The features and operating principle of biogas booster fans are described as follows:
Release date:
2021-08-08
Since fermentation products such as biogas, digestate, and沼渣 can play a role in the construction of agro-ecological engineering projects, various agro-ecological engineering technology models centered around biogas have developed rapidly in recent years—particularly in reducing pollutant emissions from livestock and poultry farming. As the use of biogas continues to grow, certain issues related to its proper utilization have gradually come to light. In the application of biogas, it is often observed that the gas cannot function normally without adequate pressure. Consequently, biogas pressurization fans have gained considerable popularity among users.
Since fermentation products such as biogas, digestate, and沼渣 can play a role in the construction of agro-ecological engineering projects, various agro-ecological engineering technology models centered around biogas have developed rapidly in recent years—particularly in reducing pollutant emissions from livestock and poultry farming. As the use of biogas continues to increase, certain issues related to its proper utilization have gradually come to light. In the application of biogas, it is often observed that the system cannot function normally without sufficient pressure. Biogas booster fan Its emergence has been enthusiastically embraced by users.
One, Biogas booster fan Function:
The gas equipment used for pressure stabilization and boosting in biogas systems consists of a frequency converter, a Roots blower, a buffer tank, and other components. After setting the pressure value for the biogas booster fan, the booster fan will automatically start or stop based on the biogas pressure inside the buffer tank, thereby ensuring stable pressure within the tank.
II. Characteristics and Principles of Biogas Booster Fans:
Safe, easy to transport and install, with stable voltage and automatic control. The storage tank and pipelines are typically made of corrosion-resistant carbon steel, while the booster fan and controller are explosion-proof. After setting the desired pressure value, the booster fan automatically starts or stops based on the methane pressure within the buffer tank, ensuring stable pressure inside the tank. Overall dimensions, fan models, and buffer tank specifications can be customized according to customer requirements. The height and diameter of the biogas inlet and outlet pipes can also be adjusted to meet the needs of various projects.
Three, Biogas booster fan The usage method is as follows:
1. Connection method
Connect the intake port of the booster fan to the biogas digester pipeline. Connect the outlet port of the booster fan (including the check valve and the one-way valve) to one end of the flexible buffer gas storage bag. Connect one end of the gas storage bag to the pressure test probe, and then connect it perpendicularly to the main pipeline. Biogas booster fan
2. Pressure Adjustment
If you need to debug the pressure, move the cursor to adjust the upper limit to a reasonable value and press OK. To adjust the lower pressure limit, move the cursor to a reasonable value and then press Confirm. Biogas booster fan
3. Usage
Biogas booster fan After installation, you can first start the vehicle in manual mode. Once the air pressure has been established, switch to automatic mode, and the vehicle will then operate automatically. The air pressure has already been adjusted before leaving the factory. The starting pressure is X kilopascals, and the stopping pressure is also X kilopascals. The variable-frequency boost and voltage-stabilizing controller can adjust the frequency to the corresponding motor speed based on the air flow demand.
The biogas booster fan is a specially designed boosting device for combustible gases such as natural gas, biogas, coal gas, alcohol mixtures, and straw gas, as well as harmful and toxic gases. It can address the issue of insufficient gas pressure, ensuring more complete gas combustion and stronger flame intensity.
Biogas booster fans can be broadly classified into single-stage and two-stage types based on their operating principles. A fan with only one compression stage is called a single-stage fan, while two single-stage fans connected in series are referred to as a two-stage fan. During operation, biogas booster fans must be handled, installed, and commissioned in accordance with the equipment’s relevant instructions.
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