Mikkelin university of applied sciences Building services

Mikkelin university of applied sciences Building services
COOLING OF BUILDINGS 2014 Kuva: Pemco Mikkelin university of applied sciences Building services Martti Veuro, senior lecturer Aki Valkeapää

The future solutions of cooling do not seem to be simpler than today
COOLING OF BUILDINGS Compressor cooling can be realized as a centralised or decentralised system Centralised or decentralised cooling system can be executed either with a direct system or with an indirect system Centralised or decentralised cooling system can be executed either with a direct condensing or with an indirect condensing Rooms / spaces can be cooled / air conditioned with supply air or with chilled water or both of them can be used at the same time Addition to those also there is systems like district cooling, night ventilation, utilization of ground or water “cold”, heat pumps,... The future solutions of cooling do not seem to be simpler than today Aki Valkeapää

AIR CONDITIONING SYSTEM
ALTERNATIVES COOLING SYSTEM direct cooling – direct condensing direct cooling – indirect condensing indirect cooling – direct condensing indirect cooling – indirect condensing indirect cooling – indirect condensing + free cooling indirect cooling – direct condensing + free cooling indirect cooling – indirect condensing + gliding / floating condensing pressure + free cooling (?) AIR CONDITIONING SYSTEM cooling with supply air cooling with chilled water (and supply air) cooling with circulating air Aki Valkeapää

DECENTRALISED DIRECT COOLING
Compressor +condenser evaporator Figure: Koja Figure: Koja vakioilmastointikone Direct condensing vakioilmastointikone Indirect condensing (fluid) split-unit (refrigerant cycle) Reference: Kaappola 1996 Aki Valkeapää

(containing refrigerant)
DIRECT COOLING Direct cooling coil (containing refrigerant) supply air Expansion valve Liquid refrigerant from the liquid tank or condenser discharge / hot gas to the condenser compressor Aki Valkeapää

heat recovery finned coil (condenser) exit air expansion valve
CENTRALISED DIRECT COOLING (cooling machine in the air handling unit AHU) finned coil (condenser) Scroll-compressor exit air heat recovery expansion valve supply air direct cooling coil (evaporator) Aki Valkeapää

CENTRALISED DIRECT COOLING
compressor (rotation speed controlled scroll-compressor) direct cooling coil (refrigerant) condensing coil (refrigerant) Photo: Intervent Aki Valkeapää

CENTRALISED INDIRECT COOLING CONSTANT AIR FLOW RATE
Chiller ”plant” without separated condenser (A+B) with a separated condenser (A+B+C) C A B Reference: Seppänen 2004 Aki Valkeapää

CENTRALISED INDIRECT COOLING CONSTANT AIR FLOW RATE AIR CONDITIONING WITH CHILLED BEAMS
Iv-kone = AHU Lauhdutin=condenser Vesisäiliö=water tank Vedenjäähdytin=chiller Ilmastointipalkki=chilled beam Kaukolämmön alajakokeskus= District heating substation Term.venttiili ja vesiradiaattori= Radiator thermostat and radiator Reference: Seppänen 2004 Aki Valkeapää

CENTRALISED INDIRECT COOLING AIR CONDITIONING WITH FAN COILS
Figure: Chiller Reference: Seppänen 2004 Figure: Fläktwoods Aki Valkeapää

CENTRALISED INDIRECT COOLING AIRCONDITIONING AND VAV (VARIABLE AIR VOLUME)
Iv-kone=air handling unit Vedenjäähdytin=chiller Vesisäiliö=water tank Lauhdutin=condenser Reference: Seppänen 2004 Aki Valkeapää

INDIRECT COOLING cooling coil (chilled water) compressor
water or brine (liquid) charging circuit refrig. cycle plate heat exchanger (evaporator) chilled water tank Aki Valkeapää

INDIRECT COOLING AND DIRECT CONDENSING WITH AIR COOLED CONDENSER
Figure: Genemco Photo: Danfoss compressor condenser refrigerant cycle charging circuit expansion valve Figure: Fincoil plate heat exchanger (evaporation) Figure: Danfoss Aki Valkeapää

