The **brake** horse power - bhp - for a pump or fan can be expressed as: Pbhp = ( γ Q h / 33000 ) / η (2) where Pbhp = **brake** horse power (**horsepower**, **hp**) Q = volume flow rate (ft3/min, cfm) η = overall efficiency Shaft or **Brake**. Appendix F **Horsepower** and kilowatt calculations Pump-motor **horsepower** calculations **Horsepower** calculation—US **units** Calculate motor **horsepower** for shipboard auxiliary equipment such as pumps. By definition **horsepower** is equal to 550 ft-lb per second or 33,000 ft-lb per minute. Pump **Brake** **Horse** **Power** (BHP work ) time(sec onds)x550. **Brake**-specific fuel consumption (BSFC) is a measure of the fuel efficiency of any prime mover that burns fuel and produces rotational, or shaft power. It is typically used for comparing the.

The **formula** used in horsepowers to **brake** **horsepower** (bhp)s conversion is 1 **Horsepower** = 1.00000000056019 **Brake** **Horsepower** (bhp). In other words, 1 **horsepower** is 2 times bigger than a **brake** **horsepower** (bhp). To convert all types of measurement **units**, you can used this tool which is able to provide you conversions on a scale..

**Horsepower** (**HP** **Formula**) is Given as: **HP** = (Torque Speed)/5252. Another **Horsepower formula** related to the weight is represented as, **Horse Power** = Weight x \[(\frac{Velocity}{234})^{2}\] Solved Examples . 1. Calculate the **Horsepower** of an Automobile That Spins at 600 Rpm and has a Torque of 100 Pound-Foot. Solution: Given parameters are. Torque ....

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**In** the U.S. customary **units**, P S is the power given to the pump shaft in **brake** **horsepower** (BHP). For example, using these equations, we can predict that a pump that generates 90 GPM at 35 feet of head and needs 1 BHP has an overall efficiency at that flow point as: \eta =\frac {P_W} {P_S}=\frac {\frac {90\times 35} {3960}\ } {1}\times 100\%=79.5\%. hp stands for **horsepowers** and bhp stands for **brake** **horsepower** (bhp)s. The **formula** used in **horsepowers** to **brake** **horsepower** (bhp)s conversion is 1 **Horsepower** = 1.00000000056019 **Brake** **Horsepower** (bhp). In other words, 1 **horsepower** is 2 times bigger than a **brake** **horsepower** (bhp). To convert all types of measurement **units**, you can used this tool. Web. Power = Torque x RPM. While performing the test, torque and RPM are known in the above equation and so we can calculate power. Since the power delivered by engine is calculated by applying brakes, it is popularly called has **brake** **horsepower**.. ‘**Brake**’ in the term ‘**brake horsepower**’, refers to a device which was used to load an engine and hold it at a desired revolutions per minute (rpm).. **In** the U.S. customary **units**, P S is the power given to the pump shaft in **brake** **horsepower** (BHP). For example, using these equations, we can predict that a pump that generates 90 GPM at 35 feet of head and needs 1 BHP has an overall efficiency at that flow point as: \eta =\frac {P_W} {P_S}=\frac {\frac {90\times 35} {3960}\ } {1}\times 100\%=79.5\%.

hp stands for **horsepowers** and bhp stands for **brake** **horsepower** (bhp)s. The **formula** used in **horsepowers** to **brake** **horsepower** (bhp)s conversion is 1 **Horsepower** = 1.00000000056019 **Brake** **Horsepower** (bhp). In other words, 1 **horsepower** is 2 times bigger than a **brake** **horsepower** (bhp). To convert all types of measurement **units**, you can used this tool.

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The resulting **units** of BSFC are grams per joule (g/J) Commonly BSFC is expressed in **units** of grams per kilowatt-hour (g/ (kW⋅h)). The conversion factor is as follows: BSFC [g/ (kW⋅h)] = BSFC [g/J] × (3.6 × 10 6) The conversion between metric and imperial **units** is: BSFC [g/ (kW⋅h)] = BSFC [lb/ (**hp**⋅h)] × 608.277.

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Inputs: discharge or flow rate (Q) Conversions: discharge or flow rate (Q) total head (H) = 0 foot Solution: water **horsepower** (WHP) = NOT CALCULATED Other **Units**: Change Equation Select to solve for a different unknown Water **Horsepower** Net Positive Suction Head and Cavitation Where References - Books:. The **brake** **horsepower** can be determined from the following equation: (7.53) BHP = 0.0857 Z AVG 1 k Z 1 k − 1 k Q g T 1 η m η a kn p k − 1 P 2 P 1 k − 1 kn p − 1. where: BHP = **brake** **horsepower** per stage. Example: Calculate hydraulic **horsepower** when pressure is 2000psi and flow rate is 20GPM: **Horsepower** = (2000 x 20) / 1714..

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The total **brake horsepower** required is equal to the sum of the required **horsepower** for each stage. The **brake horsepower** can be determined from the following equation: (7.53) where: BHP = **brake horsepower** per stage Qg = volume of gas, MMSCFD T1 = suction temperature, °R Z1 = suction compressibility factor Z2 = discharge compressibility factor. **Brake** specific fuel consumption **formula**: The **formula** of the **brake** specific fuel consumption is given by, ... {2\pi NT}{60}` Where, T = Torque at the crankshaft N = RPM of the crankshaft.. The following is a generic **equation** to determine the required **horsepower** to drive the fan or blower element . This **equation** does not compensate for temperature, density or airflow charateristics of any particular fan or blower. **Equation**: P = (Q x p)/ (229 x ) or P = (Q x PF)/ (33,000 x ) or P = (Q x Pw)/ (6356 x ) Where: P = Power, **hp**.

What is the **formula** of **brake** **horsepower** (BHP) and indicated **horsepower** (IHP)? **Brake** **horsepower**: Bhp= 2πNT/60 where, N- rpm of crankshaft T- Torque Indiacated **horsepower**: I.H.P = ( (PLAN x n) / 2) ÷ 4500 where, P = Mean effective pressure in kg/cm², L = Length of stroke, A = Area of piston in cm², N = RPM of crankshaft, n = Number of cylinders 27. . . Dec 05, 2021 · **Brake** **Horsepower** (bhp) is the **unit** to measure the amount of the actual power of the engine or motor (power available at the crankshaft) considering the losses of the engine. Those losses can be losses due to the gearbox, alternator, cooling pump, and power steering system.. HM-10 to HM-10 manual connection. National Instruments Corporation. Most textbooks related to programmable controllers start with the basics ofladder logic, Boolean algebra, conta. **Formula** for calculations of Break **horsepower** is 1.BHP = (Torque × RPM )/5252,where torque is lb -ft and n = revolution per min. 2.BHP = BP /33000,where BP (in watt ) = Torque×2π×RPM (RPM in min. ) Where torque in the **formula** of BP is in lb -ft 3.BHP =BP (in Watt ) / 746 we get it in horse power ,since 1 **HP** = 746 watt. In the U.S. customary **units**, P S is the power given to the pump shaft in **brake horsepower** (BHP). For example, using these equations, we can predict that a pump that generates 90 GPM at 35 feet of head and needs 1 BHP has an overall efficiency at that flow point as: \eta =\frac {P_W} {P_S}=\frac {\frac {90\times 35} {3960}\ } {1}\times 100\%=79.5\%.

**Brake** **horsepower** tg2011 Lecture 3.2 through 3.4- **Units**, Conversions, & Density Mary Beth Smith Diesel Engine u000bPower Plantu000b - Syed Anser Hussain Naqvi Protagonistsoldier Micro Electro Mechanical Systems (MEMS) Class Materials - Lecture 01 Manipal Institute of Technology Pressure measuring devices Akash Patel Power control devices popet.

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**Horsepower formula** is: **Horsepower** = With another computation, **Horsepower** = weight × Solved Examples on **Horsepower Formula** Q.1: Determine the **horsepower** of a vehicle which moves with a speed of 500 revolutions per minute and has a torque of 100 pound-foot. Solution: Given parameters in the problem are: Torque = 100 pound foot. HM-10 to HM-10 manual connection. National Instruments Corporation. Most textbooks related to programmable controllers start with the basics ofladder logic, Boolean algebra, conta. **Formula** for calculations of Break **horsepower** is 1.BHP = (Torque × RPM )/5252,where torque is lb -ft and n = revolution per min. 2.BHP = BP /33000,where BP (**in** watt ) = Torque×2π×RPM (RPM in min. ) Where torque in the **formula** of BP is in lb -ft 3.BHP =BP (**in** Watt ) / 746 we get it in **horse** **power** ,since 1 HP = 746 watt.

Web. **Horsepower formula** is given by **Horsepower** = (Torque × Speed) / 5252 **HP** = (100 × 600) / 5252 **HP** = 60000/5252 **HP** = 1.142 **hp** Example 2 Calculate the speed of the vehicle if its **horsepower** is 0.865 **hp** and torque is 250 pound-foot. Solution: Given parameters are Torque = 250 pound-foot **Horsepower** (**HP**) = 0.865 **hp** The speed is given as.

How much **horsepower** does a F1 car have? The best way to determine how much raw power an engine has is to look at its **horsepower**. For the 2021 F1 season, it is predicted that the engines have approximately 1050 HP. Some of that power is stored in the electrical **unit**. While the car generates speed and power, the energy gets stored in this **unit**. The power required to drive a pump is defined simply using **SI units** by: where: P is the input power required (W) BHP is the **brake horsepower**; ρ is the fluid density (kg/m 3) g is. PAHP = Air **Horse** **Power** (hp) q = air flow (cfm) SG = Specific Gravity Air (= 1.0) dpinWG = total pressure (**in**. W.G) **Brake** **Horse** **Power** - BHP **Brake** **horse** **power** - the actual power a fan requires because no fan is 100% efficient. BHP can be expressed as PBHP = q dpinWG / μ 6356 (2) where PBHP = **Brake** **Horse** **Power** (hp) μ = fan efficiency Sponsored Links. To get the surface area of the rectangular box 5 cm long, 3 cm wide and 4 cm high, we will use the Surface Area **formula** of rectangular box. The Surface Area **formula** to be used is expressed below: where: W = Width; H = Height; L = Length; Solution: Step 1:. Sep 12, 2010 · Equation to other **units** <ul><li>**Brake horsepower** is measure of watts produced at the crankshaft of the engine </li></ul><ul><li>1 **horsepower**= 745.7 watts </li></ul><ul><li>1 BHP is like 1 horse pulling something </li></ul> 6.. The **Brake** **Horsepower** calculator can be used to determine the required centrifugal pump **brake** **horsepower** (BHP) for a given flow rate (Q), head (H), specific gravity (S.G.), and efficiency (Eff). When you enter any four of these variables as inputs, the calculator will automatically determine the fifth variable.. Sep 12, 2010 · **Brake Horsepower** Yu Weiran(33) 1A3 ... **Si** **units** and **horse power**. ... **Formula** of IC Engine dmshah0009. Internal combustion engine (ja304) chapter 4 .... Web.

water horsepower: Q = flow rate or discharge: H = total head: n = pump efficiency: BHP = brake horsepower: NPSH = net positive suction head: V = velocity of fluid or liquid: p = impeller inlet.

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. **In** System International System (**SI**) it is in kilowatts (kw). The hydraulic power is the next energy transferred to the water per **unit** time. The input power delivered by the motor to the pump is called **brake** **horsepower** (bHp). The difference between the **brake** **horsepower** and hydraulic power is the pump efficiency . Other Helpful Calculators. Jan 24, 2015 · Working backward, you can convert the rotational force of a crankshaft into **horsepower** by multiplying 2π (two revolutions or 6.2831853) x RPM x torque divided by 33,000. To simplify, divide 33,000 by 2π (6.2831853) to get 5,252, which is the constant applied to the following **formulas**: **HP** = (torque x RPM) ÷ 5,252 Torque = (**HP** x 5,252) ÷ RPM.

The **units** are as specified in the **formula**, US gallons per minute are used as opposed to imperial gallons per minute. Power at the pump shaft through the motor Since more often than not, a pump is driven by an electric motor, it is possible to determine the power consumed by a pump by looking at the power consumed by the motor.

Power = Torque x RPM. While performing the test, torque and RPM are known in the above equation and so we can calculate power. Since the power delivered by engine is calculated by applying brakes, it is popularly called has **brake** **horsepower**..

