The Clivet Enhanced Hydronic System March 20th Inserire immagine

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Transcription:

The Clivet Enhanced March 2th 215 Inserire immagine

WHAT S THE ENHANCED HYDRONIC SYSTEM The Hydronic System is a pre-configured modular system which is composed of three basic equipments: - ZEPHIR 3 stand-alone System; - SPINchiller 3 heat pump, air cooled or water cooled; - ELFOspace fancoils. SPINCHILLER ZEPHIR ELFOSPACE CHILLED / HOT WATER Feltre, International Sales Conference 215 The Clivet Enhanced 2

THE CONSIDERED CASE: THE BUILDING Case considered office building with three floors and a total net area of 6,6 m 2 The target analysis determine the energy performance of Hydronic System Clivet, in terms of: Primary energy consumption [kwhp] CO 2 emissions i [kg] Energycost [ ] Compare it with the traditional solution Feltre, International Sales Conference 215 The Clivet Enhanced 3

THE CONSIDERED CASE: THE BUILDING To get a complete overview, the energy analysis has been done on the same building in different conditions: Climate: London, United Kingdom; Rome, Italy; Valencia, Spain; Krakow, Poland; Moscow, Russian Federation Heat recovery technology Cooling technology Heating technology Feltre, International Sales Conference 215 The Clivet Enhanced 4

THE CONSIDERED CASE: THE CLIMATIC AREAS You can identify here! Feltre, International Sales Conference 215 The Clivet Enhanced 5

THE CONSIDERED CASE: DESIGN DATA Air conditioned space Room load calculation through a dynamic simulation software (LEED approved) Height m 3 3, Modeling of the system through a bin method year-round energy analyis Application - Offices Net surface m 2 6.6 Time operating of system in business hours - Time operating of system in attenuation - Summer design, indoors 8am to 8pm from Monday to Friday 9pm to 7am from Monday to Friday Holidays 24h and Saturday Temperature - business hours/ attenuation C / C 25 / 28 Relative humidity - business hours/ attenuation % / % 55 / 65 Supply air primary temperature - business hours/ attenuation C / C 2 / OFF Supply air primary relative humidity - business hours/ attenuation g/kg 9,5 / OFF The number of persons, which is determined in accordance with current regulations, and lighting are kept constant. Moreover, the relative humidity per each outside temperature bin is the same in all locations. Winter design, outdoors Temperature - business hours/ attenuation C / C 2 / 18 Relative humidity - business hours/ attenuation % / % 4 / 4 Supply air primary temperature - business hours/ attenuation C 22 / OFF Supply air primary relative humidity - business hours/ attenuation g/kg not controlled Primary air Attendace (,12 persons/m 2 ) n. 792 Air renewal (11 l/s per person) m 3 /h 31.363 Internal loads during business hours Lighting W/m 2 5 Electrical equipment (PC, printers, etc.). W/m 2 5 Feltre, International Sales Conference 215 The Clivet Enhanced 6

ENERGY ANALYSIS We consider the following conversion factors, set equal for all climatic areas to obtain objective comparison parameters: Electricity adsorbed [kwhe] Methane Gas [Nm 3 ] Primary energy [kwhp] 2,18 kwhp/kwhe CO 2 emissions [kg],61 kgco 2 /kwhe Cost management [ ],15 EUR/kWhe 96 9,6 1,84,8 kwhp/nm 3 kgco 2 /Nm 3 EUR/Nm 3 To better describe the individual behavior and compare all different functions, outputs have been grouped as: Production of cooling and heating capacity using electricity: compressor chiller/heat pump, external fans, relevant pumps for chilled/hot water, collectively called Electric Generator (diagrams: deep blue colour) Electric Generator Production of heating capacity using fuel (methan gas): gas boiler and relevant pumps for hot water circulation, collectively called Gas Generator (diagrams: red colour) Gas Generator Primary Air stand-alone capacity production: ZEPHIR3 compressors, collectively called ZEPHIR3 Thermodynamic circuit (diagrams: light blue colour) ZEPHIR 3 Thermodynamic Circuit Primary Air circulation: supply fans, exhaust fans and enthalpy wheel drive motor, collectively called Handling fans (diagrams: green colour) Handling fans The analysis does not include fan coil motors, as they are invariant due to the same system design and operation in all scenarios Feltre, International Sales Conference 215 The Clivet Enhanced 7

