Study on Kilowatt-Level Cladding Power Stripper Using Spiral Flow Channel Water-Cooling Technology

Qinggan Xia; Wenbo Xiao; Diyou Jiang; Xin Jin; Guomin Ye; Yinshui He

doi:10.3788/LOP57.231407

Journals >Laser & Optoelectronics Progress >Volume 57 >Issue 23 >Page 231407 > Article

Laser & Optoelectronics Progress
Vol. 57, Issue 23, 231407 (2020)

Study on Kilowatt-Level Cladding Power Stripper Using Spiral Flow Channel Water-Cooling Technology

Qinggan Xia^1、3, Wenbo Xiao^{1、2、3、*}, Diyou Jiang^1、3, Xin Jin^1、3, Guomin Ye^1、3, and Yinshui He⁴

Author Affiliations

¹Key Laboratory of Nondestructive Testing, Ministry of Education, Nanchang Hangkong University, Nanchang Jiangxi, 330063, China

²Key Laboratory of Image Processing & Pattern Recognition in Jiangxi Province, Nanchang Hangkong University, Nanchang, Jiangxi 330063, China;

³Jiangxi Engineering Laboratory for Optoelectronics Testing Technology, Nanchang, Jiangxi 330063, China

⁴College of Mechanical and Electrical Engineering, Nanchang University, Nanchang, Jiangxi 330031, China

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DOI: 10.3788/LOP57.231407 Cite this Article Set citation alerts

Qinggan Xia, Wenbo Xiao, Diyou Jiang, Xin Jin, Guomin Ye, Yinshui He. Study on Kilowatt-Level Cladding Power Stripper Using Spiral Flow Channel Water-Cooling Technology[J]. Laser & Optoelectronics Progress, 2020, 57(23): 231407 Copy Citation Text

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Fig. 1. Structure diagram of traditional kilowatt CPS. (a) Stripper 1; (b) stripper 2

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Fig. 2. Structure diagram of spiral channel water-cooled kilowatt CPS

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Fig. 3. Simulation diagram of thermal effect. (a) Stripper 1; (b) stripper 2; (c) stripper 3

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Fig. 4. CPS mean temperature changes with time when T_mold=353.15K

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Serial number		T_max/K	T_min/K	T_dif/K
Stripper 1	Simulation data	354.00	293.00	61.00
Stripper 1	Experimental data	353.15	293.15	60.00
Stripper 2	Simulation data	352.00	317.00	35.00
Stripper 2	Experimental data	351.65	315.65	36.00
Stripper 3	Simulation data	305.00	289.00	16.00

Table 1. Thermal performance data of strippers 1, 2, and 3

Variable name	Serial number
Variable name	1	2	3	4
T_mold/K	290.15	293.15	295.15	353.15
T_max/K	305.00	305.00	305.00	305.00
T_min/K	288.94	288.94	288.94	288.94
T_dif/K	16.06	16.06	16.06	16.06
V_max/(m·s^-1)	23.59	23.59	23.59	23.59

Table 2. Data table of the influence of different T_mold on the thermal performance of the strippers

Variable name	Serial number
Variable name	1	2	3
T_cool/K	283.15	288.15	293.15
T_max/K	300.49	305.00	309.62
T_min/K	284.29	288.94	283.61
T_dif/K	16.20	16.06	16.01
V_max/(m·s^-1)	23.59	23.59	23.59

Table 3. Data table of the influence of different T_coolon the thermal performance of the stripper

Variable name	Serial number
Variable name	1	2	3
D_i/mm	2.00	2.50	3.00
T_max/K	307.12	305.76	305.00
T_min/K	289.30	289.12	288.84
T_dif/K	17.82	16.64	16.16
V_max/(m·s^-1)	53.20	33.99	23.59

Table 4. Data table of the influence of different D_ion the thermal performance of the stripper

Variable name	Serial number
Variable name	1	2	3	4	5	6
P_b/W	1000	2000	3000	4000	4200	4500
〗T_max/K	300.49	316.92	333.41	349.91	353.21	358.16
T_min/K	284.29	284.82	285.34	285.87	285.97	286.13
T_dif/K	16.20	32.10	48.07	64.04	67.24	72.03
V_max/(m·s^-1)	23.59	23.60	23.61	23.61	23.62	23.62

Table 5. Thermal performance data table of different P_b under optimal environment

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