A gas storage tank refers to a device specifically used for storing gas, while also stabilizing system pressure. Depending on the pressure the gas storage tank can withstand, it can be classified into high-pressure gas storage tanks, low-pressure gas storage tanks, and atmospheric pressure gas storage tanks. Based on the material of the gas storage tank, it can be divided into: carbon steel gas storage tanks, low-alloy steel gas storage tanks, and stainless steel gas storage tanks. Gas storage tanks (pressure vessels) are generally composed of parts and components such as the cylinder body, end caps, flanges, connecting pipes, sealing elements, and supports. In addition, they are equipped with safety devices, gauges, and internal components that fulfill different production process functions.
The scope of pressure pipelines is defined as pipelines with a maximum working pressure greater than or equal to 0.1 MPa (gauge pressure) for gas, liquefied gas, steam media, or flammable, explosive, toxic, corrosive substances, and liquid media with a maximum working temperature greater than or equal to the standard boiling point, and with a nominal diameter greater than 25 mm. Broadly speaking, it refers to all pipelines that bear internal or external pressure, regardless of the medium inside the pipe.
The shell-and-tube heat exchanger consists of components such as the shell, heat transfer tube bundle, tube sheets, baffles, and tube boxes. The shell is usually cylindrical, with the tube bundle installed inside, and the ends of the tube bundle fixed to the tube sheets. The two fluids involved in heat exchange are the hot and cold fluids, with one flowing inside the tubes, referred to as the tube-side fluid, and the other flowing outside the tubes, referred to as the shell-side fluid. To enhance the heat transfer coefficient of the shell-side fluid, several baffles are typically installed inside the shell. The baffles can increase the velocity of the shell-side fluid, forcing it to pass transversely through the tube bundle multiple times along a specified path, thereby enhancing the turbulence of the fluid. The heat transfer tubes can be arranged in an equilateral triangle or square pattern on the tube sheets. The equilateral triangle arrangement is more compact, resulting in higher turbulence of the shell-side fluid and a greater heat transfer coefficient; the square arrangement, on the other hand, facilitates easier cleaning of the shell-side and is suitable for fluids that are prone to scaling.
Air passes through the filter cartridge, and due to the combined effects of gravity, inertial diffusion, static electricity, and contact retention, dust settles and accumulates on the filter element.
Clean air is then sent out through the vent after passing through the Venturi tube.
When dust-laden gas enters the dust removal filter cartridge and passes through the filter material, the dust is retained on its surface, while clean air is discharged through the gaps in the filter material, completing the filtration process. Filtration technology is the basic principle of the dust collector filter cartridge. The main types of filtration include fiber filtration, membrane filtration, and dust layer filtration. The dust collector filter cartridge is a combination of fiber filtration, membrane filtration, and dust layer filtration. Its dust removal mechanism is the result of the combined effects of screening, inertial collision, adhesion, diffusion, gravitational settling, and electrostatic effects.
The activated carbon adsorption filter tank adopts a hydraulic simulation long-diameter design and uses high-efficiency activated carbon with a reasonable particle size and a specific surface area greater than 1000㎡/g, which provides both upper layer special filtration and lower layer high-efficiency adsorption functions, greatly improving the purification level of the produced water and the lifespan of the carbon. 2. The residual chlorine content of the water quality after treatment by the activated carbon adsorption filter: ≤0.1 PPM. 3. It has excellent performance in removing odors, organic substances, colloids, iron, and residual chlorine from the water. 4. It also plays a significant role in reducing the turbidity and color of the water, purifying water quality, and minimizing pollution to subsequent systems (reverse osmosis, ultrafiltration, ion exchangers).
National unified service hotline
Sales Phone:+868922631278(Mr. Wong)
E-mail:18922631278@163.com
Address: 6868 Zhuhai Avenue, Hongqi Town, Jinwan District, Zhuhai City
Sweep the attention to us
WeChat Public Number
Copyright©2024 Guangdong Global Purification Technology Co., Ltd. Website:www.300.cn SEO [ Privacy Policy ]