Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: Investigation of Heat Transfer in Evaporator of Microchannel Loop Heat Pipe J.

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Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: Investigation of Heat Transfer in Evaporator of Microchannel Loop Heat Pipe J. Heat Transfer. 2013;135(10): doi: / Assembly of evaporator: 1, base; 2, insulation plate; 3, heater; 4, microchannel plate; 5, wick; 6, perforated plate; 7, paper gasket; 8, compensation chamber; 9, vacuum rubber gasket; 10, cross-shaped part Figure Legend:

Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: Investigation of Heat Transfer in Evaporator of Microchannel Loop Heat Pipe J. Heat Transfer. 2013;135(10): doi: / The experimental scheme: V1, V2, valves; Tr, transformer; P, pressure transducer; W, power meter; TC1–TC4, thermocouples; ΔH, level difference; R, reservoir; B, buffer Figure Legend:

Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: Investigation of Heat Transfer in Evaporator of Microchannel Loop Heat Pipe J. Heat Transfer. 2013;135(10): doi: / Flat thermocouple TC3 on the top of the wick Figure Legend:

Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: Investigation of Heat Transfer in Evaporator of Microchannel Loop Heat Pipe J. Heat Transfer. 2013;135(10): doi: / Section of the microchannels (also see Table 2) Figure Legend:

Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: Investigation of Heat Transfer in Evaporator of Microchannel Loop Heat Pipe J. Heat Transfer. 2013;135(10): doi: / Heater surface temperature TC1 versus heat load for MC1 for different wick materials Figure Legend:

Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: Investigation of Heat Transfer in Evaporator of Microchannel Loop Heat Pipe J. Heat Transfer. 2013;135(10): doi: / Heater surface temperature TC1 versus heat load for MC2 for different wick materials Figure Legend:

Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: Investigation of Heat Transfer in Evaporator of Microchannel Loop Heat Pipe J. Heat Transfer. 2013;135(10): doi: / Heater surface temperature TC1 versus heat load for GF b = 0.4 for MC1 and MC2 Figure Legend:

Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: Investigation of Heat Transfer in Evaporator of Microchannel Loop Heat Pipe J. Heat Transfer. 2013;135(10): doi: / Heater surface temperature versus heat load for SS b = 2.5 for MC1 and MC2 Figure Legend:

Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: Investigation of Heat Transfer in Evaporator of Microchannel Loop Heat Pipe J. Heat Transfer. 2013;135(10): doi: / Temperature difference between heater surface and absorbing side of wick versus heat load for MC1 (ΔT = TC1 − TC3) Figure Legend:

Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: Investigation of Heat Transfer in Evaporator of Microchannel Loop Heat Pipe J. Heat Transfer. 2013;135(10): doi: / Start-up characteristics for MC1 at Q = 20 W Figure Legend:

Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: Investigation of Heat Transfer in Evaporator of Microchannel Loop Heat Pipe J. Heat Transfer. 2013;135(10): doi: / Deformational cutting method: 1, workpiece; 2, tool; 3, fins; 4, primary motion; 5, feed motion Figure Legend:

Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: Investigation of Heat Transfer in Evaporator of Microchannel Loop Heat Pipe J. Heat Transfer. 2013;135(10): doi: / Deformational cutting examples: (a), tube finning; (b), typical fin cross section; (c) pinned surface; (d) inside tube enhancement; (e) mesh of metal sheet; and (f) surface for pool boiling Figure Legend: