Presentation is loading. Please wait.

Presentation is loading. Please wait.

E. Da Riva/M. Gomez Marzoa1 CFD Weekly Meeting - 3rd June 2012 ITS Upgrade: Cooling progress Enrico DA RIVA (EN-CV-PJ) Manuel GOMEZ MARZOA (EN-CV-PJ) 3.

Published byMillicent Stephanie Hines Modified over 8 years ago

Similar presentations

Presentation on theme: "E. Da Riva/M. Gomez Marzoa1 CFD Weekly Meeting - 3rd June 2012 ITS Upgrade: Cooling progress Enrico DA RIVA (EN-CV-PJ) Manuel GOMEZ MARZOA (EN-CV-PJ) 3."— Presentation transcript:

1 E. Da Riva/M. Gomez Marzoa1 CFD Weekly Meeting - 3rd June 2012 ITS Upgrade: Cooling progress Enrico DA RIVA (EN-CV-PJ) Manuel GOMEZ MARZOA (EN-CV-PJ) 3 rd June 2012

2 E. Da Riva/M. Gomez Marzoa2 CFD Weekly Meeting - 3rd June 2012 Light structure thermal studies  Two configurations concerning the wrapping of the Carbon Fiber around the pipes were built: 1.A low-pitch configuration, where a carbon fiber strip was set along the pipes to give mechanical strength (also helps from the thermal point of view)  The CF is wrapped over the pipe and the CF strip with a ~40 deg angle. 2.A high-pitch configuration, with the Cfwarpped over the pipe (with no extra CF strip within).  CF wrapped over the pipe with a ~24 deg angle. Overview

3 E. Da Riva/M. Gomez Marzoa3 CFD Weekly Meeting - 3rd June 2012 Light structure thermal studies  For each geometrical configuration, thermal studies were conducted for two cases: A.Silicon glued directly to the CF conforming the mechanical structure. B.A high-conductivity Thornel K1100 carbon fiber plate is glued to the mechanical structure and the silicon is glued to the plate.  Materials:  Carbon Fiber:  K13D-2U CF: k Fiber = 450 W m -1 K -1 ; k Transv = 1.2 W m -1 K -1  Plate (second case): Thornel K1100 CF: k Fiber = 550 W m -1 K -1 ; k Transv = 1.2 W m -1 K -1  Glue: k = 1 W m -1 K -1  Pipe (Kapton): k= 0.12 W m -1 K -1  Silicon: k = 150 W m -1 K -1 Overview

4 E. Da Riva/M. Gomez Marzoa4 CFD Weekly Meeting - 3rd June 2012 Light structure thermal studies Boundary conditions  Imposed heat transfer coefficient in the cooling pipe, supposing water flowing inside at 0.5 m s -1 (laminar flow) and 15 °C.  Considering, for the stave:  Correlations predict a HTC of 1646 W m -2 K -1  Rest of surfaces: adiabatic/connected  Symmetry considered d_i [mm]m [g/s]m [kg/s]L [m] Vel [m/s]ΔT in-outRe Δp lam [bar] Δp Pethukov [bar] HTC (lam) f LAMA pipe ΔT wall- water (LAM) 1.4320.400.000400.5000.2511.93140.020.0116460.2040.002249385.4 1.4320.800.000800.5000.505.96290.04 16460.1020.002249385.4 1.4321.610.001610.5001.003.012580.090.1116460.0510.002249385.4 1.4322.410.002410.5001.502.018870.130.2116460.0340.002249385.4 1.4323.220.003220.5002.001.525150.180.3416460.0250.002249385.4 q0.5W cm -2 w16mm L250mm Q= 20 W

5 E. Da Riva/M. Gomez Marzoa5 CFD Weekly Meeting - 3rd June 2012 Light structure thermal studies Low-pitch cases configuration (1A and 1B) CF wrapping Silicon Thornel Plate (case B) Glue CF strip

6 E. Da Riva/M. Gomez Marzoa6 CFD Weekly Meeting - 3rd June 2012 1. Low-pitch configuration A. No plate case: temperature map [°C] q’= 0.3 W cm -2

7 E. Da Riva/M. Gomez Marzoa7 CFD Weekly Meeting - 3rd June 2012 1. Low-pitch configuration A. No plate case: temperature map [°C] q’= 0.3 W cm -2  Hotspot in the silicon

