MULTI-SCALE HEAT PIPE NETWORK FOR ACTIVE ANTENNAS (ARTES AT 4D.063)
5, July 2019

ESA Open Invitation to Tender AO9730
Open Date: 26/06/2019
Closing Date: 12/09/2019 13:00:00

Status: ISSUED
Reference Nr.: 19.1TT.15
Prog. Ref.: CC for Advanced Tech
Budget Ref.: E/0505-01C – CC for Advanced Tech
Special Prov.: BE+DK+FR+DE+IT+NL+ES+SE+CH+GB+IE+AT+NO+FI+PT+GR+LU+CZ+RO+CA+HU
Tender Type: C
Price Range: > 500 KEURO
Products: Satellites & Probes / Thermal Control / Heat Transport / Other HPs
Technology Domains: Thermal / Heat Transport Technology / Heat Pipes
Establishment: ESTEC
Directorate: Directorate Telecom & Integrated Applica
Department: Telecom Technologies,Product&Systems Dep
Division: Technologies and Products Division
Contract Officer: Glandieres, Florence Odette Jeanne
Industrial Policy Measure: N/A – Not apply
Last Update Date: 02/07/2019
Update Reason: Loaded a new Clarification(English version)

The objective of the activity is to develop an interconnected heat pipe network with pipes of adapted sizes, heat transport capacity and heat flux capability to reduce thermal gradients and thermal interfaces. In order to evaluate and demonstrate the performance improvements a scaled engineering model of a heat pipe network, as needed for active antenna array applications, shall bedesigned, manufactured and tested.Targeted Improvements: Enabling the thermal management of large active transmit antenna, e.g. direct radiating antenna. Description: The use of active antennas is increasing, as well as their complexity. Thermal management of anactive antenna is problematic since the antenna generates large amount of heat in very localised areas. Complex active thermal solutions with a mechanical pump system could be a solution. However, these systems are very expensive, massive, and complex. A complex passive two-phase structure could be more suited for this type of application. Conventional heat pipe networks use two types of heatpipes. Longheat pipes distribute the heat along the length of the panel. Crossing heat pipes, mounted on top of the long heat pipes, uniformlyspread the temperature between the long heat pipes. Unfortunately, this mounting technique creates large temperature differences between heat pipes due to the various thermal interfaces. In order to reduce the thermal gradients, a 2D two-phase structure can be constructed to eliminate the thermal interfaces. Furthermore, an active antenna may have areas that are difficult to access and to thermally connect. Hence in this activity, smaller and complex heat pipe sections will be investigated to transport heat from the active sources to a larger collecting heat pipe. The collecting heat pipe will transport heat directly to a radiator, or it will be used as interface to a loop heat pipe, which will collect the waste heat and transport it to the radiators. A scaled engineering model ofa multi scale heat pipe network will be studied, designed, manufactured and tested, where smaller diameter heat pipes collect the waste heat from components and transport it to a larger collecting two-phase manifold that would transport it to the radiator.

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