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I'm heavily cribbing from Boeing's "Jet Transport Performance Methods" here, so hold on to your seat...

F = m· (V2 – V1)

where is the gas flow rate, mass per unit time

V1 is the initial velocity of the gas

V2 is the final velocity of the gas

Let’s re-write equation 3 in a more complete form:

 

Fnet = [(m·core air + m·fuel) × Vcore exhaust] + (m·fan air × Vfan exhaust) - (m·air × Vairplane) Note that the force is now called Fnet, for net thrust. What are those terms in parentheses? The term (m·air × Vairplane)is the momentum per unit of time of the air being taken into the engine. The term [(m·core air + m·fuel) × Vjet exhaust] is the momentum per unit of time of the gas leaving the core of the engine. Notice that we are now accounting for the fact that the mass flow of the exhaust is greater than the mass flow of the inlet, because fuel has been added to the intake air. Finally, the term (m·fan air × Vfan exhaust)is the momentum per unit of time of the air leaving the fan stage of the engine. The net force, which is the thrust produced by the engine, is the algebraic sum of these three terms, which is the rate of change of momentum of the gas as it passes through the engine. If we considered only the first two terms, the exhaust flow, we would see only the force created at the fan and the exhaust nozzle. But this is only half of the story, because we must remember that the flow of the air entering the engine also has momentum and the useful work that the engine is doing is the difference between the two.

Note that is "m-dot." The dot should be over the letter "m" but didn't copy well from the original pdf. I bold-texted the part about force created at the fan and exhaust nozzle, because I think that's what you're measuring with EPR. Again, from the JTPM textbook:

This stands for engine pressure ratio. It’s the ratio of the gas flow total pressures measured at two specific points: at the entrance to the exhaust nozzle (station 7) and at the inlet to the fan and compressor (station 2). EPR is defined simply as:

EPR = Pt7 / Pt2

where Pt2 is the total pressure measured at station 2 Pt7 is the total pressure measured at station 7

Hope this helps. Just a little math, but I highly recommend the whole book.

I'm heavily cribbing from Boeing's "Jet Transport Performance Methods" here, so hold on to your seat...

F = m· (V2 – V1)

where is the gas flow rate, mass per unit time

V1 is the initial velocity of the gas

V2 is the final velocity of the gas

Let’s re-write equation 3 in a more complete form:

 

Fnet = [(m·core air + m·fuel) × Vcore exhaust] + (m·fan air × Vfan exhaust) - (m·air × Vairplane) Note that the force is now called Fnet, for net thrust. What are those terms in parentheses? The term (m·air × Vairplane)is the momentum per unit of time of the air being taken into the engine. The term [(m·core air + m·fuel) × Vjet exhaust] is the momentum per unit of time of the gas leaving the core of the engine. Notice that we are now accounting for the fact that the mass flow of the exhaust is greater than the mass flow of the inlet, because fuel has been added to the intake air. Finally, the term (m·fan air × Vfan exhaust)is the momentum per unit of time of the air leaving the fan stage of the engine. The net force, which is the thrust produced by the engine, is the algebraic sum of these three terms, which is the rate of change of momentum of the gas as it passes through the engine. If we considered only the first two terms, the exhaust flow, we would see only the force created at the fan and the exhaust nozzle. But this is only half of the story, because we must remember that the flow of the air entering the engine also has momentum and the useful work that the engine is doing is the difference between the two.

Note that is "m-dot." The dot should be over the letter "m" but didn't copy well from the original pdf. I bold-texted the part about force created at the fan and exhaust nozzle, because I think that's what you're measuring with EPR. Again, from the JTPM textbook:

This stands for engine pressure ratio. It’s the ratio of the gas flow total pressures measured at two specific points: at the entrance to the exhaust nozzle (station 7) and at the inlet to the fan and compressor (station 2). EPR is defined simply as:

EPR = Pt7 / Pt2

where Pt2 is the total pressure measured at station 2 Pt7 is the total pressure measured at station 7

Hope this helps. Just a little math, but I highly recommend the whole book.

