Our Products
GGE has wide range of the anaerobic digester covers and constant pressure gas holders that GGE builds are often the main components that allow the use of biogas for electric and thermal energy production.
Highly specialized GGE engineers are ready to help their customers by suggesting the best technical solution available, to reduce costs and maintenance, and maximize energy production. Fully trained GGE technicians supply and install the product directly on site, to ensure the best quality standards.
Utilized in the domes and standalone systems, the air fan pressurization system ensures the stability of the air chamber and provides for continuous air recirculation. The gradual and continual replenishing of the air chamber by the air fans and air valves removes any biogas that might pass from the biogas chamber into the air chamber.
In order to maintain the correct operating pressure inside the gasholder, GGE supplies high performance stainless steel air valves. The adjustable air valves regulate and maintain a constant operating pressure through a self calibrating air nozzle and provide an air outlet to keep the air chamber free from any traces of methane or hydrogen gases. In the event of a power outage, the air valves will immediately close and keep the gasholder fully pressurized.
In order to control the pressure inside the gas chamber, GGE supplies a hydraulic safety valve. Constructed of stainless steel, the exhaust valve incorporates a self-priming tank partially filled with water that helps maintain the correct level inside the valve. The biogas inlet pipe is installed through the top of the tank and terminates just below the water level that determines the desired overpressure level. In the event of overpressure, the biogas exhaust is evacuated through a vertical exhaust pipe thereby avoiding potential human contact.
GGE supplies a level sensor that ensures the optimal use of biogas stored within the gas chamber and controls the shape of the gas membrane throughout the entire filling and emptying cycle. A load sensor is placed on the top of the outer air membrane and sends a signal to a control panel where the gas volume readout is displayed on a screen. The electromechanical level sensor records the gas volume based on the apex of the gas membrane and incorporates springs attached to the top center of the gas membrane that expand and contract as the biogas fills the chamber, resulting in continuous and accurate readings.