The bore diameter of each cylinder in a six-cylinder four-stroke internal combustion engine is 32 mm and the stroke of each piston is 125 mm. During testing, the engine runs at 1450 revolutions per minute (rpm) with a pressure-volume indicator diagram showing a mean net area of 2.90 cm² and a diagram length of 0.85 cm. The pressure scale on the indicator diagram is set to 165 kN/m per cm. Calculate the mean effective pressure (m.e.p) and the indicated power in kilowatts (kW) developed by this six-cylinder four-stroke engine. Give your answer to 2 decimal

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Question 4b
b) The bore diameter of each cylinder in a six-cylinder four-stroke internal combustion
engine is 32 mm and the stroke of each piston is 125 mm. During testing, the engine
runs at 1450 revolutions per minute (rpm) with a pressure-volume indicator diagram
showing a mean net area of 2.90 cm2 and a diagram length of 0.85 cm. The pressure
scale on the indicator diagram is set to 165 kN/m per cm. Calculate the mean
effective pressure (m.e.p) and the indicated power in kilowatts (kW) developed by this
six-cylinder four-stroke engine. Give your answer to 2 decimal
Transcribed Image Text:b) The bore diameter of each cylinder in a six-cylinder four-stroke internal combustion engine is 32 mm and the stroke of each piston is 125 mm. During testing, the engine runs at 1450 revolutions per minute (rpm) with a pressure-volume indicator diagram showing a mean net area of 2.90 cm2 and a diagram length of 0.85 cm. The pressure scale on the indicator diagram is set to 165 kN/m per cm. Calculate the mean effective pressure (m.e.p) and the indicated power in kilowatts (kW) developed by this six-cylinder four-stroke engine. Give your answer to 2 decimal
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