Features. Performs hydraulic calculations following NFPA 13. Handles sprinkler systems with up to 1,000 sprinklers. Works on trees, grids, and hybrid sprinkler systems. Uses English or metric units.
Tree Grid Pipe Network Builder included. Program runs in 32-bit and 64-bit Windows systems.
Fire Sprinkler System Design Software Free Download
Computes flow rates, velocities, & pressure drops. Automatically sizes pipe.
Analyzes stand pipe systems. Prints supply/demand graph on screen & printer. Allows for all types of pipe materials. Automatically calculates fitting equivalent lengths.
Provides comprehensive NFPA style, high quality color presentation reports. Overview Elite's Fire Program quickly performs all necessary hydraulic calculations as required by the National Fire Protection Association (NFPA 13). Fire also estimates sprinkler head requirements, calculates optimal pipe sizes, and automatically performs a peaking analysis. Fire can handle all types of sprinkler systems (trees, grids, and hybrids) with up to 1,000 or more sprinklers and pipes. Meters and standpipes can also be analyzed.
Fire calculates the GPM water flow and velocity through all pipe sections, the GPM flow and residual pressure at each sprinkler head, the pressure losses incurred in each pipe section due to both friction and elevation changes, the maximum system demand pressure, and the total water GPM demanded by the system. The report format is designed to aid both the designer and the plan reviewer. Calculation Method Fire uses the Newton Raphson matrix solution technique to solve pipe networks, where each pipe is defined to flow according to the Hazen Williams formula.
Calculations can be made for a given water supply pressure or they can be performed such that Fire determines the lowest water supply pressure that adequately drive the sprinkler system. Calculations are very fast and accurate. The user manual lists all the pertinent equations to allow full manual verification. Program Input All input is checked at the time of entry so that no improper data can be entered.
Upon completion of the input process, all data is saved and can be reviewed and edited whenever desired. Two types of data are requested: general project data and pipe segment data. The general project data includes the project name and location, the client name, sprinkler specifications, hazard description, density requirements, hose stream allowances, hydrant test data, and other such data. The pipe data requires that each pipe section be defined as having a beginning and ending node number.
If sprinkler heads are located at the pipe nodes, then the sprinkler K-factor must be given. In addition, the pipe length, nominal size, material type, and fitting quantities and types must be entered for each pipe section. Fire contains a built-in library of pipe materials that includes cast iron, copper, steel, PVC, and many others. The pipe library allows up to 50 user defined pipe materials.
Fitting equivalent lengths are automatically looked up depending upon fitting type, size, and pipe material. Program Output The Fire Program provides numerous reports including: general project data, pipe and node input data, node grouping flows, detailed pipe and sprinkler output, supply/demand graph, and a network summary.
You can specify exactly which reports are to be printed, and all reports can be previewed on the screen. Are just some of the available reports. Free Update Fire now has the capability to handle a fire pump at or near the inflow point of the the system. Fire also can calculate using metric units. These are highly significant and useful new features for Fire. This is a for existing users of Fire version 6.
FHC is recognized throughout the world as the leading hydraulic calculation software for the fire protection industry and has thousands of users in over 50 countries. FHC currently supports over 30 national and international design standards including EN 12845, BS 9251, NFPA 13, NFPA 750, FM global, CP 52, Vds CEA 4001, ASIB and much more. FHC is an easy-to-use hydraulic calculation and analysis package specifically designed for the fire protection industry. With FHC’s intuitive interface you can quickly build complex hydraulic models consisting of thousands of pipes and with its lightning speed calculation engines, you will soon have your project completed. You can use the FHC software to hydraulically model any type of water-based fire protection system from fire sprinkler systems, water mist, fire hydrants, water monitors and much more. Canute LLP has over 15 years of experience in developing and supporting hydraulic calculation software for the fire sprinkler and water mist industry. Our software is used by the world’s leading fire protection consultants, design and installation companies.
FHC can be used for large and small projects alike from a single house design to BS 9251 or a petrochemical facility design to NFPA13 or a logistics facility design to EN 12845, FHC can calculate the systems with easy. FHC can also calculate low and high pressure water water mist system to virility of design standards including NFPA 750, Vds, BS 8489 and BS 8458.
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FHC Hydraulic Calculation Software is used by fire protection engineers throughout the world to help them design the most demanding fire protection systems to international standards, including EN 12845, BS 9251, FM Global, NFPA 13, NFPA 750 and LPCB / BRE regulations. Western union onesti program duminica. With FHC you can build complex hydraulic models easily with a set of drawing tools which allow you to draw the system on the screen.
