It was invented by Jaeger Tri. Generally speaking, No big surface area is Tri-pack’s biggest advantage. Owing to Tri-pack has no corners and valleys. The result is extraordinarily high scrubbing efficiency while minimizing the amount of media and packing depth required.and prevents dry spots and compression interlock.The distinctive shaping of ribs, struts and drip rods gives Tri-Packs tower packing media superior wetting characteristics, and the ability to maintain uniform liquid distribution throughout the bed.
Technical Parameter
Technical Parameter | |||||
Size mm | Surface area ft²/ft³ | Packing Factor | Void ratio % | Bulk Density Kg/m³ | Number/cbm Pcs/m³ |
25 | 85 | 28 | 90 | 75 | 81200 |
32 | 70 | 25 | 92 | 70 | 25000 |
50 | 48 | 16 | 93 | 52 | 11500 |
60 | 45 | 14 | 90 | 42 | 8400 |
65 | 42 | 13 | 91 | 74 | 4800 |
80 | 40 | 12 | 94 | 56 | 3050 |
95 | 38 | 12 | 95 | 45 | 1800 |
Trade Details
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. Stripping, degasifier and scrubber 2. Liquid extraction 3. Gas & Liquid Separation 4. Water treatment |
Production time | 7 days against one 20GP container loading quantity |
Executive standard | HG/T 3986-2016 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. |
Typically Application
1: Stripping, degasifier and scrubber
2: Liquid extraction
3: Gas & Liquid Separation
4: Water treatment
The key features of tri-pac packing include:
Three-layer structure:
The tri-pac packing consists of three distinct layers of packing material.
These layers are typically made of different materials or have varying characteristics to enhance the overall performance.
Layered configuration:
The three layers are stacked or arranged in a way that creates a structured packing.
The layers can be oriented in different directions, such as vertical, horizontal, or at an angle, to optimize the fluid dynamics and mass transfer efficiency.
Commonly used materials:
The individual layers in a tri-pac packing can be made from various materials, such as:
Metal (e.g., stainless steel, aluminum)
Ceramic
Plastic (e.g., polypropylene, polyethylene)
Structured wire mesh
Specific design and configuration:
The thickness, porosity, and surface area of each layer can be tailored to the specific application requirements.
The arrangement and combination of the three layers are designed to improve the overall performance, such as enhanced mass transfer, reduced pressure drop, and improved liquid and vapor distribution.
The key benefits of using tri-pac packing in industrial processes include:
Improved mass transfer: The layered structure and customized design of the tri-pac packing can enhance the mass transfer between the liquid and vapor phases, leading to higher efficiency in distillation, absorption, and other separation processes.
Reduced pressure drop: The optimized design of the tri-pac packing can minimize the pressure drop across the packing, resulting in lower energy consumption for the operation of the equipment.
Flexibility in applications: Tri-pac packing can be designed and configured to suit a wide range of industrial applications, such as chemical processing, petrochemical refineries, and natural gas processing.
Durability and longevity: The use of robust materials, such as metals and ceramics, in the tri-pac packing can provide increased mechanical strength and resistance to harsh operating conditions, ensuring longer service life.
Tri-pac packing is commonly used in various industrial distillation columns, absorption towers, reactors, and other mass transfer equipment where efficient and reliable performance is crucial for the overall process efficiency and product quality
Tri-pac balls have several specific applications in the petrochemical industry, where they are utilized in various distillation, absorption, and other mass transfer operations. Some of the key applications of tri-pac balls in the petrochemical industry include:
Distillation columns:
Tri-pac balls are commonly used as structured packing in the distillation columns employed in petrochemical refineries and processing plants.
These columns are used for the separation and purification of various petrochemical compounds, such as hydrocarbons, alcohols, and other organic chemicals.
The tri-pac ball packing helps to improve the efficiency of the distillation process, enhancing the separation of the different components.
Absorption towers:
Tri-pac balls are used as packing material in absorption towers, which are used for the removal of specific compounds from gas streams.
In the petrochemical industry, absorption towers are often used for the removal of sulfur compounds, carbon dioxide, and other impurities from natural gas or refinery off-gases.
The tri-pac ball packing provides a large surface area for efficient mass transfer between the gas and the absorbing liquid, improving the overall removal efficiency.
Fractionation units:
Tri-pac balls are employed in the fractionation units of petrochemical refineries, where they are used as packing in the various distillation columns.
Fractionation units are responsible for the separation of complex hydrocarbon mixtures, such as crude oil or natural gas liquids, into their individual components, such as methane, ethane, propane, butane, and heavier fractions.
The tri-pac ball packing enhances the separation efficiency and product quality in these fractionation units.
Catalytic reactors:
In some petrochemical processes, tri-pac balls can be used as a support structure for catalysts in fixed-bed reactors.
The layered structure and the large surface area of the tri-pac balls provide an effective platform for the catalyst to be distributed and optimized for various catalytic reactions, such as hydrocracking, hydrodesulfurization, and catalytic reforming.
Gas processing:
Tri-pac balls are utilized in the gas processing facilities of the petrochemical industry, where they are used in the separation and purification of natural gas, liquefied petroleum gas (LPG), and other gaseous petrochemical products.
The superior mass transfer properties and efficient packing arrangement of tri-pac balls contribute to the effective removal of contaminants and the production of high-purity gas streams.
