Numerical Simulation of Supercooled Droplets Deformation, Impingement and Freezing for In-Flight Icing

Table 3 Summary of investigated parameters and outcomes for different simulations

Case No.	We	Re	T(℃)	D₀(μm)	U_g(m/s)	Deformation mode
1	0.03	221.96	25	20	10	Vibration
2	0.13	443.92	25	20	20	Vibration
3	0.53	887.84	25	20	40	Vibration
4	2.11	1775.69	25	20	80	Transitional
5	0.08	554.90	25	50	10	Vibration
6	0.33	1109.80	25	50	20	Vibration
7	1.32	2219.61	25	50	40	Transitional
8	5.27	4439.22	25	50	80	Transitional
9	0.16	1109.80	25	100	10	Vibration
10	0.66	2219.61	25	100	20	Vibration
11	2.63	4439.22	25	100	40	Transitional
12	10.53	8878.44	25	100	80	Bag breakup
13	2.96	3329.41	25	50	60	Transitional
14	4.03	3884.32	25	50	70	Transitional
15	6.66	4994.12	25	50	90	Transitional
16	5.92	6658.83	25	100	60	Transitional
17	8.06	7768.63	25	100	70	Transitional
18	13.33	9988.24	25	100	90	Bag breakup
19	16.45	11098.05	25	100	100	Bag-stamen breakup
20	1.44	332.58	−25	50	40	Vibration
21	2.25	415.72	−25	50	50	Vibration
22	3.23	498.87	−25	50	60	Transitional
23	4.40	582.01	−25	50	70	Transitional
24	5.75	665.16	−25	50	80	Transitional
25	7.28	748.30	−25	50	90	Transitional
26	2.16	498.87	−25	75	40	Vibration
27	3.37	623.59	−25	75	50	Transitional
28	4.85	748.30	−25	75	60	Transitional
29	6.60	873.02	−25	75	70	Transitional
30	8.62	997.74	−25	75	80	Transitional
31	10.91	1122.45	−25	75	90	Bag breakup
32	2.87	665.16	−25	100	40	Vibration
33	4.49	831.45	−25	100	50	Transitional
34	6.47	997.74	−25	100	60	Transitional
35	8.80	1164.03	−25	100	70	Transitional
36	11.50	1330.32	−25	100	80	Bag breakup
37	14.55	1496.60	−25	100	90	Bag breakup