Tl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical Plant

Product Details
Customization: Available
Max.Head: >150m
Max.Capacity: >400 L/min
Manufacturer/Factory, Trading Company
Diamond Member Since 2023

Suppliers with verified business licenses

Audited Supplier

Audited by an independent third-party inspection agency

Fast Delivery
The supplier can deliver the goods within 30 days
Low MOQ
The MOQ for the supplier's products is 1
Flexible Customization
The supplier provides Flexible customization services for your Personalized requirements
R&D Capabilities
The supplier has 1 R&D engineers, you can check the Audit Report for more information
to see all verified strength labels (8)
  • Tl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical Plant
  • Tl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical Plant
  • Tl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical Plant
  • Tl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical Plant
  • Tl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical Plant
  • Tl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical Plant
Find Similar Products
  • Overview
  • Product Description
  • Product Feature
  • Product Parameters
  • Detailed Photos
Overview

Basic Info.

Model NO.
TL
Driving Type
Motor
Material
Stainless Steel
Structure
Single-stage Pump
Assembly
Liquid Pumps
Power
Electric
Start Up
Electric Pump
Type
Jet Pump
Application
Submersible Pump, Clarified Water Pump, Sewage Pump, Slurry Pump, Oil Transfer Pump, Chemical Pump
Performance
Explosion-Proof Pumps
Theory
Centrifugal Pump
Material Feature
Low Carbon
Cavitation Damaged
None
Cooling
Oil
Impoller
Closed
Transport Package
Wood Case
Trademark
BLOSSOM
Origin
China
Production Capacity
300set/Year

Product Description

Product Description

TL(D) and TLL series desulphurization pumps are designed and manufactured by our company jointly with well-known domestic experts through technical breakthroughs. Since the hydraulic design of desulfurization pump fully considers the movement of solid and liquid flow field, it can maintain good performance during slurry transportation. It is the latest design and development of high efficiency and energy saving products in the 1990s. The product has been tested by the national pump product inspection and testing center, and the performance indicators have met or exceeded the design requirements, and the product has reached the international advanced level after expert appraisal. Its excellent product performance and the ability to adapt to all kinds of bad mining, so that the series of products in power desulfurization, steel desulfurization and other industries are widely used. The company has provided thousands of pumps for dozens of key projects and large and medium-sized enterprises such as HUANENG Company, STATE FRID  Company, power plants owned by large companies, effectively replacing imported products, saving a lot of foreign exchange, and making contributions to the sustainable and healthy development of the national economy.
 

Product Feature

1, Desulfurization liquid medium, affected by coal and water, contains a large number of chloride ions, and chloride ions is a key factor in the corrosion of materials. Although it is not directly involved in corrosion, the tendency to make acid and the strong corrosion of free acid aggravate the gap corrosion, point corrosion and stress corrosion at the high temperature in the desulfurization tower. Electrochemical corrosion is inevitable, even if the material casting we used to reduce the measures, there will still be vulcanization Yi produced, it in the form of hard shell covered in the corrosion pits, resulting in a sharp increase in the acidity of the pits, and temperature catalysis, directly lead to the malignant increase of the beginning, finally pits into a. Surface passivation, on the other hand, can slow down corrosion, so it is necessary to create a more uniform oxidation label during hot treatment. Intergranular corrosion exists at room temperature, and transgranular corrosion also begins when the temperature reaches more than 60°C. Therefore, in addition to reducing intergranular depletion and reducing the presence of highly complex carbides between grains, it is to reduce carbon preservation. At present, some domestic manufacturers actually let the carbon equivalent of more than 1%, they think it is to wear resistance, in fact, on the contrary, the corrosion layer is not wear resistance, so we still use low carbon solutions, but the cost is higher. In order to reduce the cost, reduce the content of the use of fetters, use austenite accelerator nitrogen, nitrogen promoted the ferrite formed at high temperature to reverse into enough secondary austenite to maintain the necessary phase balance, improve the corrosion resistance, nitrogen can also improve the corrosion resistance of nitrogen rich austenite phase, and rich, aluminum ferrite phase balance, improve the overall corrosion resistance of the material. In addition, nitrogen can also reduce the difference in the distribution of the elements such as min and fetters in the two phases, reduce the tendency of selective corrosion, it is the use of the unique effect of nitrogen, can be easier to obtain ultra-low carbon two-phase steel.

