Microalgae Harvesting Process
1
The initial step involves monitoring the growth phases of microalgae using IoT technology, which collects data on water quality parameters such as pH and temperature. This data is crucial for determining the optimal harvesting time based on the microalgae’s growth stage.
2
Once the microalgae reach the saturation phase, the system automatically transfers them from the culture tank to the harvesting tank. This automation reduces manual labor and enhances efficiency in the harvesting process.
3
The next step is the automatic detection of fluid levels in the harvesting tank. This ensures that the harvesting process is conducted without overflow or underflow, maintaining optimal conditions for microalgae collection.
4
Following fluid level detection, the system introduces flocculent to facilitate the aggregation of microalgae. This step is essential for separating the microalgae from the wastewater effectively.
5
Finally, the system segregates the harvested microalgae floc from the wastewater, completing the harvesting process. This automated approach significantly improves productivity and reduces the time required for harvesting.
Innovative Microalgae Solutions
GIAE and UTHM are pioneering advanced microalgae farming techniques to enhance sustainability and efficiency.
Our intelligent harvesting system optimizes the microalgae cultivation process, ensuring higher productivity and reduced labor.
Revolutionizing Microalgae Harvesting
Automated Harvesting Technology
Our system integrates IoT technology for real-time monitoring and automated processes in microalgae harvesting.
The intelligent harvesting system utilizes advanced sensors and IoT controls to streamline the transfer and processing of microalgae, significantly reducing manual labor and increasing efficiency. This innovative approach ensures optimal growth conditions and maximizes yield, making it a game-changer in sustainable agriculture.
Efficiency and Sustainability