Features and Applications of Biogas Booster Fans
Release date:
2022-10-08
Features and Applications of Biogas Booster Fans Because the biogas, biogas slurry, and biogas residue generated from fermentation are beneficial to the development of agro-ecological agricultural projects, various agro-ecological engineering technology models linked by biogas have been rapidly developing in recent years, particularly achieving remarkable results in reducing pollutant emissions from the livestock and poultry industry.
Biogas booster fan Features and Applications
Because the biogas, biogas slurry, and biogas residue produced through fermentation are beneficial to the development of agro-ecological agricultural projects, various agro-ecological engineering technology models centered around biogas have been rapidly developing in recent years—particularly achieving remarkable results in reducing pollutant emissions from the livestock and poultry industries. As biogas use expands to an increasing number of applications, certain issues related to its proper utilization have gradually come to light. In particular, unstable pressure and inability to operate normally are common problems encountered when using methane. The introduction of methane pressurization blowers has received widespread support from users. Characteristics of biogas pressurization blowers:
Safe, easy to transport and install, stable—self-regulating tanks and pipelines generally feature carbon steel with anti-corrosion coatings. The booster fans and controllers are explosion-proof. After setting the desired pressure value, the biogas booster fan will automatically start or stop based on the methane pressure inside the tank, ensuring stable tank pressure. Dimensions, fan models, and buffer tank specifications can be customized according to customer requirements. The height and diameter of both the biogas inlet and outlet pipes can also be adjusted to meet the needs of various projects. The biogas booster fan can effectively address insufficient gas pressure, enabling more complete combustion and stronger flame power, making it ideal for biogas projects. In addition to the biogas pressure regulation and boosting system, biogas projects typically include equipment such as biogas desulfurizers, biogas water seals, biogas desulfurization and dehydration systems, red mud gas bags, and biogas storage tanks. Biogas booster fan It is widely used in pipeline gas systems to mitigate fluctuations in system pressure and stabilize the unloading process. When system pressure changes, the buffer tank provides a certain degree of buffering against these pressure variations, preventing the booster system from frequently starting up and thereby extending the service life of the booster. Once the system pressure stabilizes, the gas can be delivered to the gas distribution network.
Used for stabilizing biogas systems and pressurizing gas equipment, this device consists of a frequency converter, a Roots blower, a buffer tank, and other components. Once the pressure setting for the biogas booster fan is configured, the booster fan will automatically start or stop based on the biogas pressure inside the tank, ensuring stable pressure within the tank. The following outlines the operating procedure for the biogas booster fan: First, connect according to the mode described. Biogas booster fan The inlet is connected to the digestive tract pipeline, and the exhaust port of the booster fan (including a check valve and a non-return valve) is connected to one end of the flexible buffer gas bag. After the gas bag’s end is connected to the pressure-measuring probe, it can be vertically connected to the main pipeline—two in total. Pressure Adjustment: When adjusting the pressure, first set the upper pressure limit, then move the cursor to the corresponding parameter, and finally press “Confirm.” To adjust the pressure limit, simply move the cursor to the relevant parameter and press “Confirm.” After the biogas booster fan has been installed, start it in manual mode; once the pressure has stabilized, switch it to automatic mode. The air pressure has already been adjusted at the factory: it is X kPa when the unit is started and X kPa when it is stopped. The frequency converter’s boost regulator must be capable of adjusting the frequency to an appropriate motor speed based on the air flow rate. The biogas booster fan is specially designed for combustion gases such as natural gas, biogas, coal gas, alcohol-mixed gas, straw gas, as well as harmful and toxic gases and boosting equipment. It can effectively address insufficient gas pressure, ensuring more complete gas combustion and stronger flame power.
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