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Sneha Pahandi
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Altoqi Hydros V4 R9 24




Altoqi Hydros V4 R9 24: How to Create Efficient and Sustainable Water Systems


Altoqi Hydros V4 R9 24: How to Create Efficient and Sustainable Water Systems




Water is essential for life, but it is also a scarce and precious resource that needs to be managed wisely. In the context of building design, water systems are responsible for providing adequate and safe water supply, drainage, fire protection and rainwater harvesting for the occupants and the environment. However, designing water systems can be a complex and challenging task, especially considering the increasing demands for water efficiency, sustainability and quality.


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Fortunately, there is a software that can help you create and optimize water systems for any type of building: Altoqi Hydros V4 R9 24. This software is developed by Altoqi, a Brazilian company that offers BIM solutions for engineering. In this article, we will show you how to use this software to create and analyze hydraulic projects, such as water supply, sewage, fire fighting and rainwater systems.


What is Altoqi Hydros V4 R9 24?




Altoqi Hydros V4 R9 24 is a software for hydraulic design of buildings, which allows you to create and edit water systems in a 3D environment. You can use this software to design water systems for residential, commercial or industrial buildings, with different levels of complexity and customization. You can also import and export data from other BIM software, such as Revit and SketchUp, to integrate your hydraulic project with the architectural and structural models.


Some of the main features of Altoqi Hydros V4 R9 24 are:


  • Water supply system: You can design water supply systems for cold and hot water, using different types of pipes, fittings, valves and accessories. You can also define the water demand, pressure and flow for each water point, such as faucets, showers, toilets, etc. The software will automatically calculate the pipe diameters, lengths, slopes and losses, as well as the required pumps and tanks.



  • Sewage system: You can design sewage systems for sanitary and industrial wastewater, using different types of pipes, fittings, traps and vents. You can also define the wastewater generation, discharge and treatment for each sanitary fixture, such as sinks, bathtubs, urinals, etc. The software will automatically calculate the pipe diameters, lengths, slopes and losses, as well as the required septic tanks and sewer connections.



  • Fire fighting system: You can design fire fighting systems for sprinklers and hydrants, using different types of pipes, fittings, valves and accessories. You can also define the fire load, hazard classification and protection area for each fire zone. The software will automatically calculate the pipe diameters, lengths, slopes and losses, as well as the required pumps and tanks.



  • Rainwater system: You can design rainwater systems for collection and reuse or disposal of rainwater from roofs and terraces. You can also define the rainfall intensity, catchment area and runoff coefficient for each roof segment. The software will automatically calculate the pipe diameters, lengths, slopes and losses, as well as the required gutters, downspouts and cisterns.



In addition to creating water systems, Altoqi Hydros V4 R9 24 also allows you to analyze and optimize your hydraulic project. You can perform various types of simulations and calculations to verify the performance and compliance of your water systems with the relevant standards and codes. You can also generate various types of reports and drawings to document your hydraulic project.


How to Use Altoqi Hydros V4 R9 24?




To use Altoqi Hydros V4 R9 24, you need to download and install the software from the Altoqi website . You can request a free trial version or purchase a license according to your needs. After installing the software, you can access it from the Windows Start menu or from the desktop shortcut.


The first time you open the software, you will see a welcome screen with some options to create a new project, open an existing project, access online help or watch tutorial videos. You can also choose the language of the interface (Portuguese or English) and the unit system (metric or imperial).


To create a new project, click on the "New Project" button on the welcome screen or go to File New Project on the menu bar. You will see a dialog box where you can enter some basic information about your project, such as name, location, description and author. You can also select the type of building (residential, commercial or industrial) and the number of floors.


After filling in the project information, click on "OK" to create your project. The software will open a 3D view of your building model, where you can see the floors, walls, columns and slabs. You can use the mouse and keyboard to navigate and zoom in and out of the model. You can also switch to different views (plan, elevation or perspective) from the toolbar or the menu bar.


To create water systems, you need to use the "Hydraulic Systems" tab on the ribbon. Here you can find different tools to create and edit water supply, sewage, fire fighting and rainwater systems. You can also access some settings and options for each system type.


To create a water supply system, for example, you need to follow these steps:


  • Select the "Water Supply" tool from the ribbon.



  • Select the floor where you want to create the system.



  • Click on the "Add Branch" button on the ribbon.



  • Click on a wall where you want to place a water point (such as a faucet or a shower).



  • Select the type and properties of the water point from the dialog box that appears.



  • Repeat steps 4 and 5 until you have placed all the water points on the floor.



  • Click on the "Finish Branch" button on the ribbon.



  • Repeat steps 3 to 7 until you have created all the branches on the floor.



  • Click on the "Add Riser" button on the ribbon.



  • Click on a wall where you want to place a riser (a vertical pipe that connects different floors).



  • Select the type and properties of the riser from the dialog box that appears.



  • Repeat steps 10 and 11 until you have placed all the risers on the floor.



  • Click on the "Finish Riser" button on the ribbon.



  • Repeat steps 9 to 13 until you have created all the risers in the building.



  • Click on the "Add Tank" button on the ribbon.



  • Click on a wall where you want to place a tank (a container that stores water).



  • Select the type and properties of the tank from the dialog box that appears.



  • Repeat steps 16 and 17 until you have placed all the tanks in the building.



  • Click on the "Finish Tank" button on the ribbon.



You have now created a basic water supply system for your building. You can use similar steps to create other types of water systems, such as sewage, fire fighting and rainwater systems. You can also use other tools on the ribbon to edit, delete, copy, move or rotate your water system elements. You can also use the "Properties" panel on the right side of the screen to change the parameters and attributes of your water system elements.


How to Analyze and Optimize Your Water Systems?




After creating your water systems, you can use Altoqi Hydros V4 R9 24 to analyze and optimize them. You can perform various types of simulations and calculations to verify the performance and compliance of your water systems with the relevant standards and codes. You can also generate various types of reports and drawings to document your hydraulic project.


To analyze and optimize your water systems, you need to use the "Analysis" tab on the ribbon. Here you can find different tools to perform different types of analyses, such as:


  • Pipe sizing: You can use this tool to automatically calculate the optimal pipe diameters for your water systems, based on the water demand, pressure and flow for each water point. You can also define the criteria and parameters for the pipe sizing calculation, such as the maximum allowable pressure drop, velocity and head loss. You can also choose the method and standard for the pipe sizing calculation, such as Hazen-Williams, Darcy-Weisbach or NBR 5626. The software will show you the results of the pipe sizing calculation in a table and in a color-coded diagram. You can also compare the results with different scenarios and modify them manually if needed.



Pump sizing: You can use this tool to automatically calculate the required pump power and head for your water systems, based on the water demand, pressure and flow for each water point. You can also define the criteria and parameters for the pump sizing calculation, such as the minimum The article continues as follows: - the minimum pressure at the water points, the maximum pressure at the pump, the pump efficiency and the safety factor. You can also choose the method and standard for the pump sizing calculation, such as NBR 12218 or NFPA 13. The software will show you the results of the pump sizing calculation in a table and in a diagram. You can also compare the results with different scenarios and modify them manually if needed. - Tank sizing: You can use this tool to automatically calculate the required tank volume and dimensions for your water systems, based on the water demand, pressure and flow for each water point. You can also define the criteria and parameters for the tank sizing calculation, such as the minimum and maximum water levels, the tank shape and material, the tank location and orientation, and the safety factor. You can also choose the method and standard for the tank sizing calculation, such as NBR


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