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**Brake** **horsepower** is the actual power delivered to or by a shaft. The actual power - **brake** horse power - a fan requires, because no fan is 100% efficient, can be expressed as PBHP = q dpinWG / μ 6356 (2) where PBHP = **Brake** Horse Power (**hp**) μ = fan efficiency Sponsored Links. **Horsepower formula** is: **Horsepower** = With another computation, **Horsepower** = weight × Solved Examples on **Horsepower Formula** Q.1: Determine the **horsepower** of a vehicle which moves with a speed of 500 revolutions per minute and has a torque of 100 pound-foot. Solution: Given parameters in the problem are: Torque = 100 pound foot.

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For example, if we have a motor with 3,000 rpm and 6 in-lbf then the **horsepower** can be calculated below. **Horsepower** =. i.e. **horsepower** = 0.286. Here, 63025 is a constant when using rpm for speed and in-lbf for torque **units**. 5252 is another common constant if the speed is in rpm and torque is in ft-lbf.. With the values that you have located, from the engine speed to the torque, you will be able to easily plug them in and find the actual **horsepower** levels of your vehicle. **Horse** **Power** Calculation **Formula**: **Formula**: (RPM * T) / 5252=HP RPM = speed of the engine T = torque 5,252 = radians per second.

The **equation** to calculate **horsepower** is simple: **Horsepower** = Torque x RPM / 5,252. How many **HP** is BHP? 1. **HP** is the output **horsepower** rating of an engine, while BHP is the input **brake horsepower** of an engine. 2. B **HP** is the measurement of an engine's power without any power losses, while **HP** is BHP less the power losses. How many cc is a **horsepower**?. **Horsepower formula** is given by **Horsepower** = (Torque × Speed) / 5252 **HP** = (100 × 600) / 5252 **HP** = 60000/5252 **HP** = 1.142 **hp** Example 2 Calculate the speed of the vehicle if its **horsepower** is 0.865 **hp** and torque is 250 pound-foot. Solution: Given parameters are Torque = 250 pound-foot **Horsepower** (**HP**) = 0.865 **hp** The speed is given as. For example, if you have a 20-**horsepower** motor running for three hours, you would multiply 20 by 3 to get 60 **horsepower**-hours. Multiply the number of **horsepower**-hours by 0.7457 kilowatts per **horsepower**-hour to convert to kilowatt-hours. How is hp calculated? The equation to calculate **horsepower** is simple: **Horsepower** = Torque x RPM / 5,252. **Formula** for calculations of Break **horsepower** is 1.BHP = (Torque × RPM )/5252,where torque is lb -ft and n = revolution per min. 2.BHP = BP /33000,where BP (**in** watt ) = Torque×2π×RPM (RPM in min. ) Where torque in the **formula** of BP is in lb -ft 3.BHP =BP (**in** Watt ) / 746 we get it in **horse** **power** ,since 1 HP = 746 watt. . Sep 12, 2010 · Equation to other **units** <ul><li>**Brake horsepower** is measure of watts produced at the crankshaft of the engine </li></ul><ul><li>1 **horsepower**= 745.7 watts </li></ul><ul><li>1 BHP is like 1 horse pulling something </li></ul> 6.. The power required to drive a pump is defined simply using **SI** **units** by: where: P is the input power required (W) BHP is the **brake horsepower** ρ is the fluid density (kg/m 3 ) g is the standard acceleration of gravity (9.81 m/s 2 ) H is the net pump head added to the flow (m) Q is the flow rate (m 3 /s) η is the efficiency of the pump References:.

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. Specific Gravity: 0.78 **Horsepower**: 0.0 HP 0.0 HP = ( 1 ft * 1 gpm * 0.1 ) /3960 Definitions: First, we must define the different variables that and constants that we'll use in our calculation. Head: The vertical distance traveled by the liquid through the system. For the sake of simple calculations we are discounting friction loss from the pipe.

