Télécharger l'APK compatible pour PC
| Télécharger pour Android | Développeur | Rating | Score | Version actuelle | Classement des adultes |
|---|---|---|---|---|---|
| ↓ Télécharger pour Android | Kaup Shenoy Associates | 0 | 0 | 2.3 | 4+ |
| SN | App | Télécharger | Rating | Développeur |
|---|---|---|---|---|
| 1. | fluid pressure drop
|
Télécharger | /5 0 Commentaires |
En 4 étapes, je vais vous montrer comment télécharger et installer Fluid Pressure Drop sur votre ordinateur :
Un émulateur imite/émule un appareil Android sur votre PC Windows, ce qui facilite l'installation d'applications Android sur votre ordinateur. Pour commencer, vous pouvez choisir l'un des émulateurs populaires ci-dessous:
Windowsapp.fr recommande Bluestacks - un émulateur très populaire avec des tutoriels d'aide en ligneSi Bluestacks.exe ou Nox.exe a été téléchargé avec succès, accédez au dossier "Téléchargements" sur votre ordinateur ou n'importe où l'ordinateur stocke les fichiers téléchargés.
Lorsque l'émulateur est installé, ouvrez l'application et saisissez Fluid Pressure Drop dans la barre de recherche ; puis appuyez sur rechercher. Vous verrez facilement l'application que vous venez de rechercher. Clique dessus. Il affichera Fluid Pressure Drop dans votre logiciel émulateur. Appuyez sur le bouton "installer" et l'application commencera à s'installer.
Fluid Pressure Drop Sur iTunes
| Télécharger | Développeur | Rating | Score | Version actuelle | Classement des adultes |
|---|---|---|---|---|---|
| 5,99 € Sur iTunes | Kaup Shenoy Associates | 0 | 0 | 2.3 | 4+ |
Users can pick from a list of fifteen most common fluids, pipe schedules and sizes with different material of construction to determine overall pressure loss. In addition, fluids that are not in the list, users can create a custom fluid with property data that can be saved and compute the pressure loss using the model provided in this app. Fluid velocity, Reynolds number and pipe friction coefficient are computed as a function of pipe size, fluid density and viscosity. App has its own algorithm to compute the coefficient of pipe friction based on roughness factor for the given material and Reynolds number under turbulent conditions. A judicious selection of pipe size is often a trade off between initial cost and subsequent energy cost involved in transmission of fluid from one point to another. Users can choose different unit of measurement for both flow as well as pressure drop under given unit standard (SI or USCS). Pressure loss is computed using Darcy’s equation, which gives a good estimate for both liquid and gases. Based on the size, length and material of construction, the app gives the total weight of the pipe for trade-off analysis. Also this app provides result of different flow parameters used in the computation of pressure loss. For laminar flow, it is a function of Reynolds number and irrespective of pipe roughness. For more accuracy users can edit the pipe roughness factor. Users can choose any generic valve or fitting from the list provided in this app that are commonly used in industries. Air, Steam, Water, Nitrogen, Oxygen, Hydrogen, Helium, CO2, Methane, Ethane, Chlorine, Ammonia, Argon, Hydraulic oil, HFC (R410A), Custom (user's choice gas or liquid). This app computes energy loss involved in transmission of fluids for industrial applications. Users can pick applicable sizes under nominal diameter for which app provides the corresponding inside and outside diameter. For gases, the method is valid if the fluid velocity is within 40% of its sonic velocity. This can be conveniently selected while choosing the fluid from the picker list as shown in the screen shots. For gases, additional data on sonic velocity is provided for a quick reference and validity. Globe valve, Gate valve, Ball valve, Butterfly valve, Angle valve, Check-valve, Check-angle, Check-lift. Section has been added for computation of pressure losses in valves and fittings. Therefore, the app can be a helpful tool for practicing engineers and designers in analyzing different matrix. Elbow, Reducer, Diffuser, T-couple, Bend-U, Bend-45, Bend-90. Steel, SS, GI, CI, Concrete, Copper, Aluminum, PVC, Glass, Wood, FRP, Rubber.