Analyze the influence of nozzle shape and orientation on inline arrangement of multiple jets impingement on a concave surface

Abstract

The present study reports the thermal behavior of multiple jets on a hot concave surface with different nozzle geometries such as circular and elliptical and different orientation. Tests are performed with five different nozzles at different values of nondimensional nozzle to surface distance (z/d = 2–10) and Reynolds number (5000–28,000). Here, the parameter coefficient of variation (COV) is used to estimate the non-uniformity in the local Nu variation. For N-2, the value of (Formula presented.) is found to be 50–60% higher compared to N-3 at z/d = 2

while at z/d ≥ 8, for N-3, the value of (Formula presented.) is found to be 10–15% higher compared to N-2. The higher temperature uniformity ((Formula presented.)) is noted in the fountain region compared to impingement region for the circular and elliptical nozzles. The thermal performance of elliptical jets is found to be sensitive toward the jet orientation at lower z/d values. The magnitude of temperature non-uniformity decreases with the increase in the z/d values. Among the tested nozzles, Nozzle N-2 consistently demonstrates superior performance across all nozzle-to-plate distances and with an increase in the z/d value improvement with nozzle N-2 reduces. © 2024 Taylor & Francis.