Horse Power Calculation Formula: Formula:** (RPM * T) / 5252=HP; RPM = speed of the engine; T = torque 5,252 = radians per second** As you can see, the formula for the horsepower equation begins with multiplying the speed of the engine by the torque. This step should be completed first, since it is in parenthesis.. **Horsepower formula** is given by **Horsepower** = (Torque × Speed) / 5252 **HP** = (100 × 600) / 5252 **HP** = 60000/5252 **HP** = 1.142 **hp** Example 2 Calculate the speed of the vehicle if its **horsepower** is 0.865 **hp** and torque is 250 pound-foot. Solution: Given parameters are Torque = 250 pound-foot **Horsepower** (**HP**) = 0.865 **hp** The speed is given as.

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If we know the cylinder pressure we can calculate the indicated **horsepower** using a widely accepted **formula** called PLAN. **Horsepower** = (P x L x A x N) ÷ 33,000. Where: P = cylinder pressure (MEP) in pounds per square inch (psi) L = length of the stroke in feet (stroke ÷ 12) A = piston area in square inches (bore2 x 0.7854). PAHP = Air Horse Power (**hp**) q = air flow (cfm) SG = Specific Gravity Air (= 1.0) dpinWG = total pressure (in. W.G) **Brake** Horse Power - BHP **Brake** horse power - the actual power a fan requires because no fan is 100% efficient. BHP can be expressed as PBHP = q dpinWG / μ 6356 (2) where PBHP = **Brake** Horse Power (**hp**) μ = fan efficiency Sponsored Links. The **formula** used in horsepowers to **brake** **horsepower** (bhp)s conversion is 1 **Horsepower** = 1.00000000056019 **Brake** **Horsepower** (bhp). In other words, 1 **horsepower** is 2 times bigger than a **brake** **horsepower** (bhp). To convert all types of measurement **units**, you can used this tool which is able to provide you conversions on a scale.. BHP = **Brake Horsepower** in ... P = Pressure in pounds per square inch n = Efficiency expressed as a decimal C = A conversion factor depending on **units** of flow and pressure . **Units**: Value. bhp stands for **brake** **horsepower** (bhp)s and **hp** (electric) stands for **horsepower** (electric)s. The **formula** used in **brake** **horsepower** (bhp)s to **horsepower** (electric)s conversion is 1 **Brake** **Horsepower** (bhp) = 0.999597683086153 **Horsepower** (electric). In other words, 1 **brake** **horsepower** (bhp) is 2 times smaller than a **horsepower** (electric)..

‘**Brake**’ in the term ‘**brake horsepower**’, refers to a device which was used to load an engine and hold it at a desired revolutions per minute (rpm).. Horse Power Calculation Formula: Formula:** (RPM * T) / 5252=HP; RPM = speed of the engine; T = torque 5,252 = radians per second** As you can see, the formula for the horsepower equation begins with multiplying the speed of the engine by the torque. This step should be completed first, since it is in parenthesis.. **In** the U.S. customary **units**, P S is the power given to the pump shaft in **brake** **horsepower** (BHP). For example, using these equations, we can predict that a pump that generates 90 GPM at 35 feet of head and needs 1 BHP has an overall efficiency at that flow point as: \eta =\frac {P_W} {P_S}=\frac {\frac {90\times 35} {3960}\ } {1}\times 100\%=79.5\%. The equation to calculate **horsepower** is simple: **Horsepower** = Torque x RPM / 5,252. How many **HP** is BHP? 1. **HP** is the output **horsepower** rating of an engine, while BHP is the input **brake** **horsepower** of an engine. 2. B **HP** is the measurement of an engine's power without any power losses, while **HP** is BHP less the power losses. How many cc is a **horsepower**?.

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**Equation** to other **units** <ul><li>**Brake horsepower** is measure of watts produced at the crankshaft of the engine </li></ul><ul><li>1 **horsepower**= 745.7 watts </li></ul><ul><li>1.

Sep 12, 2010 · Equation to other **units** <ul><li>**Brake horsepower** is measure of watts produced at the crankshaft of the engine </li></ul><ul><li>1 **horsepower**= 745.7 watts </li></ul><ul><li>1 BHP is like 1 horse pulling something </li></ul> 6..

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PAHP = Air Horse Power (**hp**) q = air flow (cfm) SG = Specific Gravity Air (= 1.0) dpinWG = total pressure (in. W.G) **Brake** Horse Power - BHP **Brake** horse power - the actual power a fan requires because no fan is 100% efficient. BHP can be expressed as PBHP = q dpinWG / μ 6356 (2) where PBHP = **Brake** Horse Power (**hp**) μ = fan efficiency Sponsored Links.

