Differential Pressureが高くなると、Aは激しく動きます。Aが動いてしまうと、樹脂はリークしてしまいます。それを防止するために、AにSpecial O-ringとSpecial Gasketを採用しています。さらに、Bのarea of stasisをminimizeしています。
このスライドは我々がC及びDの計算をした結果を示しています。我々はFlowrete 200Kg/hで5μのエレメントを使うことを推奨します。
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55
Native
Translation / English
- Posted at 29 Nov 2017 at 00:46
When the differential pressure rises, A moves violently. If A moves the resin leaks. In order to prevent this we adopted a special o-ring and special gasket for A. Furthermore, we minimized B's area of stasis.
This slide shoes the results of our calculations for C and D. We recommend the use of a 5 micron element with a flowrate of 200 kg/h.
This slide shoes the results of our calculations for C and D. We recommend the use of a 5 micron element with a flowrate of 200 kg/h.
Rating
50
Translation / English
- Posted at 29 Nov 2017 at 00:57
When the differential pressure gets higher, A churns. When A churns, the plastic leaking occurs. In order to prevent it from the leaking, we use the adapters: a special O-ring and a special gasket to A. We also minimise the area of stasis B.
The attached slides show the calculation results of C and B. We recommend the us of flow rate by 200kg/h with 5 μ elements.
The attached slides show the calculation results of C and B. We recommend the us of flow rate by 200kg/h with 5 μ elements.
