A single pass shell and tube heat exchanger, consisting of a bundle of 100 tubes (inner diameter 25 mm and thickness 2 mm) is used for heating 28 kg/s of water from 25 degree Celsius to 75 degree Celsius with the help of a steam condensing at atmospheric pressure on the shell side with condensing heat transfer coefficient 5000 W/m2degree. Make calculation for overall heat transfer coefficient based on the inner area. Take fouling factor on the water side to be 0.002 m2degree/W per tube and neglect effect of fouling factor on the shell side and thermal resistance of the tube walla)647.46 W/m2degreeb)747.46 W/m2degreec)847.46 W/m2degreed)947.46 W/m2degreeCorrect answer is option 'C'. Can you explain this answer?

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A single pass shell and tube heat exchanger, consisting of a bundle of 100 tubes (inner diameter 25 mm and thickness 2 mm) is used for heating 28 kg/s of water from 25 degree Celsius to 75 degree Celsius with the help of a steam condensing at atmospheric pressure on the shell side with condensing heat transfer coefficient 5000 W/m²degree. Make calculation for overall heat transfer coefficient based on the inner area. Take fouling factor on the water side to be 0.002 m² degree/W per tube and neglect effect of fouling factor on the shell side and thermal resistance of the tube wall

a)
647.46 W/m²degree
b)
747.46 W/m²degree
c)
847.46 W/m²degree
d)
947.46 W/m²degree

Correct answer is option 'C'. Can you explain this answer?

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A single pass shell and tube heat exchanger, consisting of a bundle of 100 tubes (inner diameter 25 mm and thickness 2 mm) is used for heating 28 kg/s of water from 25 degree Celsius to 75 degree Celsius with the help of a steam condensing at atmospheric pressure on the shell side with condensing heat transfer coefficient 5000 W/m2degree. Make calculation for overall heat transfer coefficient based on the inner area. Take fouling factor on the water side to be 0.002 m2degree/W per tube and neglect effect of fouling factor on the shell side and thermal resistance of the tube walla)647.46 W/m2degreeb)747.46 W/m2degreec)847.46 W/m2degreed)947.46 W/m2degreeCorrect answer is option 'C'. Can you explain this answer?

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A single pass shell and tube heat exchanger, consisting of a bundle of 100 tubes (inner diameter 25 mm and thickness 2 mm) is used for heating 28 kg/s of water from 25 degree Celsius to 75 degree Celsius with the help of a steam condensing at atmospheric pressure on the shell side with condensing heat transfer coefficient 5000 W/m2degree. Make calculation for overall heat transfer coefficient based on the inner area. Take fouling factor on the water side to be 0.002 m2degree/W per tube and neglect effect of fouling factor on the shell side and thermal resistance of the tube walla)647.46 W/m2degreeb)747.46 W/m2degreec)847.46 W/m2degreed)947.46 W/m2degreeCorrect answer is option 'C'. Can you explain this answer? for Chemical Engineering 2024 is part of Chemical Engineering preparation. The Question and answers have been prepared according to the Chemical Engineering exam syllabus. Information about A single pass shell and tube heat exchanger, consisting of a bundle of 100 tubes (inner diameter 25 mm and thickness 2 mm) is used for heating 28 kg/s of water from 25 degree Celsius to 75 degree Celsius with the help of a steam condensing at atmospheric pressure on the shell side with condensing heat transfer coefficient 5000 W/m2degree. Make calculation for overall heat transfer coefficient based on the inner area. Take fouling factor on the water side to be 0.002 m2degree/W per tube and neglect effect of fouling factor on the shell side and thermal resistance of the tube walla)647.46 W/m2degreeb)747.46 W/m2degreec)847.46 W/m2degreed)947.46 W/m2degreeCorrect answer is option 'C'. Can you explain this answer? covers all topics & solutions for Chemical Engineering 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A single pass shell and tube heat exchanger, consisting of a bundle of 100 tubes (inner diameter 25 mm and thickness 2 mm) is used for heating 28 kg/s of water from 25 degree Celsius to 75 degree Celsius with the help of a steam condensing at atmospheric pressure on the shell side with condensing heat transfer coefficient 5000 W/m2degree. Make calculation for overall heat transfer coefficient based on the inner area. Take fouling factor on the water side to be 0.002 m2degree/W per tube and neglect effect of fouling factor on the shell side and thermal resistance of the tube walla)647.46 W/m2degreeb)747.46 W/m2degreec)847.46 W/m2degreed)947.46 W/m2degreeCorrect answer is option 'C'. Can you explain this answer?.

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