SYSTEM SOLUTIONS COMPARED: Enhanced The Enhanced from Clivet composed of : SPINCHILLER CHILLED / HOT WATER an air cooled SPINchiller 3 heat pump configuration; in ZEPHIR n.8 x ZEPHIR 3 (SIZE3) of 4, m 3 /h; ELFOSPACE n.2 2-pipes ELFOSpace fancoils. Feltre, International Sales Conference 215 The Clivet Enhanced 8

SYSTEM SOLUTIONS COMPARED: the traditional solution The traditional solution is composed of: BOILER CHILLER PIPEWORK an air cooled liquid chiller with screw compressors; HOT WATER CHILLED WATER an condensing boiler; CONTROLS AHU n.8 air handling units for primary air treatment (supply air flow 4, m 3 /h each) with rotary enthalpy wheel TERMINAL UNITS recovery (minimum efficiency 7%), n.2 two-pipes fancoil units. Feltre, International Sales Conference 215 The Clivet Enhanced 9

ENERGY ANALYSIS IN LONDON COMPARISON WITH TRADITIONAL SYSTEM: SCREW STEPLESS COMPRESSOR On the basis of the load profile were compared the following generators: CLIVET ENHANCED HYDRONIC SYSTEM TRADITIONAL HVAC SYSTEM Central Chilled Water Central Hot Water Local Pi Primary Air SPINchiller 3 WSAN-XSC3 9.4 EXC Air-to-water heat pump Cooling 244 kw (A35 W7) EER 278 2,78 ESEER 3,94 Heating 282 kw (A7 W45) COP 3,23 ZEPHIR 3 SIZE 3 Exhaust air heat pump Airflow 4 m3/h (11 l/s) Cooling 19,1 kw (A35 A25) Heating 2,7 kw (A7 A2) Recovery Thermodynamic Passive recovery pressure drop (per air stream) Pa Air cooled liquid Chiller Screw compressor, stepless control Cooling 37 kw (A35 W7) EER 3,1 ESEER 4,1 Gas condensing boiler Efficiency 12% Heating 32 kw Air Handling Unit bespoke equipment Airflow 4 m3/h (11 l/s) Cooling from chiller Heating from boiler Recovery Enthalpy wheel 7% Passive recovery pressure drop (per air stream) 12 Pa Q.ty 8 Q.ty 8 Feltre, International Sales Conference 215 The Clivet Enhanced 1

ENERGY ANALYSIS IN LONDON Primary Energy Consumption and CO 2 Emissions HVAC system Clivet Enhanced 45 4 35 3 25 2 15 1 5 Primary Energy [kwh] CO 2 emissions [kg] Primary Energy [kwh] CO 2 emissions [kg] Total CO 2 emissions 45 1 1 4 8 35 Total CO 2 emissions 8 3 6 25 6 2 4 4 15 2 1 2 5-4 -2 2 4 6 8 1 12 14 16 18 2 22 24 26 28-4 -2 2 4 6 8 1 12 14 16 18 2 22 24 26 28 Outdoor temperature [ C] Outdoor temperature [ C] Electric Generator Gas generator ZEPHIR 3 Thermodynamic Circuit Handling fans Feltre, International Sales Conference 215 The Clivet Enhanced 11