You can instantly see the pipe network updating, which minimises input errors and allows you to concentrate on optimising your hydraulic model, saving design time and installation costs with smaller pipe sizes or system pumps. FHC's fast calculation algorithm will give you the results you require in seconds allowing you to concentrate on optimising the system for the most economic design. You can choose to use Hazen-Williams or Darcy-Weisbach pressure loss equations to calculate the pipe friction loss. This makes FHC suitable for fire sprinkler system & high and low-pressure water mist systems and other demanding systems.
FHC can calculate the source pressure and flow required for the system or you can specify a fire pump curve, constant pressure pump or a city water supply and FHC will balance the system to the water supply. FHC will calculate any type of hydraulic model including the most complex fire sprinkler installations with roof and racks, water mist systems, water spray systems, hydrants or a water cannon installation.
In fact FHC can calculate almost any water-based fire protection system. FHC is very flexible and any type of pipework network can be built from a simple tree, looped to a multiple looped system or any combination. As you create the pipe network in FHC and connect the pipes together, FHC will automatically find any tee's and elbows and will look up the equivalent length in its extensive pipe and fitting database.
This will save you a considerable amount of time and is less prone to input errors. Also if you change the pipework configuration FHC will make the necessary fitting adjustments automatically for you to ensure your hydraulic model is up to date. FHC is a tried and test hydraulic calculation & analysis software for fire sprinkler systems and has helped hundreds of companies with their design projects from complex roof & rack systems for some of the largest logistics facilities to car manufactures plants whatever the project size and complexity FHC will be able to help. FHC is fast, accurate and dependable, it’s easy to learn and can calculate any type of pipe network from a tree to complex grids.
It’s recognised through the world as the and is compliant with the leading international design standards including NFPA, FM Global, EN 12845 and many others. The FHC software has a long association with water mists system and is used by the world leading water mist manufacturers for their calculation from a high-pressure system for marine and industrial applications to low-pressure systems for hotels and residential accommodation. FHC can be used for low, intermediate and high-pressure systems as defined in NFPA 750 and you can easily switch between the Hazen-Williams and the Darcy-Weisbach pressure loss formula. We also support many other water mist design standards including NFPA 750, BS 8458, BS 8489 & Vds 3188.
Canute is at the forefront of the domestic and residential fire sprinkler development over the last decade and has help to shape both British & European design standards. We strongly believe that residential sprinklers will help in saving life, property and the environment. With our expert knowledge in the field of technology, it’s not surprising that FHC is able to undertake the hydraulic calculation required and you can also have our expertise to help you through.
FHC can be used with BS 9251, Inst 900, prEN12925 and many other design standards. FHC is a full hydraulic calculation program for use with fire sprinkler systems and other water based fixed fire protection systems to International standards. It has been used successfully with fire sprinkler systems, water spray, ESFR, deluge, drencher, hose reel, hydrant, foam sprinklers, ring mains, foam monitors and water mist systems. Complies with international standards such as NFPA, FM and LPC. Any type of pipe network can be modelled such as trees, loops, grids or any combination.
Models fire sprinkler systems, deluge, ring mains, hydrant and much more. Multiple pipe types. Specify a global design density or set each head individual. Automatically find the most remote head or the four MRH in the case of LPC and EN 12845.
Automatically includes tee and elbows equivalent lengths. Automatic pipe sizing based on maximum pressure drop or pipe velocity (tree systems only). Stellar ost to pst converter registration key. Automatic pipe node numbering. Calculate source pressure and flow or balance to a water supply curve such as a fire pump or city supply. FHC can use Hazen-Williams or Darcy-Weisbach pressure loss equations.
Isometric, plan and elevation schematic views of the pipe network. Easy to read and inclusive reports which you can preview and output to PDF. FHC includes a standard pipe library with 21 standard pipe types from 20mm to 400mm including the most common pipe types BS 1387, BS 3601, API, MDPE, CPVC, Copper and Stainless Steel. Additional pipe data tables (PDT) are included for use with systems designed to BS 9251 and one PDT contains API pipes up to 900mm.
Full instructions are given in the manual for you to write your own PDT or to modify one of the supplied pipe data tables. Canute has a larger library of pipe data from around the world so please ask if you have any special requirements. There is no limit to the number of pipe data tables you can have but only one PDT can be used at any time.