8 E. Da Riva/M. Gomez Marzoa8 CFD Weekly Meeting - 3rd June 2012 B. Thornel K1100 plate case: temperature map [°C] q’= 0.3 W cm -2 1. Low-pitch configuration

9 E. Da Riva/M. Gomez Marzoa9 CFD Weekly Meeting - 3rd June 2012 B. Thornel K1100 plate case: temperature map [°C] q’= 0.3 W cm -2 1. Low-pitch configuration  Hotspot in the silicon

10 E. Da Riva/M. Gomez Marzoa10 CFD Weekly Meeting - 3rd June 2012 High-pitch cases configuration (2A and 2B) 2. High-pitch configuration

11 E. Da Riva/M. Gomez Marzoa11 CFD Weekly Meeting - 3rd June 2012 A. No plate case: temperature map [°C] q’= 0.3 W cm -2 2. High-pitch configuration

12 E. Da Riva/M. Gomez Marzoa12 CFD Weekly Meeting - 3rd June 2012 A. No plate case: temperature map [°C] q’= 0.3 W cm -2  Hotspot in the silicon 2. High-pitch configuration

13 E. Da Riva/M. Gomez Marzoa13 CFD Weekly Meeting - 3rd June 2012 B. Thornel K1100 plate case: temperature map [°C] q’= 0.3 W cm -2 2. High-pitch configuration

14 E. Da Riva/M. Gomez Marzoa14 CFD Weekly Meeting - 3rd June 2012 B. Thornel K1100 plate case: temperature map [°C] q’= 0.3 W cm -2  Hotspot in the silicon 2. High-pitch configuration

15 E. Da Riva/M. Gomez Marzoa15 CFD Weekly Meeting - 3rd June 2012 Conclusions  The CF strip, oriented with the fiber along the Kapton pipe, provides an overall higher thermal performance, as a result of maximizing the pipe-wrapping fiber contact area.  Silicon maximum temperature is lower  Profit of a bigger surface of the pipe.  Including the Thornel K1100 CF plate in between the wrapping fiber abd the silicon helps to spread the heat and achieve a better temperature uniformity in the silicon detector.

16 E. Da Riva/M. Gomez Marzoa16 CFD Weekly Meeting - 3rd June 2012 ITS Upgrade: Cooling progress Enrico DA RIVA (EN-CV-PJ) Manuel GOMEZ MARZOA (EN-CV-PJ) 3 rd June 2012

Download ppt "E. Da Riva/M. Gomez Marzoa1 CFD Weekly Meeting - 3rd June 2012 ITS Upgrade: Cooling progress Enrico DA RIVA (EN-CV-PJ) Manuel GOMEZ MARZOA (EN-CV-PJ) 3."

Similar presentations

New Plate Baffle Water Flow. Quick Simulation Use triangular prism as rough estimate of a vane Uniform heat flux on each surface –600 kWm -2 on end face.

New Plate Baffle Water Flow. Quick Simulation Use triangular prism as rough estimate of a vane Uniform heat flux on each surface –600 kWm -2 on end face.
122 Nov. 2011 GTK Microchannel Cooling Hydraulic simulation with Rectangular Manifold Enrico Da Riva, Vinod Rao CERN (EN/CV/DC) 22 th Nov 2011 E. Da Riva,

122 Nov GTK Microchannel Cooling Hydraulic simulation with Rectangular Manifold Enrico Da Riva, Vinod Rao CERN (EN/CV/DC) 22 th Nov 2011 E. Da Riva,
Estimation of Convective Heat Transfer Coefficient

Estimation of Convective Heat Transfer Coefficient
CFD Simulations of a Novel “Squirt-Nozzle and Water Bath” Cooling System for the RFQ.

CFD Simulations of a Novel “Squirt-Nozzle and Water Bath” Cooling System for the RFQ.
Radiant Home Heating Systems Dan Korth Corey Christensen.

Radiant Home Heating Systems Dan Korth Corey Christensen.
Two-Phase Heat Transfer Laboratory Texas A&M University Experimental Study of Condensation on Micro Grooved Plates R. Barron-jimenez, H. Y. Hu, G. P. Peterson.