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BHP = Q × P / (1714 × n) Where: BHP = **Brake** **Horsepower** in **Horsepower** Q = Flow Rate in gallons per minute P = Pressure in pounds per square inch n = Efficiency expressed as a decimal value* *Many positive displacement pumps are assumed to operate at 90% efficiency. A value of 0.9 is often used for this calculation.. hp stands for **horsepowers** and bhp stands for **brake** **horsepower** (bhp)s. The **formula** used in **horsepowers** to **brake** **horsepower** (bhp)s conversion is 1 **Horsepower** = 1.00000000056019 **Brake** **Horsepower** (bhp). In other words, 1 **horsepower** is 2 times bigger than a **brake** **horsepower** (bhp). To convert all types of measurement **units**, you can used this tool.

For example, if you have a 20-**horsepower** motor running for three hours, you would multiply 20 by 3 to get 60 **horsepower**-hours. Multiply the number of **horsepower**-hours by 0.7457 kilowatts per **horsepower**-hour to convert to kilowatt-hours. How is hp calculated? The equation to calculate **horsepower** is simple: **Horsepower** = Torque x RPM / 5,252.

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**Horsepower** (**hp** **formula**) is given by **Horsepower** = (Torque × Speed) / 5252 **HP** = (100 × 600) / 5252 **HP** = 60000/5252 **HP** = 1.142 **hp** 2. Calculate the Vehicle's Speed If it has 0.865 **Horsepower** and 250 Pound-Foot of Torque. Solution: Given parameters are Torque = 250 pound-foot **Horsepower** (**hp**) = 0.865 **hp** The speed is given as.

**Equation** to other **units** <ul><li>**Brake horsepower** is measure of watts produced at the crankshaft of the engine </li></ul><ul><li>1 **horsepower**= 745.7 watts </li></ul><ul><li>1. Result 1 **Brake** **Horsepower** (bhp) is equivalent to 0.7457 Kilowatt Home » Power » **Brake** **Horsepower** (bhp) to Kilowatt **Formula** Used 1 Watt = 0.00134102208959503 **Brake** **Horsepower** (bhp) 1 Watt = 0.001 Kilowatt ∴ 1 **Brake** **Horsepower** (bhp) = 0.74569987158227 Kilowatt Other **Brake** **Horsepower** (bhp) Conversions. HM-10 to HM-10 manual connection. National Instruments Corporation. Most textbooks related to programmable controllers start with the basics ofladder logic, Boolean algebra, conta.

Late model F150: W = 6500lbs ( GVWR) ; d max = 0.75 g ; S = 100mph (maximum speed) »»» maximum possible **brake** power = 0.002667 x 6500 x 0.75 x 100 = 1300 **brake** **horsepower** Late model Corolla: W = 3800lbs ( GVWR) ; d max = 0.8 g ; S = 120mph (maximum speed) »»» maximum possible **brake** power = 0.002667 x 3800 x 0.8 x 120 = 973 **brake** **horsepower**.

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Power = Torque x RPM. While performing the test, torque and RPM are known in the above equation and so we can calculate power. Since the power delivered by engine is calculated by applying brakes, it is popularly called has **brake** **horsepower**..

The total **brake** **horsepower** required is equal to the sum of the required **horsepower** for each stage. The **brake** **horsepower** can be determined from the following equation: (7.53) where: BHP = **brake** **horsepower** per stage Qg = volume of gas, MMSCFD T1 = suction temperature, °R Z1 = suction compressibility factor Z2 = discharge compressibility factor. Power = Torque x RPM. While performing the test, torque and RPM are known in the above equation and so we can calculate power. Since the power delivered by engine is calculated by applying brakes, it is popularly called has **brake** **horsepower**..

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SI unitsby: where: P is the input power required (W) BHP is thebrake horsepower; ρ is the fluid density (kg/m 3) g is. Power = Torque x RPM. While performing the test, torque and RPM are known in the above equation and so we can calculate power. Since the power delivered by engine is calculated by applying brakes, it is popularly called hasbrakehorsepower..