INDIRECT COOLING AND DIRECT CONDENSING ”air cooled liquid chiller”, roof (outdoors) mounting
TV 1 condenser Figure:Koja EVAPORATOR +27°C +7°C brine P1 +12°C Aki Valkeapää

INDIRECT CONDENSING AIR COOLED LIQUID COOLER
refrigerant cycle Brine circuit Plate heat exchanger (condenser) Figure: Fincoil Aki Valkeapää

CHILLER WITH FREE COOLING AND INDIRECT CONDENSING
P1 LS 1 LS 2 water brine TV 1 P2 brine P3 TV 3 TV 2 LS 3 Figures: Chiller Aki Valkeapää

INDIRECT COOLING AND INDIRECT CONDENSING WITH FREE COOLING
air cooled liquid cooler +42°C +36°C Summer case = compressor cooling +30°C P1 LS 1 LS 2 TV 3 water +12°C TV 1 P2 brine P3 TV 2 LS 3 +7°C Aki Valkeapää

Air cooled liquid cooler winter case = compressor off temp. outdoors < +4°C +4°C P1 LS 1 LS 2 TV 3 water +14°C TV 1 P2 brine P3 TV 2 LS 3 +9°C Aki Valkeapää

air cooled liquid cooler summer case = compressor cooling +36°C +42°C +30°C LS 3 P1 LS 1 LS 2 TV 3 water +14°C TV 1 P2 brine +7°C P3 Aki Valkeapää

air cooled liquid cooler winter case = compressor off temp. outdoors < +4°C +4°C LS 3 P1 LS 1 LS 2 TV 3 water +9°C +14°C TV 1 VJK P2 brine P3 Aki Valkeapää

CHILLER 200 … 700 kW Figure: Chiller Aki Valkeapää

CHILLER 1=screw compressor 2=tube bundle heat exchanger (condenser)
3=tube bundle heat exchanger (evaporator) 4=filter drier 5=solenoid valve 6=sight glass 7=expansion valve Reference: Kaappola 2007 Aki Valkeapää

CHILLER Tube bundle heat exchanger as condenser:
Figure: Bitzer Tube bundle heat exchanger as condenser: refrigerant in bundle outside tubes brine in tubes (non freezing liquid) Tube bundle heat exchanger as evaporator: refrigerant in tubes brine in bundle outside tubes (non freezing liquid) Reference: Aittomäki 2008 Figure: SEC heat exchanger Aki Valkeapää

CENTRALISED INDIRECT COOLING DIRECT CONDENSING 3-port control valves
Refernce: Kaappola Aki Valkeapää

CENTRALISED INDIRECT COOLING DIRECT CONDENSING 2-port control valves
Reference: Kaappola tasaussäiliö=chilled water tank Aki Valkeapää

CENTRALISED INDIRECT COOLING DIRECT CONDENSING chilled beam system, three port control valve
Reference: Kaappola Aki Valkeapää

DISTRICT COOLING Figure : Helsingin energia
jäähdytysverkko=district cooling network kaukojäähdytyshuone=DC tech. room jäähdytyskeskus=cooling plant asuintalo=residential building liiketila oy=offices and shops Aki Valkeapää

replaces a compressor cooling systems in a real estate
DISTRICT COOLING replaces a compressor cooling systems in a real estate cooling is produced centrally, distributed through pipework to the real estates and is transferred with a heat exchanger to cooling pipework in the building (compare cf. district heating) temperatures - primary side +8°C / +16°C (DC network temp.) - cooling of AHU +10°C/+17°C - fan coils +15°C/+18°C or if condensing water from air +10°C/+18°C - chilled beam distribution network +15°C/+18°C secondary side with two port control valves Aki Valkeapää

? DISTRICT COOLING District cooling production in Helsinki
Figure: Helsingin energia Vapaajäähdytys=free cooling lämpöpumppu=heat pump absortio=absortion Aki Valkeapää

Heat pump, wintertime DISTRICT COOLING Figure: Helsingin energia
Meri=sea Jätevesi= waste water Lämmönvaihdin=heat exchanger Figure: Helsingin energia Aki Valkeapää

Heat pump, summertime DISTRICT COOLING Figure: Helsingin energia
Aki Valkeapää

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