2, Desulfurization liquid temperature is higher, the general pump will also occur cavitation damage, so the need to have good suction, and this must reduce efficiency as a substitute price, so the choice of a reasonable hydraulic model becomes the key, domestic design is not mature, so often appear supporting motor is not appropriate. The foreign model we choose, although not always able to work in the high efficiency zone, but smooth operation, no cavitation damage. And cavitation damage generally occurs at the inlet of the impeller, the front end of the blade appears honeycomb pits. The resulting inlet prespin damage is generally on the inside of the front guard plate, scoured out many gullies, and even perforated. Therefore, the pump with the lower required cavitation allowance is the best choice. The economic consideration of key parts such as impeller runner can only rely on the casting quality, each casting has offset, so each set should be carried out cavitation data measurement, at present this kind of unit is not much.
The cooling method of the bearing is thin oil lubrication with cooling. The scheme is more suitable for the national conditions of China, that is, the general operator can observe whether the oil level is abnormal by naked eye. When the heat generated by the bearing and the heat transmitted by the medium cause the oil temperature to be too high, the water cooling device can forcibly exchange heat, avoid the reduction of oil quality, reduce the life of the bearing, and more importantly, the smooth operation can extend the life of the mechanical seal.
The work ring of mechanical seal, generally choose silicon carbide material, the material belongs to the ceramic class, so it has the advantage of corrosion resistance, the friction coefficient is lower than hard alloy, but the brittleness is higher, bearing damage and cavitation caused by vibration, easy to damage. The mechanical seal with single end face must be lubricated and cooled by external water supply except when it is turned off. The water can be shut off during normal operation. The liquid film of the sealing surface can be maintained by medium, which has remarkable water-saving effect. Double-end mechanical seal can not arbitrarily stop the external water supply, so as to avoid flash and even rupture of the working ring.

The closed impeller and twisted blade are adopted to ensure the surface finish of the flow parts. The efficiency is improved by 3-10% compared with the cylindrical blade products. The inlet of the impeller is increased, and the blade is improved to improve the cavitation resistance, which is more suitable for conveying high temperature medium. The cover plate of the impeller is equipped with a high back blade at the front and a low back blade to discharge the return slurry in time, so as to improve the volume efficiency, reduce the back flow and erosion, and improve the service life and efficiency of the flow parts. Impeller with parallel cover plate, slurry into the impeller, at the exit to both sides of the formation of external vortex, so that the impeller before and after the cover plate and lining serious wear, this is the main reason for the short life of the flow parts, and ZJT series desulfurization pump fully absorbed the advantages of ZJ series slurry pump and WARMAN pump, the design of the impeller at the exit formed a concave shape, The impeller on both sides of the front and rear cover plate at the speed is greater than the intermediate speed, the slurry at the outlet is divided into two streams of fluid, rotating to the center, forcing the particles to flow to the center of the inner vortex, the concentration on both sides is reduced, thus reducing the wear of the pump body flow channel and two side walls. Reduce the number of leaves, usually 5, generally between 2 and 5. By increasing the inlet diameter of the impeller and the width between the blades, the flow capacity of the pump is greatly improved, and the solid phase blocking is effectively prevented. Can also be used according to the condition of the impeller. Some special conditions, because the pump conveying medium contains gypsum particles, the closed impeller is easy to lead to impeller obstruction, resulting in the pump can not work normally; The opening impeller fundamentally solves the problem of pump impeller blocking.
 

In order to ensure the quality of casting, advanced resin sand molding process is adopted to improve the internal quality and surface quality of casting; Medium frequency electric furnace smelting, easy to control the growth of crystals inside the material; The chemical composition of the material before the furnace is measured, and the advanced imported spectrum analyzer is adopted. The test speed is fast and the accuracy is high, so as to effectively control the chemical composition inside the casting.

