Model: | - |
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Brand: | Durkeesox, Nanosox, Insusox |
Origin: | Made In China |
Category: | Electronics & Electricity / Other Electrical & Electronic |
Label: | half round duct |
Price: |
US $100
/ pcs
|
Min. Order: | 1 pcs |
Last Online:15 Sep, 2020 |
URR™ (UNIFORM AIR VELOCITY, REDUCER, RETENTION)-N SERIES
URR cloth ductwork perfectly integrates uniform air velocity controlling technology with the internal retention ring system. URR cloth air duct system remains round when deflated, absorbing all advantages of both products, It presents more stable inner air velocity, more balanced inner pressure, better visual pleasing effect, easier installation, and higher cost-efficiency.
Advantage
More Stable Inner Air Velocity
Inner Air Velocity on Lengthwise Section
Under the same air supply condition, the internal air velocity curve of ordinary equant round duct is sharply descendant along with lengthwise direction, the air velocity tends to zero at the end cap; UR system can generally ensure stable internal air velocity.
Air Dispersion Direction Diagram of Ordinary Equant Round Duct
Due to vector superposition effect, there is wide difference in internal air velocity from inlet to end cap of ordinary equant round duct.
Air Dispersion Direction Diagram of UR System
Uniform air velocity inside UR system results in same air dispersion direction along the duct.
More Balanced Inner Pressure
Static Pressure Curve of Ordinary Equant Round Duct
Static Pressure Curve of Ordinary Equant Round Duct
Generally speaking, the air velocity is rapidly decreasing inside ordinary equant round duct. Since the static pressure regain leads to the increasing of dynamic pressure whereas less on-way resistance, the overall static pressure from inlet to end cap has a certain increase. PAD must be installed to balance static pressure.
Static Pressure Curve of UR System
Static Pressure Curve of UR System
Since UR system is cone-shaped from inlet to end cap, its on-way resistance is larger than that of ordinary equant round duct. Meanwhile, the internal air velocity is relatively uniform and the static pressure regain is lower. The test result turns out that UR system could basically achieve balanced inner static pressure as long as it is not exceptionally long.
Effectively Slow Down Temperature
Ordinary Equant Round Fabric Duct System
Ordinary Equant Round Fabric Duct System
If ordinary equant duct is running with excessively high surrounding temperature or over-length, the inner air temperature lengthwise has a certain rise.The degree of temperature rise is relevant to duct length and temperature difference between insideand outside duct surface.
UR Air Dispersion System
UR Air Dispersion System
The relatively high axial air velocity of UR system reduces the heating exchange time between the inner air and duct surface, which slows down and reduces the temperature rising. Meanwhile, as the decreasing of surface area along the rear duct results in smaller heating exchange contact area, that is conducive to further slow down and reduce temperature rising. The test result turns out that the temperature rising control efficiency of UR system has been improved for 70% compared with Ordinary equant round fabric duct.
Achieve More Uniform Airflow Distribution
UR System With Multi-Branches
UR System With Multi-Branches
Since the air velocity in main duct of UR system is completely stable and balanced while the included angle between duct surface and branch duct is slightly less than 90°, that is conducive to lead uniform air distribution to each branch.
Ordinary Equant round fabric duct with multi-branches
Ordinary Equant round fabric duct with multi-branches
Different air velocity in main duct of Ordinary equant round fabric duct leads to different airflow supply in each branch, which causes the nearer the branch is to endcap, the more airflow the branch is to receive. ACD is required to balance airflow in each branch.
Advantages of URR Cloth Air Duct
More Stable Inner Air Velocity
More Stable Inner Air Velocity
More Balanced Inner Pressure
More Balanced Inner Pressure
Effectively Slow Down Temperature
Effectively Slow Down Temperature
Achieve More Uniform Airflow Distribution
Achieve More Uniform Airflow Distribution
Inner Air Velocity on Lengthwise Section
Inner Air Velocity on Lengthwise Section
Under the same air supply condition, the internal air velocity curve of ordinary equant round duct is sharply descendant along with lengthwise direction, the air velocity tends to zero at the end cap; UR system can generally ensure stable internal air velocity.
