...your systems company

1. ...your systems company Trane Controls Presented to Herco Construction January 4, 2012

2. Trane Integrated Comfort Systems

3. Preview • ICS definition • Features and benefits • Sales and support expertise • Pre-engineered factory mounted controls • Systems solutions • Single source supplier • Capabilities • Equipment controls (factory/field mounted) • Building controls (Tracer Summit/Tracker) • User interfaces • Facility management, Remote monitoring • Energy Services, Tracer Summit, Tenant Services)

4. Integrated Comfort™ Systems (ICS) Comfort Systems Integrated Trane equipment, controls, and systems knowledge, together with local service and parts form a connected whole; providing maximum comfort and energy management solutions for all facility types. Controllers and equipment are designed and built as a whole. Occupants are physically satisfied; owner, engineer, and contractor needs are met.

5. Technically trained in HVAC systems Access to engineering tools Applications expertise Single source Pre-engineered, factory mounted Unit Control Modules (UCMs) System integration Better solutions No finger pointing, problems resolved faster Reduced risk HVAC equipment operates reliably and safely Cost effective Quick startup Single seat operation Integrated Comfort Solutions (ICS) Features Benefits

6. ICSThe Foundation • Trane is a major equipment andmajor controls company • Trane provides HVAC equipment with factory mounted controls and factory commissioning • Reliable and consistent installations • Faster installation and startup time • Trane controllers fit well in existing facilities on both Trane HVAC units or other vendors’ equipment • Trane controllers use open standard protocols that promote system integration with non-Trane equipment and building automation devices

7. ICS ExampleIAQ Solution = • Chiller with factory mounted control panel • AHU with factory commissioned controls and Traq dampers to monitor/control OA flow • VAV boxes with factory commissioned controls capable of measuring flow • Tracer Summit performing ASHRAE equation 6.1 and dynamically resetting OA minimum flow • Applications expertise to tune system for specific jobs

8. Trane Equipment • Air Handling Units • Chillers • Fan Coils • Rooftop Units • Unit Ventilators • VAV • Water Source Heat Pumps

9. TraneControl Products • Provide Comfort • Energy Management • Extend Life of Equipment • Easy Troubleshooting • Factory or Field installed • Open System Communication • Web Access • Wireless

10. Trane Service • Mechanical maintenance • Automation maintenance • Maintenance and operation training • Extended warranty • HVAC system upgrades • Facility management - Temporary cooling

11. TraneAdditional Services • National Environmental Balancing Bureau • Testing, Adjusting, and Balancing • Building commissioning • HVAC • Controls • Indoor Air Quality Association • Certified Indoor Environmentalist • In-house turn-key service • HVAC • Mechanical • Controls

12. TraneParts • OEM replacement parts • OEM compressors • HVAC wholesale parts and supplies • HVAC accessories • Local parts centers

13. Trane Training • State of the art training facility in St. Paul, Minnesota • Regional training • Contract seminars

14. Trane Application Expert • Building and system load analysis • HVAC system design • Chiller plant design • Air distribution and ventilation • Building systems controls • HVAC system code compliance • Pre-engineered controls algorithms

15. Tracer™ Architecture Tracer ES Tracer Summit Firewall BACnet Ethernet LAN Tracer SC Building Control BuildingControl Internet/Intranet ProgrammableController AdaptiView & UC 800 ProgrammableController Field-applied Controller Air Handlers Chillers VAV

16. HVAC Equipment Factory Control Options * Terminal Strip – Field Mount ** Phase 1 – BC in 2H2011 Broad coverage for both LonTalk and BACnet

17. HVAC Equipment Field Control Options

18. BACnet LonTalk Comm 3 Comm 4 LonTalk Integration Capabilities Tracer ES BACnet/IP JENEsysIntegration ALC Tracer SC JCI Modbus Siemens JCI Tracer BCU Honeywell Lighting Panel Lighting • Non-TraneLonTalk Devices • Non-TraneBACnet/MSTP Devices Security Other • Non-Trane BACnet/IP • Legacy Trane Protocols • Non-Trane LonTalk Devices • Non-Trane Protocols Other than BACnet Every job requires some level of integration… …and Trane has solutions for each level

19. Using Data to Improve Service Maintenance and Sustainability • “Dashboards” in Tracer • Logging of key data points • Alarm limits • Analytics • Recognize and predict issues • Goal: Better productivity • Serve more customers with same staff • Compliance with reporting standards

20. Chiller Plant Dashboard Details System and Chiller Status Pump Status System Efficiency 42.1 98.0 57.3 84.0 Chilled Water Temps System Load Tower Water Temps Pump Flow Daily Average Metrics Pump Pressure

21. Chiller Plant Control

22. Tracer Summit Chiller Plant Control • Standard Summit Application Program • Flexible to accommodate a variety of plant designs • Feature rich supports control strategies • Easy to understand user interface

23. The Value in Chiller Plant Control

24. Pre-engineered Features • Load determination • Capacity matching • Rotation • Chiller setpoint control • Failure recovery • User interface Reliable chilled water flow

