Technical Parameter OF PTFE Corrugated Plate Structured Packing
Technical Parameter | |||||||
Model | piece/m | Specific area | Void volume | P per plate | Bulk density | max F factor | m 3/m 2.hr |
125Y | 1-2 | 125 | 0.98 | 2*10 -4 | 37.5 | 3 | 0.20-100 |
250Y | 2-2.5 | 250 | 0.97 | 3*10 -4 | 75 | 2.6 | 0.20-100 |
350Y | 3.5-4 | 350 | 0.94 | 2*10 -4 | 105 | 2 | 0.20-100 |
500Y | 4-4.5 | 500 | 0.92 | 3*10 -4 | 150 | 1.8 | 0.20-100 |
125X | 0.8-1.9 | 125 | 0.98 | 1.4*10 -4 | 37.5 | 3.5 | 0.20-100 |
250X | 1.5-2 | 250 | 0.97 | 1.8*10 -4 | 75 | 2.8 | 0.20-100 |
350Y | 2.3-2.8 | 350 | 0.94 | 1.3*10 -4 | 105 | 2.2 | 0.20-100 |
500X | 2.8-3.2 | 500 | 0.92 | 1.8*10 -4 | 150 | 2 | 0.20-100 |
Trade Details of PTFE Corrugated Plate Structured Packing
Related Trade Information | |
HS Code | 3926909090 |
Package | 1: Two Super sacks on Fumigation Pallet 2: 100L plastic woven bag on Fumigation Pallet 3: 500*500*500 mm carton on Fumigation Pallet 4: Upon your requirement |
Process Method | Injection |
Material | PP,PVC,PFA,PE,CPVC,PVDF,PPS.PES,E-CTFE,FRPP and so on |
Typical Application | 1:Absorption&Desorption 2:Cooling tower 3:Hydrochloric acid,surfuric acid etc.. |
Production time | 7 days against one 20GP container loading quantity |
Executive standard | HG/T 5099-2016 or refer to your detailed requirement |
Sample | Free samples within 500 Grams |
Other | Accept EPC turnkey,OEM/OEM,Mold Customization,Installation&Guidance,Test, Entrusted design service etc. |
Typical Application of PTFE Corrugated Plate Structured Packing
1: Air separation plant direct contact cooler.
2: Flue gas cooler.
3: Seawater scrubber.
4: HCl absorber.
5: SO2 absorber.
6: ClO/ClO2 scrubber.
7: Deaerators.
Feature of PTFE Corrugated Plate Structured Packing
1: High efficiency, high capacity and low pressure drop as metal structured packing.
2: Excellent corrosion resistance performance to be used in high corrosive applications.
3: Better high temperature resistance than metal structured packing and ceramic structured packing. Working temperature of PP packings can reach 100 °C and PVDF packings can reach 150 °C.
4: Perforated plates packings with small holes on surface increase mass transfer efficiency.
5: High sheet stiffness of no perforation packings in less separation requirements applications.
PTFE (Polytetrafluoroethylene) corrugated plate structured packing is a type of structured packing material used in various industrial processes, particularly in the chemical and petrochemical industries. Here are the key details about PTFE corrugated plate structured packing:
Material Composition:
Chemical and Thermal Resistance: PTFE’s exceptional resistance to a wide range of chemicals and high temperatures makes the packing suitable for use in harsh environments.
Non-Wetting and Anti-Fouling Properties: The non-stick nature of PTFE reduces the tendency for fouling and scaling, minimizing maintenance requirements.
Low Pressure Drop: The structured packing design contributes to a relatively low pressure drop across the packing bed, reducing energy consumption and operating costs.
Dimensional Stability: PTFE’s dimensional stability ensures the packing maintains its physical integrity and performance over time.
Applications:
Distillation Columns: PTFE corrugated plate structured packing is commonly used in distillation columns, where its high surface area and efficient mass transfer enhance the separation and purification of various chemical compounds.
Absorption and Desorption Processes: The packing is employed in absorption and desorption towers, facilitating the transfer of components between gas and liquid phases, such as in gas sweetening, flue gas treatment, and solvent recovery processes.
Heat Exchangers: PTFE corrugated plate structured packing can be used in heat exchanger applications, where its non-wetting properties and thermal resistance are advantageous.
The packing consists of a series of corrugated PTFE plates stacked together to form a structured packing.
The corrugated design creates a high surface area and complex flow paths, which are essential for effective mass transfer and fluid-fluid contact.
The plates are typically arranged in a cross-flow or counter-flow configuration, depending on the specific application.
Key Features and Benefits:
High Surface Area: The corrugated plate design maximizes the surface area per unit volume, enhancing mass transfer and phase contact.
