3. Results and discussion3.1. Tempe

3. Results and discussion
3.1. Temperature–time profiles of the microwave system
In order to inspect the heating characteristics of microwave system,
different volumes (20, 30, 40 and 60 mL) of distilled water
(the initial temperature was 17 ◦C) were prepared in the threenecked
glass flask, and the microwave anode current was set at
120 mA. The temperature–time profile of the heating characteristics
of the microwave system is shown in Fig. 1C. As can be seen
from Fig. 1C, the time lag of the microwave system was about
3–4 s. t-Test analysis revealed that there was no significant difference
in terms of the rate of increase in temperature among water
of 20, 30 and 40 mL (linear regression analysis: 20 mL, slope of
1.56
±
0.13, r = 0.9902; 30 mL, slope 1.46
±
0.15, r = 0.9959; 40 mL,
slope of 1.35
±
0.12, r = 0.9989). However, the t-test indicated that
the rate of increase in temperature for the water volume 60 mL
was significantly lower than those for 20, 30 and 30 mL (linear
regression analysis: 60 mL, slope of 1.05
±
0.14, r = 0.9929). In addition,
the results showed that the difference between 20 and 60 mL
had P = 0.0099, 30–60 mL (P = 0.0258), and 40–60 mL (P = 0.0479), at
least 0.05 levels above the difference. Accordingly, linear relationship
between temperature and microwave irradiation-time was
established.