rephrase this The Shell and Tube Heat Exchanger operates in the same way as the most of basic Heat exchanger, the double pipe heat exchanger. The smaller pipe carries one fluid while the annular space between the two pipes carries the other. In this experiment, hot water flows through the smaller pipe, while cold water flows through the annular space between the two tubes. The experiment was conducted mainly to study the overall heat transfer coefficient, logarithmic mean temperature difference (LMTD), heat transfer and heat loss for energy balance for counter current shell and tube heat exchanger. Counter current flow indicates that fluids are flowing at the opposite direction and the exchange heat efficiently. In this experiment, the flowrate of the cold and hot water is being manipulated by adjusting the valves V3 and V14. The pressure drops DPT1 and DPT2 is recorded. At the ShellSide of the heat exchanger the cold-water flows whereas at the Tube-side is the hot water flows. In Experiment 1, the flowrate of the hot water, FT1 is kept constant first at 10 L/min with variant flowrate of cold water, FT2 and it is vice versa for experiment 2
rephrase this
The Shell and Tube Heat Exchanger operates in the same way as the most of basic Heat exchanger, the double pipe heat exchanger. The smaller pipe carries one fluid while the annular space between the two pipes carries the other. In this experiment, hot water flows through the smaller pipe, while cold water flows through the annular space between the two tubes. The experiment was conducted mainly to study the overall heat transfer coefficient, logarithmic mean temperature difference (LMTD), heat transfer and heat loss for energy balance for counter current shell and tube heat exchanger. Counter current flow indicates that fluids are flowing at the opposite direction and the exchange heat efficiently. In this experiment, the flowrate of the cold and hot water is being manipulated by adjusting the valves V3 and V14. The pressure drops DPT1 and DPT2 is recorded. At the ShellSide of the heat exchanger the cold-water flows whereas at the Tube-side is the hot water flows. In Experiment 1, the flowrate of the hot water, FT1 is kept constant first at 10 L/min with variant flowrate of cold water, FT2 and it is vice versa for experiment 2
Step by step
Solved in 3 steps with 3 images