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AMCA Introduction to Fan Energy Index (FEI) for Stand-Alone Fans (AMCA 208)
AMCA Introduction to Fan Energy Index (FEI) for Stand-Alone Fans (AMCA 208)

Developed by Air Movement and Control Association (AMCA) International, fan energy index (FEI) is an efficiency metric designed in part to drive significant and quantifiable energy savings through use in codes, utility rebate programs, and...

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AMCA Calculating Fan Energy Index (FEI) for Stand-Alone Fans (AMCA207)
AMCA Calculating Fan Energy Index (FEI) for Stand-Alone Fans (AMCA207)

Developed by Air Movement and Control Association (AMCA) International, fan energy index (FEI) is the ratio of the electrical power of a reference fan to the electrical power of an actual fan, both calculated at a given airflow and pressure...

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TCF Calculating the Fan Energy Index for Stand-Alone Fans (AMCA207tcf)
TCF Calculating the Fan Energy Index for Stand-Alone Fans (AMCA207tcf)
5 PDh Developed by Air Movement and Control Association (AMCA) International, fan energy index (FEI) is the ratio of the electrical power of a reference fan to the electrical power of an actual fan, both calculated at a given airflow and...
Get this course ($249.00)
TCF Introduction to FEI for Stand-Alone Fans (AMCA208tcf)
TCF Introduction to FEI for Stand-Alone Fans (AMCA208tcf)
1.5 PDh Developed by Air Movement and Control Association (AMCA) International, fan energy index (FEI) is an efficiency metric designed in part to drive significant and quantifiable energy savings through use in codes, utility rebate programs,...
Get this course ($79.00)
FSO150 Fan Power Law (FSO150)
FSO150 Fan Power Law (FSO150)

The fan power law defines the fundamental engineering relationship between four key indicators of fan performance: fan flow rate; fan static (or total) pressure, fan power, and fan static (or total) efficiency.

In this self-guided course,...

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FSO210 Psychrometrics for Fan Systems (FSO_210)
FSO210 Psychrometrics for Fan Systems (FSO_210)

Psychrometrics is the study of the properties of mixtures of air and water vapor. A general knowledge of psychrometrics is very useful in fan application engineering, mainly because the performance of the fan is directly related to the...

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FSO220 Fan Affinity Laws (FSO_220)
FSO220 Fan Affinity Laws (FSO_220)

The performance of a fan is defined by the flow, fan pressure, and power draw of the fan. The fan affinity laws (also called the fan laws for short) are a set of inter-related equations that predict the performance of the fan under varying...

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FSO221 Fan System Controls (FSO_221)
FSO221 Fan System Controls (FSO_221)

At a given rotational speed and fan pressure, centrifugal fans will develop a constant volume of airflow. Due to uncertainties in the final layout and construction of the ductwork, combined with the prospect of critical or changing process...

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FSO225 Advanced Affinity Laws with Compressibility (FSO_225)
FSO225 Advanced Affinity Laws with Compressibility (FSO_225)

The performance of a fan is defined by the flow, fan pressure, and power draw of the fan. The fan affinity laws (also called the fan laws for short) are a set of inter-related equations that predict the performance of the fan under varying...

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FSO250 Introduction to Using ISO 5802 for Measuring Fan Systems In-Situ (FSO_250)
FSO250 Introduction to Using ISO 5802 for Measuring Fan Systems In-Situ (FSO_250)

ISO 5802 lays out a standard test procedure for measuring the in-situ performance (flow, fan pressure, and power) of fans. Whereas catalog tests of fans are conducted under nearly ideal laboratory conditions, fans that are installed in...

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