ENERGY ANALYSIS IN LONDON Primary Energy Consumption for ventilation and pumping in the air primary treatment 1 ZEPHIR3 2- A.H.U. system Handling fans for Primary Air Primary Energy [kwh] 9 6 3-51% 1 saving for ventilation -4-2 2 4 6 8 112141618222242628 Outdoor temperature [ C] 2 Water pumps for Primary Air Primary Energy [kwh] 6 5 4 3 2 1 1-4 -2 2 4 6 8 1 12 14 16 18 2 22 24 26 28 Outdoor temperature [ C] 2 Feltre, International Sales Conference 215 The Clivet Enhanced 12

ENERGY ANALYSIS IN LONDON - Overall consumption TOTAL PRIMARY ENERGY [kwh] 6. 586.46-34% 5. 279.11 387.723 4. 3. 127.788 212.578 63.198 Electric Generator Gas Generator 179.58 2. ZEPHIR 3 Thermodynamic Circuit 1. HVAC system 111.947 Handling fans 16. 14. TO TAL C O2 EMISSIONS [kg] 14.171171-23% 5. ENERGY COST [EUR] 45. 44.29-4% 12. 1. 8. 54.185 18.492 59.483 4. 35. 3. 25. 23.146 26.678678 6. 5.229 2. 14.627 4. 2. 35.757 HVAC system 31.325325 17.684 15. 1. 5. 12.351 8.793 HVAC system 7.73 4.348 CLIVETEnhanced Feltre, International Sales Conference 215 The Clivet Enhanced 13

ENERGY ANALYSIS IN ROME COMPARISON WITH TRADITIONAL SYSTEM: SCREW STEPLESS COMPRESSOR On the basis of the load profile were compared the following generators: CLIVET ENHANCED HYDRONIC SYSTEM TRADITIONAL HVAC SYSTEM Central Chilled Water Central Hot Water Local Pi Primary Air SPINchiller 3 WSAN-XSC3 14.4 EXC Air-to-water heat pump Cooling 371 kw (A35 W7) EER 274 2,74 ESEER 3,97 Heating 424 kw (A7 W45) COP 3,3 ZEPHIR 3 SIZE 3 Exhaust air heat pump Airflow 4 m3/h (11 l/s) Cooling 19,1 kw (A35 A25) Heating 2,7 kw (A7 A2) Recovery Thermodynamic Passive recovery pressure drop (per air stream) Pa Air cooled liquid Chiller Screw compressor, stepless control Cooling 53 kw (A35 W7) EER 3,2 ESEER 4,1 Gas condensing boiler Efficiency 12% Heating 2 kw Air Handling Unit bespoke equipment Airflow 4 m3/h (11 l/s) Cooling from chiller Heating from boiler Recovery Enthalpy wheel 7% Passive recovery pressure drop (per air stream) 12 Pa Q.ty 8 Q.ty 8 Feltre, International Sales Conference 215 The Clivet Enhanced 14

ENERGY ANALYSIS IN ROME - Overall consumption TOTAL PRIMARY ENERGY [kwh] 7. 171.413 6. 728.525-39% 5. 4. 3. 2. 1. 2. 18. 16. 429.918 127.194 HVAC system TO TAL C O 2 EMISSIONS [kg] 189.19-35% 33.22 44.933 285.133 92.77 63.3 6. 5. ENERGY COST [EUR] Electric Generator Gas Generator ZEPHIR 3 Thermodynamic Circuit Handling fans 52.699-42% 14.342 14. 12. 1. 8. 12.298 123.38 79.785 4. 3. 2. 29.582 3.339339 19.619 6. 4. 2. 35.591 HVAC system 25.958 17.637 1. 8.775 HVAC system 6.383 4.337 Feltre, International Sales Conference 215 The Clivet Enhanced 15

