Explore how Yardley Ashton cooling systems support agriculture, greenhouse environments, and biogas plants with reliable temperature and humidity control.
In agriculture and farming, industrial cooling systems play a vital role in applications such as greenhouse climate control and biogas production. In greenhouses, chillers help regulate temperature and humidity to maintain an ideal environment for plant growth, preventing overheating and moisture imbalance.
In biogas production, stable temperatures are essential for efficient anaerobic digestion. Cooling systems help maintain controlled conditions that promote maximum gas yield, reduce process disruptions, and improve energy efficiency.
By adopting Yardley Ashton engineered cooling systems, agriculture and farming operations benefit from consistent temperature regulation, improved process stability, and enhanced productivity.
Our systems are built for heavy-duty use, offering long-lasting performance that supports greenhouse operations, livestock environments, and biogas processing plants.
A biogas production plant processing organic agricultural waste experienced unstable temperatures during anaerobic digestion, reducing gas yields and slowing overall production efficiency.
The facility struggled to maintain stable temperatures within anaerobic digesters. These fluctuations caused reduced microbial activity, inconsistent gas output, and extended digestion times. To resolve this, the customer partnered with Yardley Ashton to engineer a cooling system tailored specifically for biogas production environments.
Temperature variations inside the digesters affected the efficiency of the breakdown process, leading to:
The existing cooling setup lacked the precision required to maintain ideal conditions for microbial activity, limiting the plant’s ability to maximize energy output from organic waste.
Yardley Ashton engineers designed and installed a custom cooling unit integrated directly into the anaerobic digestion system. The unit ensures consistent, controlled temperatures throughout the entire cycle, supporting optimal microbial activity and improving gas production stability.
After installing the Yardley Ashton system, the customer experienced major improvements in biogas production efficiency:
Outcome: With precise temperature control and robust engineering, Yardley Ashton helped the facility unlock higher biogas yields, greater energy efficiency, and a more sustainable agricultural operation.
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