The flow field in shell-and-tube heat exchangers with helical baffles was measured using laser Doppler anemometry (LDA). The influence on the velocity distribution, impulsive velocity by helix inclination angle, and flow rate was investigated. The influence on heat exchanging capability and flow resistance on velocity distribution was also investigated. The dimensions of the heat exchanger shell used in these experiments were 200 × 6 × 3,000 mm (inner diameter × wall thickness × length). The heat exchanger was made of organic glass and the tube bundle consisted of 52 tubes with external diameter of 15 mm. Six different inclination angles were designed in double-helix style: 30℃, 35℃, 40℃, 42℃, 45℃, and 50℃. The working flow medium under normal temperature was service water. Generally, the linear velocity and impulsive velocity will increase with decreasing helix inclination angle, which promotes the heat exchanging capability. With flow volume increasing, the velocity distribution along the diameter increases on average. The pressure drop increases with decreasing helix inclination angle. For all of the helix inclination angles tested, the minimum pressure loss took place at a certain Reynolds number; and at different helix inclination angles, the Reynolds number at which the minimum pressure loss occurs is different. In general, it was concluded that the optimum helix inclination angle depends on the Reynolds number of the working fluid on the shell side of heat exchanger.
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