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- Hydraulic Cylinder Calc
- Hydraulic Cylinder Calc Vs. Heat Exchanger Performance
Hydraulic Cylinder Calc vs. Heat Exchanger Performance Utilizzo e statistiche
The Hydraulic Cylinder Calculator is a comprehensive tool designed for working with hydraulic cylinders. Users can input parameters such as piston diameter, pressure, and oil flow to calculate various aspects of the cylinder, including areas, volumes, ratio, extraction and retraction forces, velocity, time, and outflow.
Features:
- On-the-fly calculations based on user-input parameters like piston diameter, pressure, and oil flow.
- Results are provided for both the Piston and Rod sides of the Hydraulic Cylinder.
- Interactive 3D images illustrate key parameters, enhancing the user's understanding of the Hydraulic Cylinder system.
- Support for both Metric and Imperial units.
- Copy-able results to clipboard.
A hydraulic cylinder, also known as a linear hydraulic motor, is a mechanical actuator used to provide a unidirectional force through a unidirectional stroke. It finds applications in construction equipment (engineering vehicles), manufacturing machinery, and civil engineering.
Hydraulic cylinders are powered by pressurized hydraulic fluid, typically oil. The cylinder comprises a cylinder barrel, a piston connected to a piston rod that moves back and forth. The barrel is closed by the cylinder bottom (cap) on one end and the cylinder head (gland) on the other end, where the piston rod emerges. The piston has sliding rings and seals, dividing the cylinder into two chambers – the bottom chamber (cap end) and the piston rod side chamber (rod end/head end).
Flanges, trunnions, clevises, and lugs are common mounting options for cylinders. The piston rod also has attachments for connecting the cylinder to the object or machine component it pushes or pulls.
The hydraulic cylinder acts as the actuator or "motor" side of the system, while the hydraulic pump serves as the "generator" side, delivering a fixed or regulated oil flow to move the piston. The piston, in turn, pushes the oil in the opposite chamber back to the reservoir. During the extension stroke, assuming the oil enters from the cap end and the oil pressure in the rod end/head end is approximately zero, the force (F) on the piston rod equals the pressure (P) in the cylinder times the piston area (A).
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HeatX (Heat Exchanger) App is developed mainly to evaluate performance in a shell and tube heat exchanger in terms of its over all heat transfer U-coefficient. It also helps in determining different maintenance requirement based on change in its performance characteristics due to degradation. To facilitate continuous monitoring now multiple heat exchanger data can be saved in a file with unique title and can be reloaded as and when required.
Manufacturers generally provide design specification data such as heat transfer Area, U-coefficient, effectiveness for a given capacity performance. However, these values tend to vary over a period of time and often it is necessary to evaluate and compare design specification data with actual performance. This app serves as a tool for different maintenance personnel, energy and application engineers in monitoring performance and energy efficiency in a shell and tube heat exchanger.
Fluid Properties:
Users can quickly select different fluids for both shell side and tube side application from a list of most common fluids used in industrial applications. The key property data such as density and heat capacity is evaluated based on given temperature and pressure for the given fluid. For fluids that are not in the list, users can create a custom fluid with known property data. Data can be edited in both SI and USCS unit standards.
Heat Exchanger Data:
One can choose heat exchanger depending upon type of application as well as flows. Both inside and out side tube heat transfer area can be computed using the tube dimensional data for verification purpose as shown in the following screen shot.
Performance Summary
The over all heat transfer coefficient is computed and presented in the main screen. The additional result gives different key performance characteristics of a heat exchanger. App notes has all the definition and brief descriptions of different key parameters presented in the summary. In addition, provided link for the documentation of implementation and validation of math-models used with guidelines for periodic maintenance activities.
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Hydraulic Cylinder Calc VS.
Heat Exchanger Performance
23icembre d, 2024