Wittichen Supply Co.
Transcription
Wittichen Supply Co.
Progressive Energy, Environment & Sustainability Summit Chicago September 11 - 13, 2011 Extreme Efficiency: Variable Capacity Air Conditioning Systems Mark T. Kuntz [email protected] 630-562-9272 Topics Variable Capacity vs. conventional HVAC Residential, Multizone & Commercial Systems Cold climate heating capabilities EPRI VRF field test program 2 Variable Capacity = “Ductless”, “Mini-Split”, etc. 33-7/16 inches 3 3 Variable Capacity versus Conventional Little or no ductwork = minimizes duct leakage Individual room control Extremely quiet Fast and easy to install and service Exceptional energy efficiency 4 Variable Capacity versus Conventional INVERTER Compressor Advantages Over-sizing not an issue! Output matches load requirements Comfort levels are reached quickly Extremely low sound levels from both fan and compressor Constant circulation of conditioned air Improves humidity control Reduces hot/cold pockets Warm air delivery at start up in heating mode 5 DC Compressor Indoor Comfort Flexibility Wall-mounted unit 66 Ceiling-suspended unit Floor standing unit Indoor Comfort Flexibility 4-way large cassette 4-way small cassette 1-way cassette 77 Indoor Comfort Flexibility Medium static ducted unit High static ducted unit 88 Low-profile ducted unit Vertical ducted unit Residential Multizone Solutions 2 to 8 indoor units 20,000 – 48,000 BTUH 9 9 Commercial Multizone Solutions: Variable Refrigerant Flow (VRF) Simultaneous cooling and heating 10 10 Space Savings Space Required to Deliver 20 tons of Cooling VRF 20 tons Ducted 20 tons 30″ Round Supply Duct 11/8″ Liquid 11/8″ Gas Chilled Water 20 tons 3″ CHW supply 3″ CHW return 11 11 Ducted 20 tons 40″ x 20″ Supply Duct Equipment Weight Savings Average equipment weight per ton is 70 lbs per ton (outdoor unit only) Average equipment weight per ton for watercooled chiller is 101 lbs./ton 31% reduction in equipment weight 12 12 Installation Flexibility Water Cooled 13 13 Air Cooled Installation Flexibility 14 VRF and Existing Buildings • Less intrusive to existing architecture • Small refrigerant piping instead of large ductwork • Outdoor installation flexibility 15 15 Utilizing VRF with LEED Energy and Atmosphere: VRF Can achieve up to 21 points Environmental Quality: VRF can achieve up to seven points 16 LEED NC 3.0 Certified: 40-49 points Silver: 50-59 points Gold: 60-79 points Platinum: 80 + points VRF Systems and Energy Modeling • Energy usage and cost for the VRF systems can be modeled using EnergyPro EnergyPro uses DOE2.1e to model and compare VRF to other HVAC system • EnergyPro is approved for use with LEED EAc1 17 17 Cold Climate Heating: Hyper Heat System re-collects heat energy that is normally wasted at the outdoor coil. Process cools the compressor, allowing higher speeds at lower outdoor temperatures. Provides full heating capacity and comfortable discharge air temperatures at low outdoor temperatures. 18 Cold Climate Heating: Hyper Heat 120 100 100% @ 5o F 80 87% @ -4o F 60 80% @ -13o F 40 20 0 -13 -4 0 5 10 17 25 30 35 40 47 Mitsubishi Electric Hyper-heat INVERTER (H2iTM) Mitsubishi Electric Standard INVERTER Heat Pump system Typical Unitary Equipment 19 19 EPRI Energy Efficiency Demonstration -VRF Installations Operating Site Planned Site 20 4' Faith Academy—Mobile, AL Instrumentation Schematic 4' 31' ModHopper ROOM 1 ROOM 2 ROOM 3 ROOM 4 120 VAC above ceiling ROOM 5 ROOM 7 ROOM 6 47 ROOM 8 POWER 41 32' 2, 18 1, 17 4, 20 3, 19 5, 21 6, 22 7, 23 8, 24 15' Building 2Control CAT-5 (1 pair) Power 42 GIRLS BOYS GIRLS 33 34 35 36 37 38 Enclosure 39 Flow VRF 24vdc Power Supply Flex I/O 271'-0" 4' BOYS 120 VAC 120 VAC above ceiling 46 31' POWER ROOM 9 ROOM 10 ROOM 11 ROOM 12 ROOM 13 43 BAPI wireless Temp. and RH Transmittor 32' 45 9, 25 10, 26 11, 27 12, 28 15' ROOM 16 Belden 8451 Signal Wire 6 15, 31 14, 30 Static IP Address BOYS Carbon Dioxide Transmitter GIRLS 271'-0" 21 ROOM 15 ROOM 14 13, 29 Building 3 - VRF GIRLS AS Data Log. 31'-11 15/16" 4' 44 Figure 1—Field Test Layout BOYS 16, 32 Figure 3—Indoor Ceiling Cassette 22 Figure 2—24 Ton VRF Outdoor Unit Refrigerant Flow Meter 23 Table 1--VRF Performance at Mobile, AL -Monthly Energy Summaries, 2010 April September Base Total Energy: VRF Total Energy: Savings (Base – VRF): 690kWh 469kWh 221kWh Base Total Energy: VRF Total Energy: Savings (Base – VRF): 4848kWh 2812kWh 2036kWh % difference -32% % difference -42% October May 24 Base Total Energy: VRF Total Energy: Savings (Base – VRF): 3618kWh 2351kWh 1266kWh Base Total Energy: VRF Total Energy: Savings (Base – VRF): 2928kWh 1607kWh 1322kWh % difference -35% % difference -45% Figure 4—Power Profiles for September 17, 2010 95 40 Outdoor Temperature 90 Indoor Average Temperature 35 VRF Hour Average Power Baseline Hour Average Power 30 80 25 75 20 70 15 65 10 60 5 55 0 12:00 AM 3:00 AM 6:00 AM 9:00 AM 12:00 PM Time 25 3:00 PM 6:00 PM 9:00 PM 12:00 AM Power (kW) Temperature (F) 85 Re-Cap: Benefits of Variable Capacity Systems Space Utilization Installation flexibility to meet building space requirements Minimal impact to existing building architecture and structure Occupant Comfort Individual comfort control Indoor unit flexibility to meet the needs of any space Meets occupant ventilation air requirements Quiet operation Energy Savings Inverter driven compressor No wasted heat; cold climate capable Meets requirements for LEED points 26 26 Thank you for your time! Questions? www.mehvac.com 27 27