Two-Phase Heat Transfer Laboratory Texas A&M University Experimental Study of Condensation on Micro Grooved Plates R. Barron-jimenez, H. Y. Hu, G. P. Peterson.
Why Laminar Flow in Narrow Channels (Heat Transfer Analysis)

Why Laminar Flow in Narrow Channels (Heat Transfer Analysis)
Heat exchangers. Device that facilitate the exchange of heat between fluids that are at different temperatures while keeping them from mixing with each.

Heat exchangers. Device that facilitate the exchange of heat between fluids that are at different temperatures while keeping them from mixing with each.
Internal Flow Convection -constant surface temperature case Another commonly encountered internal convection condition is when the surface temperature.

Internal Flow Convection -constant surface temperature case Another commonly encountered internal convection condition is when the surface temperature.
1 Recent Progress in Helium-Cooled Ceramic Breeder (HCCB) Blanket Module R&D and Design Analysis Ying, Alice With contributions from M. Narula, H. Zhang,

1 Recent Progress in Helium-Cooled Ceramic Breeder (HCCB) Blanket Module R&D and Design Analysis Ying, Alice With contributions from M. Narula, H. Zhang,
Www.orcnext.be ORCNext – WP4 Development of supercritical technologies Huisseune Henk 1.

ORCNext – WP4 Development of supercritical technologies Huisseune Henk 1.
M. Yoda, S. I. Abdel-Khalik, D. L. Sadowski and M. D. Hageman Woodruff School of Mechanical Engineering Update on Thermal Performance of the Gas- Cooled.

M. Yoda, S. I. Abdel-Khalik, D. L. Sadowski and M. D. Hageman Woodruff School of Mechanical Engineering Update on Thermal Performance of the Gas- Cooled.
1 Calorimeter Thermal Analysis with Increased Heat Loads September 28, 2009.

1 Calorimeter Thermal Analysis with Increased Heat Loads September 28, 2009.
Thomas Jefferson National Accelerator Facility Page 1 IPR October 18-20 - 2011 Independent Project Review of 12 GeV Upgrade Jefferson Lab October 18-20,

Thomas Jefferson National Accelerator Facility Page 1 IPR October Independent Project Review of 12 GeV Upgrade Jefferson Lab October 18-20,
Calorimeter Analysis Tasks, July 2014 Revision B January 22, 2015.

Calorimeter Analysis Tasks, July 2014 Revision B January 22, 2015.
1 VI Single-wall Beam Pipe tests M.OlceseJ.Thadome (with the help of beam pipe group and Michel Bosteels’ cooling group) TMB July 18th 2002.

1 VI Single-wall Beam Pipe tests M.OlceseJ.Thadome (with the help of beam pipe group and Michel Bosteels’ cooling group) TMB July 18th 2002.
E. Da Riva/M. Gomez Marzoa1 WG4 Meeting - 18th July 2012 Ultra-light carbon fiber structures: first test campaign Enrico DA RIVA (EN-CV-PJ) Manuel GOMEZ.

E. Da Riva/M. Gomez Marzoa1 WG4 Meeting - 18th July 2012 Ultra-light carbon fiber structures: first test campaign Enrico DA RIVA (EN-CV-PJ) Manuel GOMEZ.
Bryan S. Wang 3S103 Chew Hanson 3S109 Lim Han Xin 3S119.

Bryan S. Wang 3S103 Chew Hanson 3S109 Lim Han Xin 3S119.
20 th June 20111Enrico Da Riva, V. Rao Project Request and Geometry constraints June 20 th 2011 Bdg 298 Enrico Da Riva,Vinod Singh Rao CFD-2011-03-GTK.

20 th June 20111Enrico Da Riva, V. Rao Project Request and Geometry constraints June 20 th 2011 Bdg 298 Enrico Da Riva,Vinod Singh Rao CFD GTK.
VG1 i T i March 9, 2006 W. O. Miller ATLAS Silicon Tracker Upgrade Upgrade Stave Study Topics Current Analysis Tasks –Stave Stiffness, ability to resist.

VG1 i T i March 9, 2006 W. O. Miller ATLAS Silicon Tracker Upgrade Upgrade Stave Study Topics Current Analysis Tasks –Stave Stiffness, ability to resist.

Similar presentations

Ads by Google