TL series vertical slurry pump adopts vertical, axial suction, single-stage single suction, single pump casing and centrifugal structure, suitable for the working conditions where the flow quantity is within 4m 3 /h-360m 3 /h and the head within 3m-82m, which can be used as absorption tower large slurry circulating pump.
TL series vertical slurry pump adopts vertical, axial suction, single-stage single suction, single pump casing and centrifugal structure, suitable for the working conditions where the flow quantity is within 4m 3 /h-360m 3 /h and the head within 3m-82m, which can be used as absorption tower large slurry circulating pump.
DT series horizontal slurry pump adopts horizontal, single pump casing, single-stage single suction, bracket or suspension type structure, of which the maximum flow rate can be 12000m /h and the head is generally below 100m, covering all the working conditions of pumps in the desulfurization systems.
The gradual implementation of flue gas desulfurization (FGD) is an effective measure to control the SO2 emission from the plant flue gas.
Our company began to study the technology of flue gas desulfurization in 2005. According to the working conditions and material features of the power plant pumps, we have successfully developed efficient, corrosion-resistant, wear-resistant DT series and TL series desulfurization pumps.
At present, the desulfurization pumps of ZR has been successfully applied to FGD projects of many domestic power plants. Due to the high efficiency, reliability and reasonable material use, our pumps are universally recognized by the users and become the preferred products of the domestic flue gas desulfurization projects.
Application
1. Power plant: the desulfurization pump can be used for ash removal, slag removal, desulfurization, and mortar conveying.
2. Other fields: soda plant, salt plant, iron and steel plant, alumina plant; or for river dredging, sand pump and sewage discharge.
Structural features
1. The desulphurization pump uses low carbon stainless steel with ferrite as the dominant component which has higher mechanical strength, so it is not easy to produce cracks due to chloride corrosion.
2. The hydraulic friction loss of the pump is less than that of the metal pump with the same parameters, so the former efficiency is over 3% higher than that of the latter.
3. All the materials of the pump are metal, easy to control size, with smooth surface of the parts and small gap between components, the volumetric efficiency is high and the comprehensive efficiency is more than 5% higher than that of non-metal pumps.
4. The flow part adopts low carbon stainless steel material, so it has a long service life and the metal guard plate has stronger ability of enduring shear sliding wear than general non-metallic materials.
5. With the dynamic abrasion resistance being 0.008-0.08mm/year and high tensile strength, the performance of the pump can be maintained constant in the long-term erosion condition.
6. The shaft seal adopts mechanical seal and operates reliably, which can be divided into two kinds: water type and waterless type. The water type mechanical seal has two end face seals (if the first level seal fails, the two level seal can still be sealed to prevent leakage), so as to realize that not a drop of liquid leaks. The waterless type mechanical seal uses anhydrous medium to complete self-washing, so the water saving effect is good.
7. The DT series and TL series pumps both adopt flexible coupling.
The term refers to a specialized device designed to remove sulfur compounds from various fluids or gases. It is commonly used in industrial processes where there is a need to reduce the sulfur content in order to meet environmental regulations or to protect equipment from the corrosive effects of sulfur. The primary purpose of this equipment is to promote cleaner emissions and to minimize the impact of industrial activities on the environment.
The development of such technology began as a response to increasing environmental concerns and regulatory standards regarding air quality. Initially, basic methods were employed to remove sulfur compounds, but as regulations became stricter and technology advanced, more efficient and sophisticated systems were developed. Over time, these systems have evolved to use a variety of physical and chemical processes to effectively remove sulfur from different industrial emissions.
In the industrial sector, the presence of sulfur can lead to several issues, including air pollution, acid rain, and the deterioration of infrastructure through corrosion. The use of these pumps is crucial in industries such as power generation, chemical manufacturing, and metal processing. By reducing sulfur emissions, industries can comply with environmental standards, protect the health of workers and the public, and extend the lifespan of their equipment. This makes the technology an essential component in modern industrial operations.
DT series horizontal slurry pump adopts horizontal, single pump casing, single-stage single suction, bracket or suspension type structure, of which the maximum flow rate can be 12000m /h and the head is generally below 100m, covering all the working conditions of pumps in the desulfurization systems.
The gradual implementation of flue gas desulfurization (FGD) is an effective measure to control the SO2 emission from the plant flue gas.
Our company began to study the technology of flue gas desulfurization in 2005. According to the working conditions and material features of the power plant pumps, we have successfully developed efficient, corrosion-resistant, wear-resistant DT series and TL series desulfurization pumps.
At present, the desulfurization pumps of ZR has been successfully applied to FGD projects of many domestic power plants. Due to the high efficiency, reliability and reasonable material use, our pumps are universally recognized by the users and become the preferred products of the domestic flue gas desulfurization projects.
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Application
1. Power plant: the desulfurization pump can be used for ash removal, slag removal, desulfurization, and mortar conveying.
2. Other fields: soda plant, salt plant, iron and steel plant, alumina plant; or for river dredging, sand pump and sewage discharge.
Structural features
1. The desulphurization pump uses low carbon stainless steel with ferrite as the dominant component which has higher mechanical strength, so it is not easy to produce cracks due to chloride corrosion.
2. The hydraulic friction loss of the pump is less than that of the metal pump with the same parameters, so the former efficiency is over 3% higher than that of the latter.
3. All the materials of the pump are metal, easy to control size, with smooth surface of the parts and small gap between components, the volumetric efficiency is high and the comprehensive efficiency is more than 5% higher than that of non-metal pumps.
4. The flow part adopts low carbon stainless steel material, so it has a long service life and the metal guard plate has stronger ability of enduring shear sliding wear than general non-metallic materials.
5. With the dynamic abrasion resistance being 0.008-0.08mm/year and high tensile strength, the performance of the pump can be maintained constant in the long-term erosion condition.
6. The shaft seal adopts mechanical seal and operates reliably, which can be divided into two kinds: water type and waterless type. The water type mechanical seal has two end face seals (if the first level seal fails, the two level seal can still be sealed to prevent leakage), so as to realize that not a drop of liquid leaks. The waterless type mechanical seal uses anhydrous medium to complete self-washing, so the water saving effect is good.
7. The DT series and TL series pumps both adopt flexible coupling.
The term refers to a specialized device designed to remove sulfur compounds from various fluids or gases. It is commonly used in industrial processes where there is a need to reduce the sulfur content in order to meet environmental regulations or to protect equipment from the corrosive effects of sulfur. The primary purpose of this equipment is to promote cleaner emissions and to minimize the impact of industrial activities on the environment.
The development of such technology began as a response to increasing environmental concerns and regulatory standards regarding air quality. Initially, basic methods were employed to remove sulfur compounds, but as regulations became stricter and technology advanced, more efficient and sophisticated systems were developed. Over time, these systems have evolved to use a variety of physical and chemical processes to effectively remove sulfur from different industrial emissions.
In the industrial sector, the presence of sulfur can lead to several issues, including air pollution, acid rain, and the deterioration of infrastructure through corrosion. The use of these pumps is crucial in industries such as power generation, chemical manufacturing, and metal processing. By reducing sulfur emissions, industries can comply with environmental standards, protect the health of workers and the public, and extend the lifespan of their equipment. This makes the technology an essential component in modern industrial operations.
If you want to learn more, please visit our website vertical submerged slurry pump price.