Identify and Quantify Mission-Critical Factors (How to Perform a Critical Audit) Neil Maldeis, Energy Solutions Engineering Leader, Trane

Transcription

1 Identify and Quantify Mission-Critical Factors (How to Perform a Critical Audit) Neil Maldeis, Energy Solutions Engineering Leader, Trane

2 Learning Objectives Benefits of a critical system audit How to identify and quantify mission-critical factors How to begin the journey to create a high performance building with a critical system audit Tips to optimize your critical system audit

3 Benefits of a Critical System Audit Providing a safer, healthier, more comfortable environment Operating reliably with minimum unscheduled downtime and fast recovery Maintaining performance within acceptable tolerances throughout their lifespan Enhancing organization and occupant performance, retaining/increasing in value and adding luster to the organization s brand and reputation

4 Steps for Performing a Critical System Audit Assemble the right team of participants Define program objectives Understand mission-critical factors (identify and quantify) Gather relevant data and make comparisons Determine strategies and actions to meet objectives Measure results and determine program effectiveness

5 Conduct a Critical Building Systems Audit Assemble a team Define program objectives Reduce operating costs Increase operational performance Improve occupant comfort and safety Enhance employee productivity Achieve environmental certification Build an energy management team with buy-in from key internal stakeholders, including owners, managers and department heads

6 Identify and Quantify Mission- Critical Factors Consider the cost of a building failure on operations and stakeholders

7 Identify and Quantify Mission- Critical Factors, cont d. Example: School building Every building has unique factors to consider

8 Gather Relevant Data and Make Comparisons Determine the current level of performance of key building systems: HVAC, lighting, water, electrical, etc. Gather 3-5 years of actual energy cost data Use actual data to estimate annual cost of planned and unplanned maintenance Compare actual costs against industry averages and best-in-class performance

9 Gather Relevant Data and Make Comparisons, cont d

10 Gather Relevant Data and Make Comparisons, cont d Critical Area Equipment ID General Facility Equipment Information and Maintenance History Maintenance Agreement(s) & Cost Cooling System Equipment Type Heating System Critical Area Served ID Tag Manufacturer Model Number Serial Number Age Current Maintenance Provider Cost 8 Pumps and Motors Fans - Supply Air - Return air - Cooling tower etc Air Handling Equipment

11 Determine Strategies and Actions to Meet Objectives Major ECM Category ECM Type Technology/ECM Name Rating Controls General/Special Upgrade to Direct Digital Control 100% Industrial Compressed Air Implement Compressed Air Utility Management 100% Water Reduce Use Install Low Flow/Use Fixtures 96% Controls General/Special Retro/Recommission Controls for Optimizing Savings 94% Controls General/Special Install Lab Hoods Control - Flow Safe Lab Hoods 94% Supply Side Management Manage Energy Supply Change Regulated Utility Rate/Tariff 94% Water Smart Metering Install Smart Meters & software -- for Billing & Accuracy 94% Electrical Lighting Install Lighting Controls 92% Electrical Lighting Replace T-8s for HiBays with T5s 92% Plant Boilers Install Tankless/Instantanious Water Heaters 92% Supply Side Management Manage Energy Supply Change to Interruptible Rates and Use Electric Generators 92% Architectural Envelope Install Weather-Stripping 92% Electrical Lighting Upgrade Fluorescent Fixtures w/ T8 or T5 Lamps and Electronic Ballasts 92% Electrical Lighting Retrofit Incandescent Lamps w/ Compact Fluorescent Lamps 92% Electrical Lighting Replace Exit Sign w/new LED Fixture 92% Plant Boilers Adjust Burner as Regular Maintenance 92% HVAC (Building/ Non-Plant) Unit Upgrade Convert CV to VAV 88% HVAC (Building/ Non-Plant) Unit Upgrade Convert Dual Duct to VAV 88% Electrical Lighting Replace HID HiBay fixtures with T5s or T8s 86% Electrical Lighting Add LED night lights in halls 86% Architectural Water Source Roof Heat Pump New Construction with Green Roofs (Plants) 85% Plant Systems Install Water Source Heat Pump System 83% Plant Motors/Pumping Install VFD/VSDs for Pumps 81% Controls Resetting Reduce Outdoor Air To Design Level 78% Controls Resetting CO2-Based Demand-Controlled Ventilation 78%

12 Determine Strategies and Actions to Meet Objectives, cont d Re-commissioning has become a mainstream concept Many buildings fail to live up to standards their designers envisioned even when new Most buildings drift from original parameters and perform less efficiently as their functions change, equipment wears and controls strategies deviate from original design intentions A disciplined re-commissioning project typically yields 10-20% energy savings

13 Determine Strategies and Actions to Meet Objectives, cont d Top Control Strategy Improvements Air handling systems (HVAC) Temperature setup/setback Sensors that are out of calibration, especially OA sensors Synchronizing the mechanical equipment with building occupancy Economizers that haven t been maintained Discharge air reset Static pressure reset Demand Control Ventilation Dirty condenser and evaporator coils and filters

