Phase change thermal control system for space high-power laser diode pumping source array

Aihong SHANGGUAN; Haosu ZHANG; Yu CAO; Youjin XIE; Haiyang ZHANG; Yongfan JIANG; Xi WANG; Shengming SU

doi:10.37188/OPE.20243219.2877

Optics and Precision Engineering, Volume. 32, Issue 19, 2877(2024)

Phase change thermal control system for space high-power laser diode pumping source array

Aihong SHANGGUAN1... Haosu ZHANG1,*, Yu CAO1,2, Youjin XIE1,2, Haiyang ZHANG1,3, Yongfan JIANG1,3, Xi WANG1,3, and Shengming SU13 |Show fewer author(s)

Author Affiliations

¹Xi’an Institute of Optics and Precision Mechanics， Chinese Academy of Sciences，Xi'an709， China

²Key Laboratory of Space Precision Measurement Technology， Chinese Academy of Sciences，Xi'an710119， China

³University of Chinese Academy of Sciences， Beijing100049， China

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Figures & Tables(29)

Fig. 1. Composition of laser diode array system

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Fig. 2. Schematic diagram of heat transfer process in phase-change thermal control system

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Fig. 3. Composition of copper heat sink coated with grapheme

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Fig. 4. Finite element model of phase-change thermal control system

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Fig. 5. Temperature distribution of LD and heat sink at 20 s

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Fig. 6. Temperature distribution of phase-change material at 20 s

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Fig. 7. Temperature distribution of LD and heat sink at 190 s

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Fig. 8. Temperature distribution of phase-change material at 190 s

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Fig. 9. Temperature distribution of LD and heat sink at 300 s

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Fig. 10. Temperature distribution of phase-change material at 300 s

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Fig. 11. Temperature distribution of LD and heat sink at 360 s

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Fig. 12. Temperature distribution of phase-change material at 360 s

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Fig. 13. Temperature distribution of LD and heat sink at 800 s

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Fig. 14. Temperature distribution of phase-change material at 800 s

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Fig. 15. Temperature distribution of LD and heat sink at 20 s

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Fig. 16. Temperature distribution of phase-change material at 20 s

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Fig. 17. Temperature distribution of LD and heat sink at 100 s

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Fig. 18. Temperature distribution of phase-change material at 100 s

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Fig. 19. Temperature distribution of LD and heat sink at 200 s

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Fig. 20. Temperature distribution of phase-change material at 200 s

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Fig. 21. Temperature curve of single LD component

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Fig. 22. Copper foam placed in red opper heat sink

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Fig. 23. Phase-change thermal control system in process

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Fig. 24. Experimental setup of phase-change thermal control system

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Table 2. Two different thermal control schemes
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Table 2. Two different thermal control schemes
方案关键技术
1 热沉内填充正十六烷相变材料，不填充泡沫铜
2 热沉内填充泡沫铜，泡沫铜间隙内充满正十六烷相变材料

Table 3. Each sensor temperature after laser working for 20 s

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Table 3. Each sensor temperature after laser working for 20 s

测点	仿真分析结果/℃	实验数据/℃	温度偏差/℃	分析误差/%
测温点1	27.88	27.29	0.59	2.1
测温点2	22.48	21.94	0.54	2.4
测温点3	18.16	17.69	0.47	2.6
测温点4	15.17	14.82	0.35	2.3
测温点5	15.01	14.69	0.32	2.1

Table 4. Each sensor temperature after laser working for 100 s

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Table 4. Each sensor temperature after laser working for 100 s

测点	仿真分析结果/℃	实验数据/℃	温度偏差/℃	分析误差/%
测温点1	33.38	32.61	0.77	2.3
测温点2	25.33	24.85	0.48	1.9
测温点3	19.76	19.25	0.51	2.6
测温点4	17.68	17.26	0.42	2.4
测温点5	15.05	14.67	0.38	2.5

Table 5. Each sensor temperature after laser working for 200 s

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Table 5. Each sensor temperature after laser working for 200 s

测点	仿真分析结果/℃	实验数据/℃	温度偏差/℃	分析误差/%
测温点1	28.62	27.93	0.69	2.4
测温点2	25.84	25.25	0.59	2.3
测温点3	22.29	21.73	0.56	2.5
测温点4	18.10	17.70	0.40	2.2
测温点5	15.03	14.67	0.36	2.4

Table 125. Phase-change materials and thermal characteristics in temperature range from -25 ℃~+55 ℃

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Table 125. Phase-change materials and thermal characteristics in temperature range from -25 ℃~+55 ℃

序号	材料	相变温度/℃	相变潜热/（kJ·kg^-1）
1	正十一烷（C₁₁H₂₄）	-25	141
2	正十二烷（C₁₂H₂₆）	-12	211
3	正十三烷（C₁₃H₂₈）	-6	155
4	水（H₂O）	0	333
5	正十四烷（C₁₄H₃₀）	5.5	225
6	正十五烷（C₁₅H₃₂）	10	247
7	醋酸（CH₃COOH）	17	187
8	正十六烷（C₁₆H₃₄）	18.1	236
9	正十七烷（C₁₇H₃₆）	21.7	213
10	正十八烷（C₁₈H₃₈）	28	244
11	正十九烷（C₁₉H₄₀）	32	187
12	正二十烷（C₂₀H₄₂）	38	248
13	正二十六烷（C₂₆H₅₄）	56	248

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Aihong SHANGGUAN, Haosu ZHANG, Yu CAO, Youjin XIE, Haiyang ZHANG, Yongfan JIANG, Xi WANG, Shengming SU. Phase change thermal control system for space high-power laser diode pumping source array[J]. Optics and Precision Engineering, 2024, 32(19): 2877

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