 

Reasonable design, when the material selection, key station pump flow parts can be called "2605N" material, to ensure that the pump has good wear resistance and corrosion resistance, suitable for use in bad working conditions. Generally, Cr30A is used, which has a more suitable cost performance, so that the life of each pump in the same system is synchronized as far as possible, so as to facilitate the inspection and maintenance. The company has advanced metallographic analysis, nondestructive testing and tensile, impact testing equipment, so as to fundamentally ensure that the material quality of each component meets the national standards; Other materials can also be selected according to user requirements and working conditions.Detachable ring with self-locking function slope, more conducive to disassembly, can be reused many times without damage.
The casting company under the Group has many years of production history, which can produce castings with the maximum weight of 60 tons. It has been providing castings to international companies such as METSO and WARMAN, and has unique advantages in the field of desulfurization with their material formula and heat treatment process. Heat treatment center has all kinds of heating furnace, salt furnace, quenching pool and other advanced equipment. Due to the high adhesion and hardness of the blank, it is necessary to carry out aging and annealing treatment before roughing to reduce the hardness to about HRC35. After roughing, the micro structure is transformed to the required size by quenching treatment.
According to the different transmission power, choose the aligning roller bearings, angular contact ball bearings, ordinary heavy duty single row or double row tapered roller bearings made by WAFANGDIAN Bearing Factory. Bearing positioning is accurate, the service life is more than 100,000 hours, to ensure the long-term reliability of the pump operation.
The special solid-liquid two-phase flow design allows the slurry to be transported with a maximum weight concentration of 45%, thus achieving water and energy savings and increasing the amount of solids delivered per unit time.
Each pump is strictly tested before leaving the factory to ensure that the pump head error is ±5%, shaft power error is ±5%, flow error is ±5%, vibration speed <4.5mm/s, noise <80dBA (1 meter away from the pump), and ensure that the performance of each pump meet the quality requirements of long-term operation.

The main structure of TL(D) series products has absorbed the technology of KSB and adopts suspension structure. The impeller parts are taken out from the rear door, and all parts of the pump can be disassembled, inspected and repaired without disassembling and assembling pipelines. In order to meet the requirements of overhaul every five years, the material of the flow parts is made of imported material standards from the beginning. It was first promoted to the market after its practical application in the Group's own power plant, and it has been continuously improved according to the actual operation situation. Its excellent performance makes it the first choice in the domestic desulfurization pump industry at present.
 

Tl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical Plant
Tl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical Plant
Tl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical Plant

 

