Welcome to the ETAP Induction machine component - Nameplate page of the Induction machine editor

Welcome to the ETAP Induction machine component - Nameplate page of the Induction machine editor

Welcome to the ETAP Induction machine component - Nameplate page of the Induction machine editor

Figure 1: Article Cover Picture

Each component on ETAP has an editor like the one below. All the pages are shown on the left side. This induction machine editor has 15 pages: info, nameplate, Imp, etc.

Figure 2: Induction Machine Editor Page

The page we are currently displaying is blue-shaded: Nameplate

Let’s go through each field on the nameplate page of the induction machine editor.


Callout A: HP

Figure 3: Editor page highlighting callout A

HP stands for horsepower. You enter the machine HP. In my example, I entered 500, meaning the motor is 500 HP.

You can toggle the HP field, and it will become kW. In Figure 3b below, for example, 500 is no longer in HP but in kW

Figure 3b- Editor showing kW

Callout B: kVA/MVA

Figure 4: Editor page highlighting callout B


KVA stands for kilo volts amperes. MVA means Mega volts amperes

It is not a user input field, but it comes from the calculation using the following field: HP, PF, and Eff. The software calculates the data using well-known electrical formulas.


Callout C: kV

Figure 5: Editor page highlighting callout C

kV stands for kilo volts

You enter the rate line to line voltage. You should notice that the value is always in kilo volts, not volts.


Callout D: FLA

Figure 6: Editor page highlighting callout D


FLA stands for Full Load Amperes. It is the current the motor draws from the system when it is fully loaded and when the machine is operating at its rated power, voltage, and frequency.


Callout E: %PF

Figure 7: Editor page highlighting callout E


PF stands for Power Factor. You enter the power factor % for 100%, 75%, 50% and No load. NL stands for No Load.

The power factor at 100% is used to calculate rated values. All the power factors are used to calculate operating loads and feeder losses.


Callout F: %Eff

Figure 8: Editor page highlighting callout F


Eff stands for Efficiency.

You enter the Efficiency percentage for 100%, 75%, 50%, and no load. NL stands for No Load.

An efficiency of 100% is used to calculate rated values. All the efficiency percentages are used to calculate operating loads and feeder losses.


We will finish the rest of the field in a subsequent article.

Let’s run the power flow studies to see some running data. Figure 7 shows the motor is consuming 403.6 kW and 199.8 kvar.

Figure 9: Editor page highlighting power flow data: kW and kvar


Figure 8 below shows different displays.

Figure 10: Editor page highlighting power flow data: kVA, A, and PF


In ETAP, you can choose what options you want to display. In the precedent figure 7, I displayed the kW and kvar. I told ETAP to remove kW and kvar from this figure 8 and display kVA, Amps, and PF.

Pretty cool. ??

 The end - La fin - El Fin ??        
----------------------------------------------------------------------------------------------------------

Remember to subscribe and share the newsletter with your coworker or friend.

Remember, Knowledge is Power, and Power is Our Expertise.

We are your answer. Contact us if you need corporate training in power engineering or NERC PER 001 Training, NERC PRC Studies, Short Circuit Arc Flash Studies, ETAP and SEL Help, and others!

469 880 3717

[email protected]

www.eeengineering.org

Moreover, I created an additional newsletter that will teach every power concept using the American grid live data and the significant errors made by engineering firms.

Below is the link. Feel free to subscribe

https://www.dhirubhai.net/newsletters/american-grid-power-6911773860795179008

Feel free to follow the company page below

https://www.dhirubhai.net/company/eeengineering


Albert Marroquin

Sr. VP Electrical Safety & Dynamics Engineering Divisions, PE, SMIEEE

4 个月

After synchronous machines components, this is perhaps the second most complex editor in ETAP. Needless to say, the induction motor comes in all sizes from fractional to thousands of horsepower. Thank you Thierry for the interesting post.

Knowledge is Power, and Power is Our Expertise

回复

要查看或添加评论,请登录

社区洞察

其他会员也浏览了