Air Dispersion Direction Diagram of Ordinary Equant Round Duct
Air Dispersion Direction Diagram of Ordinary Equant Round Duct
Due to vector superposition effect, there is wide difference in internal air velocity from inlet to end cap of ordinary equant round duct.
Air Dispersion Direction Diagram of UR System
Air Dispersion Direction Diagram of UR System
Uniform air velocity inside UR system results in same air dispersion direction along the duct.
Static Pressure Curve of Ordinary Equant Round Duct
Static Pressure Curve of Ordinary Equant Round Duct
Generally speaking, the air velocity is rapidly decreasing inside ordinary equant round duct. Since the static pressure regain leads to the increasing of dynamic pressure whereas less on-way resistance, the overall static pressure from inlet to end cap has a certain increase. PAD must be installed to balance static pressure.
Static Pressure Curve of UR System
Static Pressure Curve of UR System
Since UR system is cone-shaped from inlet to end cap, its on-way resistance is larger than that of ordinary equant round duct. Meanwhile, the internal air velocity is relatively uniform and the static pressure regain is lower. The test result turns out that UR system could basically achieve balanced inner static pressure as long as it is not exceptionally long.
Ordinary Equant Round Fabric Duct System
Ordinary Equant Round Fabric Duct System
If ordinary equant duct is running with excessively high surrounding temperature or over-length, the inner air temperature lengthwise has a certain rise.The degree of temperature rise is relevant to duct length and temperature difference between insideand outside duct surface.
UR Air Dispersion System
UR Air Dispersion System
The relatively high axial air velocity of UR system reduces the heating exchange time between the inner air and duct surface, which slows down and reduces the temperature rising. Meanwhile, as the decreasing of surface area along the rear duct results in smaller heating exchange contact area, that is conducive to further slow down and reduce temperature rising. The test result turns out that the temperature rising control efficiency of UR system has been improved for 70% compared with Ordinary equant round fabric duct.
UR System With Multi-Branches
UR System With Multi-Branches
Since the air velocity in main duct of UR system is completely stable and balanced while the included angle between duct surface and branch duct is slightly less than 90°, that is conducive to lead uniform air distribution to each branch.
Ordinary Equant round fabric duct with multi-branches
Ordinary Equant round fabric duct with multi-branches
Different air velocity in main duct of Ordinary equant round fabric duct leads to different airflow supply in each branch, which causes the nearer the branch is to endcap, the more airflow the branch is to receive. ACD is required to balance airflow in each branch.
Where to Use the Cloth Ductwork
Post Air Supply Aress
Post Air Supply Aress
Given high ambient temperature, large airflow and relatively long duct in such areas as machining workshop, URR air dispersion system maintains high and uniform air velocity by continuously changing conicity to achieve even air dispersion and significantly reduce temperature rising.
Large And High-Elevation Facility
Large And High-Elevation Facility
Given large airflow and high ambient temperature in high and large space, UR air dispersion system is applied to obtain higher air velocity at each orifice and long air throw distance with aesthetic appearance.
High Demand For Even Air Dispersion
High Demand For Even Air Dispersion
Given the high requirement of even air dispersion along the duct and strict control of end air velocity, the global leading design software Isox is used to calculate and generate continuously variable diameter UR system to identify as the best uniform velocity air dispersion system.
High Demand For Cost Efficiency
High Demand For Cost Efficiency
Given the high space and large airflow in such areas as logistics warehouse and cold logistics, both effective air dispersion and cost efficiency shall be taken into consideration. UR airdispersion system can not only ensure even air dispersion but also reduce overall cost because of less fabric consumption.
Durkeesox produces cloth duct,we also provide fabric air dispersion and fabric duct design service,yuo can trust us.
Payment Terms: | T/T, L/C |
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