25. Load Determination (when to add or subtract a chiller) • Match plant capacity to building load • Run as few chillers as possible at optimal efficiency Matched Capacity => Reduce Operating Costs

26. Load Determination • Constant or variable flow systems • Add logic • Based on Supply Temp and Chilled Water Setpoint • Operator editable delay times and deadbands • Subtract logic • Based on Supply/Return Water Temps or Bypass Flow (for large systems) and Chiller Capacities • Operator editable delay times and deadbands • Custom • Adaptable to suit customer specific algorithm requirements Reduce Operating Costs

27. Add Example Add timer starts Chiller is added 47.5° 2.5° Add temp deadband Add timer reset 45° Add delay time (10 minutes) Chilled water supply temp System supply setpoint Prevents Unnecessary Cycling

28. Subtract Example (Temperature) Chilled water delta temp 10° Subtract timer starts Chiller is subtracted Design delta temp 6.2° Subtract timer reset Subtract delta temp 0° Subtract delay time (20 minutes) Prevents Unnecessary Cycling

29. Subtract Example (Flow) Subtract flow threshold Subtract timer starts Chiller is subtracted 1080 GPM 900 GPM Subtract timer reset Chiller design flow capacity Subtract delay time (20 minutes) Reduce Operating Costs

30. C h i l l e r # 2 C h i l l e r # 1 Plant Layout FlexibilityConstant Flow CW Return Temp CW Supply Temp

31. C h i l l e r # 2 C h i l l e r # 1 Plant Layout FlexibilityVariable Flow - Decoupled Production Pressure Differential Controller or Transmitter Air Handling Units Bypass Line Distribution Variable-Speed Drive Control Valves

32. Plant Layout FlexibilityVariable Primary Flow Variable-Speed Drive Flow Meter Production Air Handling Units Bypass Line Distribution Control Valves Reduce Operating Costs

33. Rotation (which chiller leads) • Flexible for System Needs • Selected chiller types (Base / Normal) • Calendar based • Other system inputs • Run time based • Manual operator decision Reliable Chilled Water

34. Current Limit Setpoint Control • Soft Start • Prevents excess capacity on “warm” starts • Pull down the system smoothly • Unload before start • Ride out flow transients during pump control • Variable flow / multiple pump systems • Low supply water temperatures Reduce Operating Costs

35. Soft Start Example System chilled water supply temperature Chiller plant enabled in the soft start mode 65° Chiller plant transitions from soft startmode to normal mode 20° Soft start deadband 47.5° 2.5° Add temp deadband System supply setpoint 45° Reduce Operating Costs

36. Failure Recovery keep chilled water flowing • Follow the standard sequence • Multiple failure inputs • Chiller level • System level • Editable time delays Reliable Chilled Water

37. Diagnostics and Reports • Standard status reports • Diagnostic reporting and message routing Reduced Maintenance Cost

38. User Interface • Easy to understand • Textual explanations • Graphical illustrations • Intuitive selections • Pre-engineered Reliable chilled water flow

39. Reliable chilled water flow

40. Take-aways • Standard Application Program • Flexible to accommodate a variety of plant designs • Feature rich supports control strategies • Easy to understand user interface

41. Take-aways

42. HVAC System Optimization The meter is on the Park! Reduce Operating Costs

43. Optimization - the meter is on the Park! • Chiller selection • Tower control • Distribution pumping static pressure control • System soft loading • System setpoint selection • Humidity / comfort compensation Reduce Operating Costs

44. Optimization - Chiller - Tower Control • Low limit • Protect the tower & chiller • Chiller - tower optimization • Real Time Calculations? • Move less air? • Pump less water? Reduce Operating Costs

45. Chiller - Tower Control • Trane chillers have a minimum delta P between condensation and evaporation, 5psi within 15 minutes of start-up. Reduce Operating Costs

46. Chiller - Tower Control what is optimal? • 85°F setpoint minimizes tower energy use • 60°F setpoint minimizes chiller energy use • Wb + 5°F optimizes nothing • We use real time optimization Reduce Operating Costs

47. Chiller - Tower Control what is optimal? 350 300 Chiller kW 250 Tower kW 200 Total kW kW 150 100 50 0 72 73 74 75 76 77 78 79 80 81 82 83 84 85 Tower Supply Temp Reduce Operating Costs

48. Distribution Pumping static pressure control • Normally controlled based on system supply / return pressure difference. • Highest system pressure closest to pumps • Highest system pressure at part load • 2-Way valve control stability • Large chiller plant syndrome (leaky valves) Reduce Operating Costs

49. Distribution Pumping critical valve pressure control • Critical valve reset • Just like VAV Critical Zone Reset but on the water side • Benefits • Reduced pump energy • Better coil control • Extend pump life • Better acoustics Pressure Differential Controller or Transmitter Air Handling Units Control Valves Reduce Operating Costs

50. Distribution Pumping critical valve pressure control • Requires fully integrated systems • Execution • Monitor critical AHU valve position • Reset distribution static pressure setpoint • Any valve > 90 % open increase setpoint • All valves < 80 % open decrease setpoint Reduce Operating Costs