CMS CO 2 Cooling System Design Elements Erik Voirin Mark Adamowski Erik VoirinCMS Pixel Mechanical...
-
Upload
addison-postle -
Category
Documents
-
view
222 -
download
0
Transcript of CMS CO 2 Cooling System Design Elements Erik Voirin Mark Adamowski Erik VoirinCMS Pixel Mechanical...
CMS CO2 Cooling SystemDesign Elements
Erik VoirinMark Adamowski
Erik Voirin CMS Pixel Mechanical Upgrade 1
Topics
• Design Parameters• System Overview• Specific Equipment Info • Control System Info• Safety• Commissioning Procedure
Erik Voirin CMS Pixel Mechanical Upgrade 2
Design Parameters
• Deliver Saturated or slightly sub cooled CO2 to the detector• Ability to handle 15-60 psi detector pressure drops• Ability to handle any vapor quality at the detector outlet• Capacity to handle up to 5 kW heat load• Ability to provide liquid CO2 at -30 °C to +15 °C
• CO2 quality at detector outlet of 25%, maximum
• CO2 side, design pressure of 1200 psig
Erik Voirin CMS Pixel Mechanical Upgrade 3
Commercial Refrigeration Units• Three Mechanical refrigeration chillers will be used to cool the CO2
reservoir. These are commercial, off the shelf units, capable of providing refrigerant to the CO2 condenser at -40 °C. Use of commercial packages provides proven refrigeration technology at reasonable cost using R404A.
Erik Voirin CMS Pixel Mechanical Upgrade 7
Cooling System Overview
Erik Voirin CMS Pixel Mechanical Upgrade 8
• Versatile System Control:– Seven steps of cooling capacity, with trim heater to trim final cooling
capacity from 0 to up to 20,000 Watts from -40C to 20C
System Cooling Capacity
Erik Voirin CMS Pixel Mechanical Upgrade 9
-50 -40 -30 -20 -10 0 10 20 300
5,000
10,000
15,000
20,000
25,000
CO2 Cooling System Component Capacities
Total Cooling Capacity
Chiller 3
Chiller 2
Chiller 1
Heat Leak
Temperature (oC)
Ener
gy T
rans
fer R
ate
(Watt
s)
Design Elements
• Closed CO2 Cooling Loop• Design pressure of 1200 psig
– At 30 °C the CO2 equilibrium pressure is 1031.6 psig.
• Vessels are ASME rated at 1200 psi, tested at 1560 psi• Flanges are class 600, rated at 1480 psi• Pump housing tested at 1827 psi• Valves/Unions/Fittings rated minimum of 1480 psi • ½” to 1-½” Sch 10 stainless steel rated minimum of 1916 psi
Erik Voirin CMS Pixel Mechanical Upgrade 10
Storage tank Condensers
Trim Heater
Variable Speed Pump -------> to detector
Erik Voirin CMS Pixel Mechanical Upgrade 11
Storage Tank
Erik Voirin CMS Pixel Mechanical Upgrade 12
• ASME Vessel - 12” schedule 80s stainless seamless pipe• Will be filled with up to 300 lbs CO2
• Three condensers mounted on flanged ends
CO2 Condenser• Heat will be removed from the CO2 tank by CO2 condensers. The CO2
wetted components will be stainless steel for corrosion resistance. Corrosion would produce exchanger fouling and reduce condenser capacity.
• The cooling fluid to the CO2 condenser will be refrigerant R-404A.
Erik Voirin CMS Pixel Mechanical Upgrade 13
Design Elements• Electric CO2 Trim Heater• An electric heater will be used as a trim control in
holding a particular CO2 coolant temperature.– 0-6000 Watt capacity electric resistance heater. – Bayonet style.
