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HVAC Design Self-Training Course

Updated: March, 2016

Our HVAC Design Self-Training Course will help you to quickly gain the practical skills in HVAC design of industry scale projects other engineers obtain only after five to ten years of work within a consulting company. Everything you need in one package - Design Software, Study Materials, Assignment Projects, Drawings and more! Electronic delivery!


Advanced HVAC Training Course

Training Platform: 'Building Energy Retrofit. Basics and Design Process'

Updated: Dec, 2016

New training platform developed in response to the building energy retrofit industry's demand for specialists proficient in creating energy retrofit and renewal projects for commercial and institutional buildings


Advanced HVAC Training Course

AutoCAD Drawing Library

Updated: Dec, 2016

Sets of mechanical drawings for office, educational and retail building categories. The drawings meet the highest drafting standards acceptable in the consulting services.


Advanced HVAC Training Course

E-Book 'A to Z HVAC Design for Engineers'

Updated: March, 2016

Learn the secrets of rational, math and sequence practiced by the best consulting companies in Canada and USA, designing air-conditioning systems for commercial and institutional buildings. Electronic delivery in easy-to-read pdf format!


A to Z HVAC Design for Engineers

'HVAC Engineering Toolkit'

Updated: March, 2016

Unlock the potential for rapid interlinked HVAC systems design with this set of MS Excel coded spreadsheets. Includes the following design tools: 'Design Loads', 'Air Flow', 'Water Flow', ' Comfort', ' Psychrometrics', 'HVAC Computer-Aided Design'


HVAC Engineering Toolkit

'Design Loads™' MS Excel Module

Updated: March, 2016

This easy-to-use MODULE™  will calculate heating and cooling design loads, size air handling units’ sizes, fans, central and other heating and cooling coils, reheat coils, perimeter radiation, including constant and variable air volume air conditioning systems. Results are presented in printable and easy-to-read tables that can be submitted for permitting.


Design Loands

'Psychrometrics™' MS Excel Module

Updated: March, 2016

Why struggle with the inaccurate psychrometric charts? This easy-to-use MODULE™ will quickly and accurately calculate for you detailed air properties in a wide range of temperatures!


Psychrometrics Module

'Thermal Comfort™' MS Excel Module

Updated: March, 2016

Use this easy-to-use module to quickly design a comfortable indoor environment as defined by ASHRAE Standard 52 'Thermal Environmental Conditions for Human Occupancy'


Thermal Comfort Module

'Air Flow™' MS Excel Module

Updated: March, 2016

Automatically calculates diffuser jet projections, characteristic lengths, throws, number of outlets, ductwork sizing and more. Produces schedule-type outputs. Can be used as a stand-alone tool or integrated with the Design Loads Module™!


Air Flow Module

'Water Flow™' MS Excel Module

Updated: March, 2016

The WaterFlow Module™ will calculate piping network sizes for you, taking into account piping materials and fluid temperatures of your choice, and provide intuitive and easy-to-read schedule-type outputs! A Thermal Load Calculator™ is also included, calculating thermal loads carried by direct and reverse return piping systems!


Water Flow Module

'Water Flow ™' Engineering Spreadsheet Module

Is this MODULE for you?

  • Do you design HVAC systems for new construction or retrofit projects?
  • Do you want an easy-to-use software for sizing piping networks quickly and accurately using drop-down menus and without having to consult pressure-drop tables ever again?
  • Do you work on projects where having organized summary tables is crucial, but you don't have time to manually create and maintain them?

If you answered 'yes' to any of the above, the 'WaterFlow' Module is your solution!


'Water Flow' MS Excel spreadsheet engineering module will assist you in the design of water or glycol heating and cooling piping systems.

Typical design process includes three steps:

  • calculation of the thermal loads for each section of the water loops of the system
  • calculation of the water or glycol flow rates for each pipe section based on a selected water temperature difference in the main supply and return pipes
  • using of a standard pipe chart to size the pipe sections based on the recommended water velocities and friction pressure loss rates and manual input of the found data into an Excel spreadsheet or directly pipe layout drawing
  • summing up of the evaluated pressure losses of the sections constituting the most remote branch to calculate the total piping system pressure loss required to size the system pump.

Thermal Loads Calculations

The thermal loads are prone for repeatedly changes caused by the space layout or other changes common in the design process. All the steps are repeated several times. The work requires significant time and close attention for manual error control.

The module automatically replicates the steps.

The engineers who are familiar with these calculations know how difficult it is to calculate without error in the reverse piping systems. Almost certainly the work has to be performed in multiple passes. With 'Water Flow' Module, you follow a few simple steps:

  • list in any order all the terminal heating or cooling units the system serves and the associated heating or cooling loads simulated by a software tool, or linked from the module 'DESIGN MODULE'.
  • Input the system branch name and the return water concept (direct or reverse).
  • Sequence the terminal units in the order of the unit positions in the direction of the branch water flow.


Once all the parameters have been entered, calculated loads related to each section of the branch will be instantly presented.

Click on the thumbnail to see a Thermal Load Calulations Thermal Load Calculations


Pressure Losses Calculations

This section of 'Water Flow' Module calculates the pressure losses of all the pipe sections in the system based on a selected water temperature and temperature difference in the supply and return mains, the thermal loads calculated by the previous tab, selected pipe material and schedule (see the white cells in the sample). To improve the calculation accuracy, the module also requires your input to list the fittings (tees, elbows, valves etc) pertaining to each section.

Click on the thumbnail to see Pipe Sizing Calculations Pipe Sizing

The Module returns the dynamic, friction, fitting and total pressure losses in the sections calculated using the Bernoulli equation and the methodology and pipe material hydraulic properties as recommended by the ASHRAE Handbook 'Fundamentals', 2005.

Click on the thumbnail to see each step in calculations Calculation Steps

In addition, the Module calculates the water volume of each section of the system required for sizing the expansion tank of the system and summarizes the total branch pressure losses.

Click on the thumbnail to see Expansion Tank Calculations Expansion Tank Volume Calculations

'Water Flow' Module accuracy has been validated by comparison with the duct sizing chart in the ASHRAE Handbook 'Fundamentals', 2005.

The 'Water Flow' MS Excel spreadsheet module is available in both Inch-Pound (IP) and Metric (SI) units



Water Flow

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