I'm heavily cribbing from Boeing's "Jet Transport Performance Methods" here, so hold on to your seat...

F = m· (V2 – V1)

where is the gas flow rate, mass per unit time

V1 is the initial velocity of the gas

V2 is the final velocity of the gas

Let’s re-write equation 3 in a more complete form:

Fnet = [(m·core air + m·fuel) × Vcore exhaust] + (m·fan air × Vfan exhaust) - (m·air × Vairplane) Note that the force is now called Fnet, for net thrust. What are those terms in parentheses? The term (m·air × Vairplane)is the momentum per unit of time of the air being taken into the engine. The term [(m·core air + m·fuel) × Vjet exhaust] is the momentum per unit of time of the gas leaving the core of the engine. Notice that we are now accounting for the fact that the mass flow of the exhaust is greater than the mass flow of the inlet, because fuel has been added to the intake air. Finally, the term (m·fan air × Vfan exhaust)is the momentum per unit of time of the air leaving the fan stage of the engine. The net force, which is the thrust produced by the engine, is the algebraic sum of these three terms, which is the rate of change of momentum of the gas as it passes through the engine. If we considered only the first two terms, the exhaust flow, we would see only the force created at the fan and the exhaust nozzle. But this is only half of the story, because we must remember that the flow of the air entering the engine also has momentum and the useful work that the engine is doing is the difference between the two.

Note that is "m-dot." The dot should be over the letter "m" but didn't copy well from the original pdf. I bold-texted the part about force created at the fan and exhaust nozzle, because I think that's what you're measuring with EPR. Again, from the JTPM textbook:

This stands for engine pressure ratio. It’s the ratio of the gas flow total pressures measured at two specific points: at the entrance to the exhaust nozzle (station 7) and at the inlet to the fan and compressor (station 2). EPR is defined simply as:

EPR = Pt7 / Pt2

where Pt2 is the total pressure measured at station 2 Pt7 is the total pressure measured at station 7

Hope this helps. Just a little math, but I highly recommend the whole book.

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PHChilly
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I'm heavily cribbing from Boeing's "Jet Transport Performance Methods" here, so hold on to your seat...

F = m· (V2 – V1)

where is the gas flow rate, mass per unit time

V1 is the initial velocity of the gas

V2 is the final velocity of the gas

Let’s re-write equation 3 in a more complete form:

Fnet = [(m·core air + m·fuel) × Vcore exhaust] + (m·fan air × Vfan exhaust) - (m·air × Vairplane) Note that the force is now called Fnet, for net thrust. What are those terms in parentheses? The term (m·air × Vairplane)is the momentum per unit of time of the air being taken into the engine. The term [(m·core air + m·fuel) × Vjet exhaust] is the momentum per unit of time of the gas leaving the core of the engine. Notice that we are now accounting for the fact that the mass flow of the exhaust is greater than the mass flow of the inlet, because fuel has been added to the intake air. Finally, the term (m·fan air × Vfan exhaust)is the momentum per unit of time of the air leaving the fan stage of the engine. The net force, which is the thrust produced by the engine, is the algebraic sum of these three terms, which is the rate of change of momentum of the gas as it passes through the engine. If we considered only the first two terms, the exhaust flow, we would see only the force created at the fan and the exhaust nozzle. But this is only half of the story, because we must remember that the flow of the air entering the engine also has momentum and the useful work that the engine is doing is the difference between the two.

Note that is "m-dot." The dot should be over the letter "m" but didn't copy well from the original pdf. I bold-texted the part about force created at the fan and exhaust nozzle, because I think that's what you're measuring with EPR. Again, from the JTPM textbook:

This stands for engine pressure ratio. It’s the ratio of the gas flow total pressures measured at two specific points: at the entrance to the exhaust nozzle (station 7) and at the inlet to the fan and compressor (station 2). EPR is defined simply as:

EPR = Pt7 / Pt2

where Pt2 is the total pressure measured at station 2 Pt7 is the total pressure measured at station 7

Hope this helps. Just a little math, but I highly recommend the whole book.