• Housed in ASME vessel– Coaxial 2” in 4” pipe– Heater housed inside 2” pipe– Heat Flux from 0 – 18500 W/m2
Erik Voirin CMS Pixel Mechanical Upgrade 14
Pump• Warrender High Pressure WMDAT6-2S
– Alloy Dual Stage Regenerative Turbine Mag-Drive Pump – Flow up to 32 gpm (2250 grams/sec )– Duty Point is 11.2 gpm @ 64 psi (788 grams/sec at 440kPa)– Variable speed – 3 HP motor (2240 Watts)– Hydrostatically Pressure Tested at 1827 psi (12.6MPa)
Erik Voirin CMS Pixel Mechanical Upgrade 15
Phase Separator• Quality into the phase separator would be at a maximum of 5%• Passive liquid full design with control valve on mixture outlet• ASME vessel rated to 1200 psi• Mixture outlet flow controlled by manual V-ball valve
Erik Voirin CMS Pixel Mechanical Upgrade 17
CO2 Drier
• Ice and/or carbonic acid will form if the water concentration reaches a level above the solubility limit in liquid CO2. Ice can plug small channels and carbonic acid is corrosive. Controlling the water content in the CO2 is critical.
• Original plan was to use a desiccant filter, however 1200 psi rated filter housing are unavailable.– Desiccant granule bed with granules held in class 600 strainer
Erik Voirin CMS Pixel Mechanical Upgrade 18
Additional Experiment Flanged connections
Pressure Differential Transmitter Test Heater
Erik Voirin CMS Pixel Mechanical Upgrade 19
Detector Test Stand• Detector Test Stand – Identical to Trim Heater• An electric heater will be used as a detector test
stand for simulating detector heat load. – 0-6000 Watt capacity electric resistance heater. – Bayonet style. – Controllable manually from PLC
• Housed in ASME vessel– Coaxial 2” in 4” pipe– Heater housed inside 2” pipe– Heat Flux from 0 – 18500 W/m2
Erik Voirin CMS Pixel Mechanical Upgrade 20
Detector Test Stand
Erik Voirin CMS Pixel Mechanical Upgrade 21
• Flow estimates through actual detector tubes at a set pressure drop 0.15 MPa have been calculated.
• Test stand will have an orifice placed at the opening to replicate the pressure drop of 0.15 MPa (21.75 psi) at the calculated total detector flow rate of 138 grams/sec.
Control System• Beckhoff PLC• Touch Screen Controller• Control and data retrieval via network
Erik Voirin CMS Pixel Mechanical Upgrade 22
CO2 Flow Control
• The flow of CO2 to the detector will be measured after the phase separator. • A differential pressure transmitter will be in place across the detector test
stand .
• The CO2 pump will be controlled by motor on a speed controller (variable frequency drive) controlled by either:– Flow rate of CO2 after phase separator– Differential pressure across detector test stand
Erik Voirin CMS Pixel Mechanical Upgrade 23
CO2 Temperature Control
• The pressure of the CO2 supply tank can be used as an indication of CO2 temperature through the saturation pressure / temperature relationship for CO2. The CO2 tank pressure can then be used as the control to turn the refrigeration ON/OFF to maintain the CO2 temperature (pressure).– The storage tank is equipped with a temperature element as well for comparing the
pressure measurement.
• Any value down to -40C may be input through the touch screen.– The PLC will cycle the chilling units and Trim heater to achieve desired temperature
• Response time = roughly 5 minutes for 0C to -20C change • Response time = roughly 17 minutes for -20C to 0C change
Erik Voirin CMS Pixel Mechanical Upgrade 24
Safety
• Pressure Vessel notes for four ASME vessels are out for review
• CO2 Hazard Analysis out for review– Per FESHM 5064 procedures
• Piping Notes being prepared will comply with:– Warning signs / tags per FESHM5051– Per FESHM 5051 and ASME 31.3 Code for process piping – Welder qualified under ASME Section IX
Erik Voirin CMS Pixel Mechanical Upgrade 25
Safety - Piping• Piping Notes being prepared – solid models of each pipe section is
constructed and analyzed in Ansys under conditions:– 1200 psi internal pressure + weight of pipe – Drop in temperature from 71.6F to -110F + weight of pipe– Minimum -40C operating temperature and internal saturation
pressure of 131psi
Erik Voirin CMS Pixel Mechanical Upgrade 26
Safety – CO2 Hazard• CO2 Hazard – Occurs before ODH• 5000 ppm/0.5% - TWA (Time Weighted Average, 10 hr) • 30,000 ppm/3.0% - STEL (Short Term Exposure Limit)• 40,000 ppm/4.0% - IDLH (Immediately Dangerous to Life and Health)• 100,000 ppm/10%, produces unconsciousness in a matter of minutes.