Product Parameters
  
Model Speed   n Capacity   Q Head
H
Power of shaft
Pa
Eff. Motors
Model Power/Voltage
r/min m3/h m kw %   kw/v
250TLD-47   640 29.6 71.7 72.0 Y315M-6 90/380
990 930 25.1 82.6 77.0 Y315L1-6 110/380
  1100 21.0 87.4 72.0 Y315L1-6 110/380
250TLD-44   580 25.5 54.4 74.0 Y315S-6 75/380
980 800 22.8 62.1 80.0 Y315S-6 75/380
  1000 18.8 69.2 74.0 Y315M-6 90/380
200TLD-50   410 36.0 63.9 62.9 Y315M-6 90/380
980 650 33.3 72.7 81.0 Y315L1-6 110/380
  800 30.0 81.7 80.0 Y315L1-6 110/380
  305 20.0 26.4 62.9 Y280S-8 37/380
730 484 18.5 30.1 81.0 Y280S-8 37/380
  596 16.6 33.7 80.0 Y280M-8 45/380
200TLD-B45   276 30.4 36.3 62.9 Y280S-6 45/380
980 551 25.6 47.5 80.0 Y280M-6 55/380
  638 22.8 50.9 77.8 Y315S-6 75/380
  206 16.9 15.1 62.9 Y225M-8 15/380
730 410 14.2 19.6 80.0 Y250M-8 30/380
  475 12.7 21.1 77.8 Y250M-8 30/380
150TLD-60   329 150.0 232.1 57.9 YKK400-4 280/6000
1480 576 136.3 308.1 69.4 YKK400-4 400/6000
  704 129.1 350.1 70.7 YKK400-4 450/6000
  218 65.8 67.5 57.9 Y315M-6 90/380
980 381 59.8 89.4 69.4 Y315L1-6 110/380
  466 56.6 101.6 70.7 Y315L2-6 132/380
  162 36.5 27.8 57.9 Y280S-8 37/380
730 284 33.2 37.0 69.4 Y280M-8 45/380
  347 31.4 42.0 70.7 Y315S-8 55/380
150TLD-40   260 61.2 68.8 63.0 Y280M-4 90/380
1490 440 53.8 88.2 73.1 Y315S-4 110/380
  500 50.7 95.4 72.8 Y315S-4 110/380
  171 26.5 19.6 63.0 Y225M-6 30/380
980 289 23.3 25.1 73.1 Y250M-6 37/380
  331 21.9 27.1 72.8 Y250M-6 37/380
100TLD-60   152 147.0 133.4 45.6 Y315M2-4 160/380
1490 256 138.5 170.9 56.5 Y315L2-4 200/380
  305 131.7 188.9 57.9 Y355M1-4 220/380
  101 64.9 39.1 45.6 Y280S-6 45/380
990 170 61.2 50.1 56.5 Y315S-6 75/380
  203 58.1 55.5 57.9 Y315S-6 75/380
100TLD-45   100 83.5 46.4 49.0 Y250M-4 55/380
1480 195 71.6 64.8 58.7 Y280S-4 75/380
  228 66.1 71.4 57.5 Y280M-4 90380
  66 36.6 13.4 49.0 Y200L1-6 18.5/380
980 129 31.4 18.8 58.7 Y225M-6 30/380
  151 29.0 20.7 57.5 Y225M-6 30/380
100TLD-42   140 70.8 50.3 53.7 Y280S-4 75/380
1480 245 67.0 65.7 68.0 Y280M-4 90/380
  275 65.5 69.7 70.4 Y280M-4 90/380
  93 31.0 14.6 53.7 Y200L2-6 22/380
980 162 29.4 19.1 68.0 Y225M-6 30/380
  182 28.7 20.2 70.4 Y225M-6 30/380
Model Speed   n Capacity   Q Head
H
Power of shaft
Pa
Eff. Motors
Model Power/Voltage
r/min m3/h m kw %   kw/v
250TLD-47   640 29.6 71.7 72.0 Y315M-6 90/380
990 930 25.1 82.6 77.0 Y315L1-6 110/380
  1100 21.0 87.4 72.0 Y315L1-6 110/380
250TLD-44   580 25.5 54.4 74.0 Y315S-6 75/380
980 800 22.8 62.1 80.0 Y315S-6 75/380
  1000 18.8 69.2 74.0 Y315M-6 90/380
200TLD-50   410 36.0 63.9 62.9 Y315M-6 90/380
980 650 33.3 72.7 81.0 Y315L1-6 110/380
  800 30.0 81.7 80.0 Y315L1-6 110/380
  305 20.0 26.4 62.9 Y280S-8 37/380
730 484 18.5 30.1 81.0 Y280S-8 37/380
  596 16.6 33.7 80.0 Y280M-8 45/380
200TLD-B45   276 30.4 36.3 62.9 Y280S-6 45/380
