Pipe Headloss Calculator Plus For PC | How To Download – (Windows 7, 8, 10, Mac)

Pipe Headloss Calculator Plus is a powerful yet easy to use tool that helps engineers and technicians calculate the headloss in a piping system. It has been designed for quick and accurate headloss calculations for a variety of piping systems.

You will download the Pipe Headloss Calculator Plus for PC, but you should first know about its technical specifications. Here are technical aspects of it:

Download & Install Pipe Headloss Calculator Plus For PC: Windows 10/8/7

Pipe Headloss Calculator Plus is easy to use on any Windows PC if you use the Memu Android Emulator. Let’s help you understand how the process works and how you’ll install it on your PC:

  • The first thing you’ll do is download the Memu emulator on your computer. You will find it in your Downloads folder.
  • Installing it may take longer if your PC has less power. A powerful PC makes the installation faster. Just double click on the file and accept the installation.
  • Decline the additional app installations, click on finish, and the Memu emulator will launch on your computer.
  • Play store is pre-installed in Memu, and you’ll see it right after the installation is done. Open it up by double clicking.
  • Log into your Play store account with email and password, then search for the Pipe Headloss Calculator Plus on the search bar.
  • From the search results, click on your desired Pipe Headloss Calculator Plus result and click on the install button to start the download process.
  • Now, wait a while and the Pipe Headloss Calculator Plus will be installed on your PC and emulator with a shortcut button to both.
  • Run the Pipe Headloss Calculator Plus with the shortcut icon. Congratulations, you’ve successfully installed and ran the Pipe Headloss Calculator Plus on your PC.
  • Pipe Headloss Calculator Plus Andorid App Summary

    Transparent Blue is the developer of this Pipe Headloss Calculator Plus application. It is listed under the Tools category in the Play Store. There are currently more than 1798+ users of this app. The Pipe Headloss Calculator Plus app rating is currently 1.5.2.

    It was last updated on Aug 13, 2013. Since the app cannot be used directly on PC, you must use any Android emulator such as BlueStacks Emulator, Memu Emulator, Nox Player Emulator, etc. We have discussed how to run this app on your PC, mac, or Windows with this emulator in this article.

    Pipe Headloss Calculator Plus App Specification
    App Name: Pipe Headloss Calculator Plus On Your PC
    Latest Version: 1.5.2
    Android Version: 1.6
    Devoloper Name: Transparent Blue
    Package Name: com.transparentblue.headlossplus
    Updated on: Aug 13, 2013
    Download: 1798+
    Supporting OS: Windows,7,8,10 & Mac (32 Bit, 64 Bit)
    Category: Tools
    Get it On:

    Download

    Features of Pipe Headloss Calculator Plus for PC

    s through a pipeline of 100 m long and with an inside diameter of 50 mm.

    The app can be used to estimate frictional head loss in pipes. This app version compared to the free includes fittings and valves calculation and selection of the pipe material. The total pressure loss in the system results from the combined losses due to friction in length of pipe and friction losses due to valves, fittings, and other components. The first are “major losses” associated with energy loss per length of pipe, and seconds are “minor losses” associated with bends, fittings, valves, etc.

    The factors that determine friction losses in pipe are:

    -The velocity of the water: As velocity increases, pressure losses increase. Velocity is directly related to flow rate.
    -The size (inside diameter) of the pipe: Smaller pipe causes a greater proportion of the water to be in contact with the pipe, which creates friction. Pipe size also affects velocity. Given a constant flow rate, decreasing pipe size increases the water’s velocity, which increases friction.
    -The roughness of the inside of the pipe: Pipe inside wall roughness is rated by a C factor, which can be selected depending on material of pipe. The lower the C value, the rougher the inside and the more pressure loss due to friction.
    -The length of the pipe: The friction losses are cumulative as the water travels through the length of pipe

    Pipe Headloss Calculator Plus App Overview and Details

    Pipe Headloss Calculator Plus app can be used for estimating frictional head loss in pipes. This app version compared to the free includes fittings and valves calculation and selection of the pipe material.

    The total pressure loss in the system results from the combined losses due to friction in length of pipe and friction losses due to valves, fittings, and other components. The first are “major losses” associated with energy loss per length of pipe, and seconds are “minor losses” associated with bends, fittings, valves, etc.

    The factors that determine friction losses in pipe are:

    The velocity of the water: As velocity increases, pressure losses increase. Velocity is directly related to flow rate.

    The size (inside diameter) of the pipe: Smaller pipe causes a greater proportion of the water to be in contact with the pipe, which creates friction. Pipe size also affects velocity. Given a constant flow rate, decreasing pipe size increases the water’s velocity, which increases friction.

    The roughness of the inside of the pipe: Pipe inside wall roughness is rated by a C factor, which can be selected depending on material of pipe. The lower the C value, the rougher the inside and the more pressure loss due to friction.

    The length of the pipe: The friction losses are cumulative as the water travels through the length of pipe. The greater the distance, the greater the friction losses will be.

    The friction losses for, elbows, and tees can also be selected. The friction losses in fittings such as couplings, elbows, tees, valves and other elements play a role. Friction loss from these components must be taken into account when calculating friction losses for each section of pipe.

    Calculation of friction factor is based on the Hazen-Williams equation. Local resistances factor K for valves and some fittings (tees, elbows, pipes contraction and enlargement), can be found in app itself.

    Example:
    Calculate pressure losses in a pumping of 10 l / s. The diameter of the suction and discharge is 100 mm or 4 “. We have the following items on the Suction: 1 foot valve, 1 gate valve , 1 elbow 90, 1 contraction to 3” to entering the pump. In the discharge we have: 1 expansion, 2 elbow 90,
    a check valve, 1 gate valve. The total pipe length is 10 meters in diameter of 100 mm. Must be calculated the pressure losses for the given flow.

    Whats New In this Pipe Headloss Calculator Plus?

    – Some UI improvements.

    Conclusion

    The Pipe Headloss Calculator Plus application is a valuable tool for engineers and pipe system operators. It allows users to calculate the headloss of a pipe system, and has a number of built-in features that make it easy to use. The application is well-designed and easy to navigate, and the results are accurate and reliable. The Pipe Headloss Calculator Plus application is a valuable tool for anyone who needs to calculate the headloss of a pipe system.

    That concludes our discussion on how to download the Pipe Headloss Calculator Plus on PC. We hope you’ve found it helpful. Don’t hesitate to ask any questions if you have any in the comment section.

    Disclaimer

    We refer the ownership of This Pipe Headloss Calculator Plus to its creator/developer. We don’t own or affiliate for Pipe Headloss Calculator Plus and/or any part of it, including its trademarks, images, and other elements.

    Here at geckomonitor, we also don’t use our own server to download the Pipe Headloss Calculator Plus. We refer to the official server, store, or website to help our visitors to download the Pipe Headloss Calculator Plus.

    If you have any query about the app or about geckomonitor, we’re here to help you out. Just head over to our contact page and talk your heart to us. We’ll get back to you ASAP.

    Leave a Comment