14 Determine Strategies and Actions to Meet Objectives, cont d Top Control Strategy Improvements cont. Chilled Water Systems Chilled and condenser water reset Optimal start/stop of major equipment Cooling tower optimization Fan and pump speed drives Heating Systems Boiler hot water reset

15 Measure Results and Determine Program Effectiveness Select improvement actions Typical savings Lighting implement solutions for maximum energy savings % Building Automation/Controls 5 15% HVAC upgrade replace aging equipment with state-of-the-art models 5 15% Plant upgrade replace chillers/boilers with higher efficiency models 5 15% Pumps and motors replace with higher efficiency models 5 15% Comprehensive energy savings projects improvements in all of the above areas. Lighting solutions may account for as much as half of the savings in a comprehensive project % Building performance improvements offer solid return on investment

16 Measure Results and Determine Program Effectiveness, cont d Building performance improvements increase energy efficiency

17 Keys to Success Understand the mission, purpose and objectives of your organization and its buildings Assemble the right team Define your objectives Identify gaps and key improvement opportunities Create an improvement plan and take action Measure the results for effectiveness Energy efficiency & environmental performance are critical Organizational performance and productivity drive value, ROI Effective service strategy maintains lifecycle performance

18 QUESTIONS

19 NEIL MALDEIS

20 APPENDIX CRITICAL AUDIT WORK SHEETS

21 Critical Area Equipment ID General Facility Equipment Information and Maintenance History Maintenance Agreement(s) & Cost Cooling System Equipment Type Heating System Critical Area Served ID Tag Manufacturer Model Number Serial Number Age Current Maintenance Provider Cost 8 Pumps and Motors Fans - Supply Air - Return air - Cooling tower etc Air Handling Equipment

22 Available Building Documents General 1 Obtain Drawings Previous Audits or future system Planning 1 Have critical areas and critical systems audits have been conducted previously? 2 Can I have a copy for our records? 3 Facility changes planned in near future? 4 Operational changes planned in near future? 5 Any equipment in need of repair, upgrade or replacement? 6 Any unplanned equipment outages/failures in past 12-mont

23 Mechanical System Mechanical Cooling System (Various) 1 Are condenser pressures & temperatures correct vs specification? 2 Are evaporator pressures & temperatures correct vs Specification? 3 Are obvious refrigerant leaks and surging detected? 4 Are sensors installed correctly? 5 Have sensors been calibrated in past 12 months? 6 Are safeties, interlocks & alarms functioning correctly? 7 Any excessive compressor or motor noise, vibration heat emission observed Cooling Towers (As applicable) 1 Fan bearing any excessive noise, vibration heat emission observed 2 Fan Motor bearings any excessive noise, vibration or heat emission observed 3 Gearbox assessed any excessive noise, vibration or heat emission observed Condenser Water Pumps (As applicable) 1 Any excessive noise, vibration heat emission observed 2 Coupling alignment (as applicable) satisfactory - any excessive noise, vibration heat emission observed 3 Seal Condition (as applicable) any excessive water leaks 4 Bearing status, any noise or overheating observed Chilled Water Pumps (As applicable) 1 Any excessive noise, vibration heat emission observed 2 Coupling alignment (as applicable) satisfactory - any excessive noise, vibration heat emission observed 3 Seal Condition (as applicable) any excessive water leaks 4 Bearing status, any noise or overheating observed Electrical Control Panel, Starter or MCC Panel(s)* (Recommend to be completed by certified electrician) 1 Any excessive heat emission observed Enter Yes, No or N/A 2 Any Terminal corrosion observed 3 Any excessive contactor or relay chatter observed 4 Any excessive transformer hum or vibration detected and/or heat emission

24 Controls Systems Enter Yes, No or N/A Conformance to Specification 1 Is Control system in your facility latest version Are areas with special HVAC requirements monitored in accordance with engineering design temp set points, alarm set 2 points etc. 3 As-built drawings, schematics and P&ID's up to date? 4 Spare parts on hand per recommendation? 5 Correct software and revision level? 6 Are there back up procedure for software and graphics? 7 Is eqiuipment commissioning up to date? Workstation & Building Controllers 1 Critical alarms monitored remotely? 2 Are all monitored data points in specification? 3 Are data points monitored remotely 4 Are system set point changes logged and reviewed at least weekly? 5 Programming matches sequence of operations? 6 Does system have electrical outage ride-through capability - is there UPS capability 7 Operation of control sensors and devices monitored 24/7/365 8 Software changes controlled, authorization codes used and logged? 9 Is there a written procedure for addressing alarm logs? 10 Are all manual overrides reviewed at least weekly by the supervisor? Programmable and Configurable Controllers

25 1 Unit graphics and custom reports functional? 2 Programming matches sequence of operations? 3 Are all manual overrides reviewed at least weekly by the supervisor? 4 Sensor readings are within tolerance? 5 Operation of control sensors and devices monitored 24/7/365 6 Are standalone control devices calibrated? 7 Are trends set up and reviewed periodically? 8 Are all set points routinely verified? Unit Controllers (as applicable) 1 Is the alarm log routinely investigated? 2 Are unit graphics and custom reports functional? 3 Are all manual overrides reviewed at least weekly by the supervisor? 4 Are sensor readings are within tolerance? 5 Are operation of control sensors and devices inspected at least quarterly? Are the procedures for calibration of standalone control devices routinely monitored? 6 7 Are trends set up reviewed periodically? 8 Are test points verified?