980 551 25.6 47.5 80.0 Y280M-6 55/380
  638 22.8 50.9 77.8 Y315S-6 75/380
  206 16.9 15.1 62.9 Y225M-8 15/380
730 410 14.2 19.6 80.0 Y250M-8 30/380
  475 12.7 21.1 77.8 Y250M-8 30/380
150TLD-60   329 150.0 232.1 57.9 YKK400-4 280/6000
1480 576 136.3 308.1 69.4 YKK400-4 400/6000
  704 129.1 350.1 70.7 YKK400-4 450/6000
  218 65.8 67.5 57.9 Y315M-6 90/380
980 381 59.8 89.4 69.4 Y315L1-6 110/380
  466 56.6 101.6 70.7 Y315L2-6 132/380
  162 36.5 27.8 57.9 Y280S-8 37/380
730 284 33.2 37.0 69.4 Y280M-8 45/380
  347 31.4 42.0 70.7 Y315S-8 55/380
150TLD-40   260 61.2 68.8 63.0 Y280M-4 90/380
1490 440 53.8 88.2 73.1 Y315S-4 110/380
  500 50.7 95.4 72.8 Y315S-4 110/380
  171 26.5 19.6 63.0 Y225M-6 30/380
980 289 23.3 25.1 73.1 Y250M-6 37/380
  331 21.9 27.1 72.8 Y250M-6 37/380
100TLD-60   152 147.0 133.4 45.6 Y315M2-4 160/380
1490 256 138.5 170.9 56.5 Y315L2-4 200/380
  305 131.7 188.9 57.9 Y355M1-4 220/380
  101 64.9 39.1 45.6 Y280S-6 45/380
990 170 61.2 50.1 56.5 Y315S-6 75/380
  203 58.1 55.5 57.9 Y315S-6 75/380
100TLD-45   100 83.5 46.4 49.0 Y250M-4 55/380
1480 195 71.6 64.8 58.7 Y280S-4 75/380
  228 66.1 71.4 57.5 Y280M-4 90380
  66 36.6 13.4 49.0 Y200L1-6 18.5/380
980 129 31.4 18.8 58.7 Y225M-6 30/380
  151 29.0 20.7 57.5 Y225M-6 30/380
100TLD-42   140 70.8 50.3 53.7 Y280S-4 75/380
1480 245 67.0 65.7 68.0 Y280M-4 90/380
  275 65.5 69.7 70.4 Y280M-4 90/380
  93 31.0 14.6 53.7 Y200L2-6 22/380
980 162 29.4 19.1 68.0 Y225M-6 30/380
  182 28.7 20.2 70.4 Y225M-6 30/380
Model Speed   n Capacity   Q Head
H
Power of shaft
Pa
Eff. Motors
Model Power/Voltage
r/min m3/h m kw %   kw/v
250TLD-47   640 29.6 71.7 72.0 Y315M-6 90/380
990 930 25.1 82.6 77.0 Y315L1-6 110/380
  1100 21.0 87.4 72.0 Y315L1-6 110/380
250TLD-44   580 25.5 54.4 74.0 Y315S-6 75/380
980 800 22.8 62.1 80.0 Y315S-6 75/380
  1000 18.8 69.2 74.0 Y315M-6 90/380
200TLD-50   410 36.0 63.9 62.9 Y315M-6 90/380
980 650 33.3 72.7 81.0 Y315L1-6 110/380
  800 30.0 81.7 80.0 Y315L1-6 110/380
  305 20.0 26.4 62.9 Y280S-8 37/380
730 484 18.5 30.1 81.0 Y280S-8 37/380
  596 16.6 33.7 80.0 Y280M-8 45/380
200TLD-B45   276 30.4 36.3 62.9 Y280S-6 45/380
980 551 25.6 47.5 80.0 Y280M-6 55/380
  638 22.8 50.9 77.8 Y315S-6 75/380
  206 16.9 15.1 62.9 Y225M-8 15/380
730 410 14.2 19.6 80.0 Y250M-8 30/380
  475 12.7 21.1 77.8 Y250M-8 30/380
150TLD-60   329 150.0 232.1 57.9 YKK400-4 280/6000
1480 576 136.3 308.1 69.4 YKK400-4 400/6000
  704 129.1 350.1 70.7 YKK400-4 450/6000
  218 65.8 67.5 57.9 Y315M-6 90/380
980 381 59.8 89.4 69.4 Y315L1-6 110/380
  466 56.6 101.6 70.7 Y315L2-6 132/380
  162 36.5 27.8 57.9 Y280S-8 37/380
730 284 33.2 37.0 69.4 Y280M-8 45/380
  347 31.4 42.0 70.7 Y315S-8 55/380
150TLD-40   260 61.2 68.8 63.0 Y280M-4 90/380
1490 440 53.8 88.2 73.1 Y315S-4 110/380
  500 50.7 95.4 72.8 Y315S-4 110/380
