As tabulated in Table 1, a total of

As tabulated in Table 1, a total of eighteen sample coils which includes plain, louver, and semi-dimple VG. The detailed dimension and the photo of the semi-dimple VG is schematically shown in Fig. 1 (a) whereas the louver fin is depicted in Fig. 1 (b). Notice that the fin thickness (D f), collar diameter ( D c), transverse pitch (Pt), and longitudinal pitch ( Pl) for all the test samples are 0.11 mm, 7.5 mm, 21 mm, and 18.2 mm, respectively. The corresponding fin pitch (Fp) ranges from 1.6–2.0 mm and the number of tube row (N)spans from 1 to 4 as shown in Table 1. Detailed construction of the circuitry arrangement is identical to those by Wang et al.[27] . The experiments are conducted in an open wind tunnel as shown in Fig. 2. The ambient air flow was forced across the test section by means of a 5.6 kW centrifugal fan with an inverter. To avoid and minimize the effect of flow maldistribution in the experiments, an air straightener-equalizer and a mixer were provided. The inlet and the exit temperatures across the sample coil were measured by two T-type thermocouple meshes. The inlet measuring mesh consists of twelve thermocouples while the outlet mesh contains 36 thermocouples. These data signals were individually recorded and then averaged. During the isothermal test, the variance of these thermocouples was within 0.2C. In addition, all the thermocouples were pre-calibrated by a quartz thermometer with 0.01C precision.
The pressure drop of the test coil was detected by a precision differential pressure transducer, reading to 0.1 Pa. The air flow measuring station was a multiple nozzle code tester based on the ASHRAE 41.2 standard [28] . The working medium in the tube side was hot water. The inlet water temperature was controlled by a thermostat reservoir having an adjustable capacity up to 25 kW. Both the inlet and outlet temperatures were measured by two precalibrated RTDs (Resistance temperature device, Pt-100). Their accuracy was within 0.05 C. The water volumetric flow rate is detected by a magnetic flow meter with 0.002 L/s resolution.