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Mayer Energy Storage Technology breaks through the dilemma of tropical planting, and Sanya smart greenhouse leads the industry innovation.

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Recently, the Hongqi Base of Sanya Research Institute under China Agricultural University announced a major breakthrough: Guangzhou Mayer TES Technology Limited Company has officially launched its multi-energy complementary ultra-low energy consumption smart greenhouse. This agricultural innovation, integrating multiple self-developed technologies, has effectively overcome the bottlenecks in tropical crop cultivation. The facility has achieved the goals of "high yield, superior quality, and stable returns", injecting strong momentum into the development of tropical facility agriculture.

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Sanya's summer climate is characterized by high temperatures and humidity. Traditional greenhouses, however, face challenges such as high energy consumption and difficult temperature control, resulting in annual downtime exceeding four months and persistently high operational costs. Mayer TES's technological solution offers an innovative approach to address these industry pain points.

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The project's core technology lies in the integrated application of self-developed phase-change thermal storage materials and multi-energy complementary systems. The high-performance phase-change material installed in the greenhouse's basement layer maintains soil temperature at 20-23°C, 10°C lower than outdoor levels. Combined with solar photovoltaic/thermal systems, wind power generation, and smart heat pumps, this creates a full-cycle precision control system. During summer, the greenhouse temperature remains 4°C cooler than outdoor conditions, enabling year-round cultivation without seasonal interruptions.

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The successful implementation of this project has not only solidified the commercial viability of phase-change energy storage technology in facility agriculture, but also filled a critical gap in green smart greenhouse applications for tropical regions. Leveraging its low-carbon footprint, operational efficiency, and replicable model, the project's demonstration effect is poised for rapid expansion across Hainan Island and Southeast Asia's tropical zones, aligning perfectly with local policy initiatives like "Green Agriculture" and "Smart Agriculture". This breakthrough not only pioneers a new development paradigm for tropical facility agriculture, but also establishes a robust foundation for Mayer TES's large-scale agricultural expansion. The project will continue to fuel the company's growth momentum, creating fresh drivers for sustainable development.