  171 26.5 19.6 63.0 Y225M-6 30/380
980 289 23.3 25.1 73.1 Y250M-6 37/380
  331 21.9 27.1 72.8 Y250M-6 37/380
100TLD-60   152 147.0 133.4 45.6 Y315M2-4 160/380
1490 256 138.5 170.9 56.5 Y315L2-4 200/380
  305 131.7 188.9 57.9 Y355M1-4 220/380
  101 64.9 39.1 45.6 Y280S-6 45/380
990 170 61.2 50.1 56.5 Y315S-6 75/380
  203 58.1 55.5 57.9 Y315S-6 75/380
100TLD-45   100 83.5 46.4 49.0 Y250M-4 55/380
1480 195 71.6 64.8 58.7 Y280S-4 75/380
  228 66.1 71.4 57.5 Y280M-4 90380
  66 36.6 13.4 49.0 Y200L1-6 18.5/380
980 129 31.4 18.8 58.7 Y225M-6 30/380
  151 29.0 20.7 57.5 Y225M-6 30/380
100TLD-42   140 70.8 50.3 53.7 Y280S-4 75/380
1480 245 67.0 65.7 68.0 Y280M-4 90/380
  275 65.5 69.7 70.4 Y280M-4 90/380
  93 31.0 14.6 53.7 Y200L2-6 22/380
980 162 29.4 19.1 68.0 Y225M-6 30/380
  182 28.7 20.2 70.4 Y225M-6 30/380
Model Speed   n Capacity   Q Head
H
Power of shaft
Pa
Eff. Motors
Model Power/Voltage
r/min m3/h m kw %   kw/v
250TLD-47   640 29.6 71.7 72.0 Y315M-6 90/380
990 930 25.1 82.6 77.0 Y315L1-6 110/380
  1100 21.0 87.4 72.0 Y315L1-6 110/380
250TLD-44   580 25.5 54.4 74.0 Y315S-6 75/380
980 800 22.8 62.1 80.0 Y315S-6 75/380
  1000 18.8 69.2 74.0 Y315M-6 90/380
200TLD-50   410 36.0 63.9 62.9 Y315M-6 90/380
980 650 33.3 72.7 81.0 Y315L1-6 110/380
  800 30.0 81.7 80.0 Y315L1-6 110/380
  305 20.0 26.4 62.9 Y280S-8 37/380
730 484 18.5 30.1 81.0 Y280S-8 37/380
  596 16.6 33.7 80.0 Y280M-8 45/380
200TLD-B45   276 30.4 36.3 62.9 Y280S-6 45/380
980 551 25.6 47.5 80.0 Y280M-6 55/380
  638 22.8 50.9 77.8 Y315S-6 75/380
  206 16.9 15.1 62.9 Y225M-8 15/380
730 410 14.2 19.6 80.0 Y250M-8 30/380
  475 12.7 21.1 77.8 Y250M-8 30/380
150TLD-60   329 150.0 232.1 57.9 YKK400-4 280/6000
1480 576 136.3 308.1 69.4 YKK400-4 400/6000
  704 129.1 350.1 70.7 YKK400-4 450/6000
  218 65.8 67.5 57.9 Y315M-6 90/380
980 381 59.8 89.4 69.4 Y315L1-6 110/380
  466 56.6 101.6 70.7 Y315L2-6 132/380
  162 36.5 27.8 57.9 Y280S-8 37/380
730 284 33.2 37.0 69.4 Y280M-8 45/380
  347 31.4 42.0 70.7 Y315S-8 55/380
150TLD-40   260 61.2 68.8 63.0 Y280M-4 90/380
1490 440 53.8 88.2 73.1 Y315S-4 110/380
  500 50.7 95.4 72.8 Y315S-4 110/380
  171 26.5 19.6 63.0 Y225M-6 30/380
980 289 23.3 25.1 73.1 Y250M-6 37/380
  331 21.9 27.1 72.8 Y250M-6 37/380
100TLD-60   152 147.0 133.4 45.6 Y315M2-4 160/380
1490 256 138.5 170.9 56.5 Y315L2-4 200/380
  305 131.7 188.9 57.9 Y355M1-4 220/380
  101 64.9 39.1 45.6 Y280S-6 45/380
990 170 61.2 50.1 56.5 Y315S-6 75/380
  203 58.1 55.5 57.9 Y315S-6 75/380
100TLD-45   100 83.5 46.4 49.0 Y250M-4 55/380
1480 195 71.6 64.8 58.7 Y280S-4 75/380
  228 66.1 71.4 57.5 Y280M-4 90380
  66 36.6 13.4 49.0 Y200L1-6 18.5/380
980 129 31.4 18.8 58.7 Y225M-6 30/380
  151 29.0 20.7 57.5 Y225M-6 30/380
100TLD-42   140 70.8 50.3 53.7 Y280S-4 75/380
1480 245 67.0 65.7 68.0 Y280M-4 90/380
