Cordyceps
Project Overview
The 2,600-ton/year Cordyceps sinensis high-end edible fungus project is a key project for rural revitalization in Guangrao County. The project has a total investment of 50 million yuan and will build 52 automated growth rooms. Through the comprehensive use of Internet of Things sensors and other technologies, data such as temperature, light, water, and air are automatically collected and analyzed to achieve full-process automation and precise control, and about 8 tons of fresh grass can be harvested every day. It is expected to be put into production in April this year. After the project is put into production, it will be the only enterprise in Shandong Province, China, that produces and processes Cordyceps sinensis flowers in a factory-based manner, and the fourth factory-based manufacturer in the country.
YaoSheng Solutions
Temperature and Humidity Control:
Utilize smart air conditioning systems and humidity controllers to maintain constant temperature and humidity environments according to the different growth stages of Cordyceps militaris. For instance, during the mycelial growth stage (August to early October), maintain temperatures between 15-20°C and relative humidity between 55-65%. During the fruiting body formation stage (May), control temperatures between 4-10°C and humidity between 60-65%. The system should automatically adjust its operation mode to maintain the specified temperature and humidity ranges.
Ventilation and Oxygen Supply:
Integrate smart ventilation equipment with the air conditioning system to ensure proper air circulation, providing sufficient oxygen and effectively removing carbon dioxide. Regular ventilation exchanges maintain fresh air, conducive to healthy mycelial growth.
Lighting Management:
Manage indoor lighting intensity using smart curtains and supplemental lighting control systems. Automatically adjust curtain opening and closing and adjust supplemental lighting brightness as needed to ensure optimal lighting conditions for Cordyceps militaris growth.