean energy source. The growing emphasis on environmental sustainability further fuels the expansion of the solar energy harvesting market.
Solar energy harvesting market size from the wireless sensor networks segment will register a noteworthy CAGR from 2024 to 2032. These networks rely on solar-powered systems to collect and transmit data without the need for traditional power sources. As industries embrace IoT and smart technologies for monitoring and control, the demand for solar energy harvesting solutions escalates. The ability to harness solar energy to power these networks offers unprecedented flexibility and scalability, driving further innovation and growth in the solar energy harvesting market.
Europe Solar Energy Harvesting industry will showcase a commendable CAGR from 2024 to 2032. With ambitious sustainability goals and supportive government policies, there's a growing emphasis on solar power adoption. European consumers and businesses are increasingly investing in solar energy harvesting solutions to reduce carbon footprints and energy costs.
Furthermore, advancements in technology and decreasing solar panel costs are driving market growth. This trend underscores Europe's pivotal role in shaping the future of solar energy harvesting globally. For instance, in August 2023, utilizing molecular photoswitches presented a promising avenue for enhancing the efficiency of solar energy harvesting. Scientists from Denmark and Spain leveraged quantum computing to pinpoint an exceptionally efficient molecular configuration for this purpose. Their approach, outlined in the journal Angewandte Chemie, involved sifting through a dataset of over 400,000 molecules to identify optimal candidates for solar energy storage materials.