ENERGY ANALYSIS IN VALENCIA COMPARISON WITH TRADITIONAL SYSTEM: SCREW STEPLESS COMPRESSOR On the basis of the load profile were compared the following generators: CLIVET ENHANCED HYDRONIC SYSTEM TRADITIONAL HVAC SYSTEM Central Chilled Water Central Hot Water Local Primary Air SPINchiller 3 WSAN-XSC3 16.4 EXC Air-to-water heat pump Cooling 417 kw (A35 W7) EER 278 2,78 ESEER 4,9 Heating 469 kw (A7 W45) COP 3,28 ZEPHIR 3 SIZE 3 Exhaust air heat pump Airflow 4 m3/h (11 l/s) Cooling 19,1 kw (A35 A25) Heating 2,7 kw (A7 A2) Recovery Thermodynamic Passive recovery pressure drop (per air stream) Pa Air cooled liquid Chiller Screw compressor, stepless control Cooling 56 kw (A35 W7) EER 3,1 ESEER 4, Gas condensing boiler Efficiency 12% Heating 13 kw Air Handling Unit bespoke equipment Airflow 4 m3/h (11 l/s) Cooling from chiller Heating from boiler Recovery Enthalpy wheel 7% Passive recovery pressure drop (per air stream) 12 Pa Q.ty 8 Q.ty 8 Feltre, International Sales Conference 215 The Clivet Enhanced 16

ENERGY ANALYSIS IN VALENCIA - Overall consumption TOTAL PRIMARY ENERGY [kwh] 9. 8. 889.895-34% 139.512 7. 6. 5. 4. 3. 2. 1. 25. 2. 15. 622.938 127.445 HVAC sy stem TO TAL C O 2 EMISSIONS [kg] 237.3-31% 27.34 583.636 437.39 83.48 63.198 163.311 7. 6. 5. 4. ENERGY COST [EUR] Electric Generator Gas Generator ZEPHIR 3 Thermodynamic Circuit Handling fans 63.21-36% 11.578 4.158 1. 174.38 122.389 3. 42.863 3.96 2. 5. 35.661 HVAC sy stem 23.238 17.684 1. 5.714 8.769 4.348 CLIVETEnhanced HVAC system Feltre, International Sales Conference 215 The Clivet Enhanced 17

ENERGY ANALYSIS IN KRAKOW COMPARISON WITH TRADITIONAL SYSTEM: SCREW STEPLESS COMPRESSOR On the basis of the load profile were compared the following generators: CLIVET ENHANCED HYDRONIC SYSTEM TRADITIONAL HVAC SYSTEM Central Chilled Water Central Hot Wa ter SPINchiller 3 WSAN-XSC3 12.4 EXC Air cooled liquid id Chiller Air-to-w ater heat pump Screw compressor, stepless control Cooling 323 kw (A35 W7) EER 2,74 ESEER 3,99 Heating 376 kw (A7 W45) COP 3,31 Gas condensing boiler Efficiency 12% Cooling 48 kw (A35 W7) EER 3,2 ESEER 4, Gas condensing boiler Efficiency 12% Heating 5 kw Heating 28 kw Local Primary Air ZEPHIR 3 SIZE 3 Ex haust air heat pump Airflow 4 m3/h (11 l/s) Cooling 19,1 kw (A35 A25) Heating 2,7 kw (A7 A2) Recovery Thermodynamic Passiv e recov ery pressure drop (per air stream) Pa Hydronic recovery devic e for extended operating range Q.ty 8 Air Handling Unit bespoke equipment Airflow 4 m3/h (11 l/s) Cooling from chiller Heating from boiler Recov ery Enthalpy w heel 7% Passiv e recov ery pressure drop (per air stream) 12 Pa Q.ty 8 Feltre, International Sales Conference 215 The Clivet Enhanced 18