Erik Voirin CMS Pixel Mechanical Upgrade 27
Safety – CO2 Hazard• CMS Document 2966 by Erik Voirin covers CO2 hazard – 32 pages• Ventilation Fans• CO2 Monitors and Warning Systems - (In both lab C and clean room)• Air flow Monitors – (On ventilation fans of both rooms)• Actuated Isolation Valve
Erik Voirin CMS Pixel Mechanical Upgrade 28
Component Percentage of Total Risk (Cleanroom)
Safety – CO2 HazardProactive Steps aimed at personnel safety:• Regarding the Clean Room
– Trouble alarm at 0.3% CO2
– Trouble alarm if the fresh air makeup is off– Close isolation valve and stop pump at 0.5% CO2
– Evacuate at 2% CO2 concentration
• Regarding the Lab C hallway
– Trouble alarm at 0.3% CO2
– Trouble alarm if local exhaust fan fails regular test– Start exhaust fan at 0.5% CO2
– Evacuate at 2% CO2 concentration
Erik Voirin CMS Pixel Mechanical Upgrade 29
Commissioning Plan
• Pressure Transmitters – Check each instrument is wired to correct input by directly
applying pressure read by gauge to specific transmitters, watch touch screen for proper location
• Temperature Elements – Direct immersion into water baths of know temperatures,
check for correct wiring and readout.• Air Flow Monitors– Check for proper operation by removing from air flow
path, make sure correct alarms signals are sent.
Erik Voirin CMS Pixel Mechanical Upgrade 30
Commissioning Plan
• CO2 Monitors
– Test with known CO2 composition air mixtures– Check trouble signals sent through FIRUS– Check evacuation horns and light activate as set– Check activation of Lab C exhaust fan
• Actuated Valve– Check for manual activated closure– Test automated closure by tripping CO2 monitor
Erik Voirin CMS Pixel Mechanical Upgrade 31
Commissioning Plan
• Chillers– Performance Test: activate each chiller with closed storage
tank and observe dT/dt and dP/dt.• Trim Heater– Equipped with power monitor. Measure units output vs.
input. Compare to claimed 6000 Watt output rating.• Pump– Equipped with pressure differential transmitter. Piping has
flow meter. Test output of pump at various flow rates and differential pressures. Compare to claimed capabilities.
Erik Voirin CMS Pixel Mechanical Upgrade 32
Commissioning Plan
• Test Heater– Equipped with power monitor. Measure units output vs.
input. Compare to claimed 6000 Watt output rating.
• Performance Tests Using Test Heater– Check systems cooling capacity of system up to 6000 Watts
from -40C to 15C. – Record all data from instruments
Erik Voirin CMS Pixel Mechanical Upgrade 33
Design Parameters Met
• Deliver Saturated or slightly sub cooled CO2 to the detector
• Ability to handle 15-60 psi detector pressure drops
• Ability to handle any vapor quality at the detector outlet
• Capacity to handle up to 5 kW heat load
• Ability to provide liquid CO2 at -30 °C to +15 °C
• CO2 quality at detector outlet of 25%, maximum
• CO2 side, design pressure of 1200 psig
Erik Voirin CMS Pixel Mechanical Upgrade 34