26 Maintenance Practices Areas with Special HVAC Requirements 1 HVAC filters properly installed and maintained to prevent air leakages and dust overloads? 2 HEPA filter units checked? If Applicable 3 Clean area performance verified by appropriate particle testing? 4 Back up / emergency power HVAC available to sustain systems operation? 5 Areas with special ventilation, filtration, or pressurization requirements monitored? 6 Air duct flow outputs measured to ensure proper function? 7 Are air duct grills scheduled for cleaning during unoccupied times? Fresh Air Intakes 1 Fresh air intakes monitored for bird nesting or standing water etc.? 2 Bird screens in good repair? Outside Air Dampers Filters 1 Are OAD operation acceptable? 1 Are correct filters installed compared to design specifications? 2 Are the pressure drops across filters OK? (Compared to manufacturer's recommendations.)? 3 No detrimental =contaminants visible? Humidifiers (if applicable) Cooling Coils 1 Nozzles appear clean and functional? 2 Are the pans clean with no visible overflow? 3 Are the drains properly trapped? 4 Is the biocide treatment working properly? 1 Is there sufficient inspection access? 2 Do the Cooling coils appear to be clean? Enter Yes, No or N/A

27 Condensate drip pans 1 No indication of condensation problems? 2 No visible growth (e.g., slime)? 3 Drains and traps clear, working? Mist Eliminators (if applicable) 1 Clean, straight, no carryover? Supply fans 1 Fan blades appear to be clean? 2 Belt guards appear to be properly installed? 3 Belt tension appears to be correct? 4 Motor and Fan vibration levels seem normal? 5 There appear to be no corrosion problems? Heating Coil 1 There is clear unobstructed inspection access? 2 Hearing coils appear Clean? Room partitions 1 Airflow within air partitions appears to be OK? Return fans 1 Fan blades appear to be clean? 2 Belt guards appear to be properly installed? 3 Belt tension appears to be correct? 4 Motor and Fan vibration levels seem normal? 5 There appear to be no corrosion problems? Preventive maintenance 1 Are there sufficient Spare parts inventoried? 2 Are there sufficient and proper spare air filters? 3 Are control drawing posted?

28 Are utility Management Plan, Preventive Maintenance program up to date? 4 Boilers (if applicable) Cooling Towers 1 Are Flues airtight? 2 Is the purge cycle working properly? 3 Do door gaskets appear to be tight? 4 Is the fuel system tight, no leaks? 1 Is the tower sump clean? 2 Are any leaks or overflows evident? 3 Are eliminators working, no carryover? 4 Is there any slime or algae apparent? 5 Is the biocide treatment properly functional? Chillers Are chiller condenser approach temperatures correct vs chiller specification? 1 Are chiller evaporator approach temperatures correct vs chiller Specification? 2 3 Are there any observed refrigerant leaks? 4 Does the purge cycle operate normally?

29 Enter Utility Diversity, Risk & Redundancy (Data Center Example) Yes, No or N/A HVAC Equipment Utility Supply Diversity 1 Is there redundancy designed into the cooling system, with redundant isolation valves or airside dampers? 2 Power is supplied to cooling system including all motors pumps and fans from two separately derived electrical sources? 3 Power is supplied to redundant / parallel air handling units from two separately derived electrical sources/ 4 Controllers / BCU's on UPS with redundant electrical sources? 5 Primary / Standby AHU motors have separately derived electrical sources? Air flows, pressure, temperature and humidity relationships are considered in designing diversity in normal, stand by and emergency power? 6

30 Enter Equipment & System Vulnerability Risk Safety Yes, No or N/A Risk mitigation 1 Can critical areas be served from other units if major system is disabled? 2 Is the air supply to critical areas compartmentalized? 3 Are there emergency shut down & start up procedures 4 Are the emergency start up procedures maintained & current 5 Is facility staff fully trained in these procedures Redundancy Enter Yes, No or N/A HVAC Equipment Redundancy 1 Critical area air handling units have fan redundancy? 2 Quality of drain pan under air handling units satisfactory? 3 Is there sufficient Space heating redundancy? 4 Cooling towers have at minimum redundancy? 5 Chillers have at least N+1 redundancy? 6 Condenser water pumps have N+1 redundancy? 7 Chilled water pump have N+1 redundancy?