  275 65.5 69.7 70.4 Y280M-4 90/380
  93 31.0 14.6 53.7 Y200L2-6 22/380
980 162 29.4 19.1 68.0 Y225M-6 30/380
  182 28.7 20.2 70.4 Y225M-6 30/380
C Speed    n Capacity    Q Head
H
Power of shaft    Pa Eff. Motors
Model Power/Voltage
r/min m3/h m kw %   kw/v
50TLD-D40   33 51.7 13.1 35.4 Y180M-4 18.5/380
1440 68 43.4 17.8 45.1 Y200L-4 30/380
  76 40.8 18.9 44.7 Y200L-4 30/380
  22 22.5 3.8 35.4 Y132M2-6 5.5/380
970 45 18.9 5.1 45.1 Y160M-6 7.5/380
  50 17.7 5.4 44.7 Y160M-6 7.5/380
50TLD-33   26 42.5 9.2 32.8 Y160L-4 15/380
1480 40 40.0 10.7 40.6 Y180M-4 18.5/380
  54 34.5 12.3 41.4 Y180M-4 18.5/380
  17 17.9 2.5 32.8 Y132M1-6 4/380
980 26 16.8 2.9 40.6 Y132M2-6 5.5/380
  35 14.5 3.3 41.4 Y132M2-6 5.5/380
50TLD-30   34 36.3 7.8 43.1 Y160M-4 11/380
1460 55 31.9 9.9 48.5 Y160L-4 15/380
  78 26.4 12.4 45.4 Y180M-4 18.5/380
  22 15.7 2.2 43.1 Y132M1-6 4/380
960 36 13.8 2.8 48.5 Y132M2-6 5.5/380
  51 11.4 3.5 45.4 Y132M2-6 5.5/380
40TLD-25   35.5 88.6 20.7 41.3 Y200L1-2 30/380
2950 58.8 73.5 27.7 42.5 Y200L2-2 37/380
  74.7 60.8 31.2 39.6 Y200L2-2 37/380
  17.3 21.1 2.4 41.3 Y112M-4 4/380
1440 28.7 17.5 3.2 42.5 Y132S-4 5.5/380
  36.5 14.5 3.6 39.6 Y132S-4 5.5/380
40TLD-19   16.3 57.1 6.5 39.2 Y160M1-2 11/380
2930 30.0 54.9 8.1 55.4 Y160M1-2 11/380
  34.9 53.7 8.7 58.8 Y160M1-2 11/380
  8.0 13.6 0.8 39.2 Y90L-4 1.5/380
1430 14.6 13.1 0.9 55.4 Y90L-4 1.5/380
  17.0 12.8 1.0 58.8 Y100L1-4 2.2/380
251LD-25   9.6 21.6 1.7 33.2 Y100L2-4 3/380
1440 17.8 16.6 2.1 38.0 Y112M-4 4/380
  19.9 13.9 2.2 33.8 Y112M-4 4/380
  6.0 8.6 0.4 33.2 Y90S-6 0.75/380
910 11.2 6.6 0.5 38.0 Y90L-6 1.1/380
  12.5 5.5 0.6 33.8 Y90L-6 1.1/380
25TLD-15   9.2 34.4 2.6 32.7 Y132S1-2 5.5/380
2900 17.1 29.5 3.3 41.8 Y132S1-2 5.5/380
  19.3 27.1 3.5 40.8 Y132S1-2 5.5/380
  4.4 7.9 0.3 32.7 Y801-4 0.55/380
1390 8.2 6.8 0.4 41.8 Y802-4 0.75/380
  9.3 6.2 0.4 40.8 Y802-4 0.75/380
Detailed Photos

Tl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical PlantTl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical PlantTl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical PlantTl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical PlantTl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical PlantTl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical PlantTl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical PlantTl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical PlantTl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical PlantTl (D) and Tll Series Desulphurization Pumps for Desulfurizing Tower for Steel Desulfurization for Doctor Solution for Ceramics for Chemical Plant

Send your message to this supplier

*From:
*To:
*Message:

Enter between 20 to 4,000 characters.

This is not what you are looking for? Post a Sourcing Request Now
Contact Supplier