ENERGY ANALYSIS IN KRAKOW - Overall consumption 8. 7. TOTAL PRIMARY ENERGY [kwh] 744.62-29% 6. 5. 412.114 529.434 24.446 Electric Generator 4. 3. 2. 1. 21.161 131.345 HVAC system 272.496 159.826 72.666 Gas Generator ZEPHIR 3 Thermodynamic Circuit Handling fans 2. 16. 14. 12. TO TAL C O2 EMISSIONS [kg] 18. 173.122 8.82-16% 146.19 4.715 6. 5. 4. ENERGY COST [EUR] 57.41-36% 34.163 36.779 2.32 1. 76.249 3. 8. 6. 4. 56.288 44.722 2. 1. 13.841 18.75 1.997 2. 36.752 HVAC system 2.333 9.37 HVAC system 5. Feltre, International Sales Conference 215 The Clivet Enhanced 19

ENERGY ANALYSIS IN MOSCOW COMPARISON WITH TRADITIONAL SYSTEM: SCREW STEPLESS COMPRESSOR On the basis of the load profile were compared the following generators: CLIVET ENHANCED HYDRON IC SYSTEM TRADITIONAL HVAC SYSTEM Central Chilled Water Central Hot Water SPINchiller 3 WSAN-XSC3 14.44 EXC Air cooled liquid id Chiller Air-to-w ater heat pump Screw compressor, stepless control Cooling 371 kw (A35 W7) EER 2,74 ESEER 3,97 Heating 424 kw (A7 W45) COP 3,3 Gas condensing boiler Efficiency 12% Cooling 48 kw (A35 W7) EER 3,2 ESEER 4, Gas condensing boiler Efficiency 12% Heating 6 kw Heating 56 kw Local Primary Air ZEPHIR 3 SIZE 3 Ex haust air heat pump Airflow 4 m3/h (11 l/s) Cooling 19,1 kw (A35 A25) Heating 2,7 kw (A7 A2) Recovery Thermodynamic Passiv e recov ery pressure drop (per air stream) Pa EXTRAPOWER-H Q.ty 8 Air Handling Unit bespoke equipment Airflow 4 m3/h (11 l/s) Cooling from chiller Heating from boiler Recov ery Enthalpy w heel 7% Passiv e recov ery pressure drop (per air stream) 12 Pa Q.ty 8 Feltre, International Sales Conference 215 The Clivet Enhanced 2

ENERGY ANALYSIS IN MOSCOW - Overall consumption 9. TOTAL PRIMARY ENERGY [kwh] 96.685-2% 8. 7. 6. 5. 4. 3. 2. 1. 2. 15. 561.192 21.419 135.74 HVAC system TO TAL C O 2 EMISSIONS [kg] 25.769-12% 725.182 124.64 17.225 253.61 173.846 65.861 181.568 24.37 19.94 19.493 7. 6. 5. 4. Electric Generator Gas Generator ZEPHIR 3 Thermodynamic Circuit Handling fans EXTRAPOWER-H ENERGY COST [EUR] 7.286-24% 46.514 53.241 1.362 8935 8.935 1. 7.964 3. 17.45 5. 58.879 48.645 2. 1. 14.478 11.962 37.796 HVAC Csyste stem 18.429 9.294 HVAC system 4.532 CLIVETEnhanced Feltre, International Sales Conference 215 The Clivet Enhanced 21

LONDON Effect of heat recovery Effect of passive cross-flow heat exchanger in air primary treatment t t in replacement to wheel enthalpy 7. 6. 5. 4. 2. 1. TOTAL PRIMARY ENERGY [kwh] 629.59 37.945 179.547 586.46-34% 279.11 179.58-38% 387.723 212.578 111.947 Electric Generator Gas Generator 3. ZEPHIR 3 Thermodynamic Circuit 142.17 127.788 W/ Cross-flow recovery W/ Enthalpy wheel recovery TO TAL C O 2 EMISSIONS [kg] ENERGY COST [ ] 63.198 Handling fans 18. 16. 14. 1. 8. 6. 149.753-28% 14.167-23% 59.774 5.24 54.185 5.229 59.483 55. 5. 45. 4. 47.664 12. 18.491 35. 25.538 4. 2. 39.739 35.757 W/ Cross-flow recovery W/ Enthalpy wheel recovery 31.325 17.684 3. 25. 2. 15. 1. 5. 12.354 44.29 23.146 12.351 9.772 8.793 W/ Cross-flow recovery W/ Enthalpy wheel recovery -4% -44% 26.678 14.627 7.73 4.348 Feltre, International Sales Conference 215 The Clivet Enhanced 22

