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Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder Formula

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Energy Content per Unit Cylinder is defined as the heat energy available in the cylinder due to the burning of air fuel mixture. Check FAQs

H p = \frac{ρ mix \cdot LHV f}{λ \cdot R af + 1}

H_p - Energy Content per Unit Cylinder?ρ_mix - Density of Mixture?LHV_f - Lower Heating Value of Fuel?λ - Relative Air Fuel Ratio?R_af - Stoichiometric Air Fuel Ratio?

Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder Example

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Here is how the Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder equation looks like with Values.

Here is how the Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder equation looks like with Units.

Here is how the Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder equation looks like.

347.0716 = \frac{800 \cdot 10}{1.5 \cdot 14.7 + 1}

347.0716MJ/m³ = \frac{800kg/m³ \cdot 10MJ/m³}{1.5 \cdot 14.7 + 1}

347.0716 = \frac{800 \cdot 10}{1.5 \cdot 14.7 + 1}

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Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder Solution

Follow our step by step solution on how to calculate Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder?

FIRST Step Consider the formula

H p = \frac{ρ mix \cdot LHV f}{λ \cdot R af + 1}

Next Step Substitute values of Variables

∴

H p = \frac{800kg/m³ \cdot 10MJ/m³}{1.5 \cdot 14.7 + 1}

Next Step Convert Units

∴

H p = \frac{800kg/m³ \cdot 1E+7J/m³}{1.5 \cdot 14.7 + 1}

Next Step Prepare to Evaluate

∴

H p = \frac{800 \cdot 1E+7}{1.5 \cdot 14.7 + 1}

Next Step Evaluate

∴

H p = 347071583.5141J/m³

Next Step Convert to Output's Unit

∴

H p = 347.0715835141MJ/m³

LAST Step Rounding Answer

∴

H p = 347.0716MJ/m³

Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder Formula Elements

Variables

Energy Content per Unit Cylinder

Energy Content per Unit Cylinder is defined as the heat energy available in the cylinder due to the burning of air fuel mixture.

Symbol: H_p

Measurement: Energy DensityUnit: MJ/m³

Note: Value should be greater than 0.

Formulas to find Energy Content per Unit Cylinder

Density of Mixture

Density of Mixture is defined as the density of the air fuel mixture that is taken into the cylinder at intake stroke.

Symbol: ρ_mix

Measurement: DensityUnit: kg/m³

Note: Value should be greater than 0.

Formulas to find Density of Mixture

Lower Heating Value of Fuel

Lower heating value of Fuel is defined as the net heat energy released from combustion of the fuel.

Symbol: LHV_f

Measurement: Energy DensityUnit: MJ/m³

Note: Value should be greater than 0.

Formulas to find Lower Heating Value of Fuel

Relative Air Fuel Ratio

Relative Air Fuel Ratio is defined as the ratio of actual fuel-air ratio to the Stoichiometric fuel-air ratio.

Symbol: λ

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Relative Air Fuel Ratio

Stoichiometric Air Fuel Ratio

Stoichiometric Air Fuel Ratio is defined as the theoretical air fuel ratio mixture of a IC engine.

Symbol: R_af

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Stoichiometric Air Fuel Ratio

Other formulas in Fuel Injection in IC Engine category

Go Fuel Velocity at Time of Release into Engine Cylinder

V 2 = \sqrt{2 \cdot v f \cdot (P 1 - P2)}

Go Actual Fuel Velocity of Injection Considering Orifice Flow Coefficient

V f = C f \cdot \sqrt{\frac{2 \cdot (P 1 - P2) \cdot 100000}{ρ f}}

Go Number of Fuel Injections Per Minute for Four Stroke Engine

N i = \frac{ω e}{2}

Go Total Time Taken for Fuel Injection in One Cycle

T f = \frac{θ}{360} \cdot \frac{60}{ω e}

How to Evaluate Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder?

Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder evaluator uses Energy Content per Unit Cylinder = (Density of Mixture*Lower Heating Value of Fuel)/(Relative Air Fuel Ratio*Stoichiometric Air Fuel Ratio+1) to evaluate the Energy Content per Unit Cylinder, The Energy content per unit cylinder volume of mixture formed prior to induction into cylinder formula is defined as the heat energy liberated in the cylinder due to the combustion of the air-fuel mixture during compression stroke. Energy Content per Unit Cylinder is denoted by H_p symbol.

How to evaluate Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder using this online evaluator? To use this online evaluator for Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder, enter Density of Mixture (ρ_mix), Lower Heating Value of Fuel (LHV_f), Relative Air Fuel Ratio (λ) & Stoichiometric Air Fuel Ratio (R_af) and hit the calculate button.

FAQs on Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder

What is the formula to find Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder?

The formula of Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder is expressed as Energy Content per Unit Cylinder = (Density of Mixture*Lower Heating Value of Fuel)/(Relative Air Fuel Ratio*Stoichiometric Air Fuel Ratio+1). Here is an example- 0.000347 = (800*10000000)/(1.5*14.7+1).

How to calculate Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder?

With Density of Mixture (ρ_mix), Lower Heating Value of Fuel (LHV_f), Relative Air Fuel Ratio (λ) & Stoichiometric Air Fuel Ratio (R_af) we can find Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder using the formula - Energy Content per Unit Cylinder = (Density of Mixture*Lower Heating Value of Fuel)/(Relative Air Fuel Ratio*Stoichiometric Air Fuel Ratio+1).

Can the Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder be negative?

No, the Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder, measured in Energy Density cannot be negative.

Which unit is used to measure Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder?

Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder is usually measured using the Megajoule per Cubic Meter[MJ/m³] for Energy Density. Joule per Cubic Meter[MJ/m³], Kilojoule per Cubic Meter[MJ/m³] are the few other units in which Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder can be measured.

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Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder Formula

Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder Example

Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder Solution

Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder Formula Elements

Other formulas in Fuel Injection in IC Engine category

How to Evaluate Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder?

FAQs on Energy Content Per Unit Cylinder Volume of Mixture Formed Prior to Induction into Cylinder

Variable Name