LONDON Effect of cooling technology Effect of different cooling technology of the electric generator for traditional solutions TOTAL PRIMARY ENERGY [kwh] 6. 567.418 586.46 575.781 562.798 5. 4. 387.723 279.91 279.11 279.91 279.91 Electric Generator Gas Generator 3. 212.578 ZEPHIR 3 Thermodynamic Circuit 2. 16.539 179.58 168.92 155.919 Handling fans 1. 111.947 63.198 127.788788 127.788788 127.788788 127.788788 W/ Multi Scroll TO TAL C O2 EMISSIONS [kg] W/ Screw Stepless W/ Screw Inverter W/ Centrifugal Magnetic bearing ENERGY COST [EUR] 16. 5. 14. 134.859 14.171 137.198 133.566 45. 42.983 44.29 43.559 42.665 12. 1. 18.492 54.18 54.185 54.18 54.18 4. 35. 3. 26.678 23.144 23.146 23.144 23.144 8. 59.483 25. 6. 4. 31.325 2. 17.684 44.922 5.229 47.261 43.629 35.757 35.757 35.757 35.757 W/ Multi Scroll W/ Screw W/ Screw Stepless Inverter W/ Centrifugal Magnetic bearing 2. 15. 1. 5. 14.627 7.73 4.348 11.46 12.351 11.622 1.728 8.793 8.793 8.793 8.793 W/ Multi Scroll W/ Screw W/ Screw Stepless Inverter W/ Centrifugal Magnetic bearing Feltre, International Sales Conference 215 The Clivet Enhanced 23

LONDON Effect of heating technology Effect of different heating technology of the gas generator for traditional solutions CLIVET ENHANCED HYDRONIC SYSTEM TRADITIONAL HVAC SYSTEM SPINchiller 3 WSAN-XSC3 9.4 EXC Air-to-water heat pump TO TAL PRIMARY ENERGY [kwh] Central Cooling 244 kw (A35 W7) 5. Chilled Water EER 2,78 45. 49.267-5,3% ESEER 3,94 4. 387.723 Heating 282 kw (A7 W45) 35. COP 3,23 3. 212.578 Central 281.479 25. Ht Hot Water Wt Multifunction air sourced heat pump Screw compressor, stepless control Cooling 55 kw (A35 W7) EER 3,11 ESEER 3,72 Heating 57 kw (A7 W45) COP 3,69 2. 15. 1. 5. 127.788 HVAC system Screw Stepless multifunction heat pump 111.947 63.198 CLIVET Enhanced Local Primary Air ZEPHIR 3 SIZE 3 Ex haust air heat pump Airflow 4 m3/h (11 l/s) Cooling 19,1 kw (A35 A25) Heating 2,7 kw (A7 A2) Recovery Thermodynamic Passive recovery pressure drop (per air stream) Pa Air Handling Unit bespoke equipment Airflow 4 m3/h (11 l/s) Cooling from chiller Heating from boiler Recov ery Enthalpy wheel 7% Passive recovery pressure drop (per air stream) 12 Pa Q.ty 8 Q.ty 8 Feltre, International Sales Conference 215 The Clivet Enhanced 24

CLIVET S.p.A. Via Camp Lonc 25 3232 Feltre, Belluno ITALY Tel. + 39 439 3131 Fax + 39 439 3133 www.clivet.com info@clivet.it Feltre, International Sales Conference 215 The Clivet Enhanced 25

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