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UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
Enhancing PV competitiveness with energy storage in buildings
Prof. Dr. Pedro V. QuilesUniversidad Miguel Hernández de Elche
pedro.vicente@umh.eshttp://dime.umh.e
Task53.iea-shc.org
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
Heating
INTRODUCTION
120 liters at 60ºC
Demand =7 kWh/dayDemand =2500 kWh/yearDemand =25 kWh/year/m2
Demand =12 kWh/winterdayDemand =2500 kWh/yearDemand =25 kWh/year/m2
Domestic Hot Water
Thermal needs in Nearly Zero Energy Buildings
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
Heating and Cooling
Demand =8 kWh/dayDemand =2500 kWh/yearDemand =25 kWh/year/m2
INTRODUCTIONThermal needs in Nearly Zero Energy Buildings
120 liters at 60ºC
Demand =7 kWh/dayDemand =2500 kWh/yearDemand =25 kWh/year/m2
Domestic Hot Water
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
INTRODUCTIONBOILER + SOLAR THERMAL vs. HEAT PUMP + PV
BOILER +
SOLAR THERMAL
HEAT PUMP +
SOLAR PV
η=50% η=14%x3.5=50%
COP=3.51 kWhE
3.5 kWhT
SC=50-60%
VS.
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
OPERATING AGENT:Dr. Daniel Mugnierdaniel.mugnier@tecsol.fr
OPERATING AGENT:Dr. Daniel Mugnierdaniel.mugnier@tecsol.fr
Task53.iea-shc.orgTask53.iea-shc.org
OPERATING AGENT:Dr. Daniel Mugnierdaniel.mugnier@tecsol.fr
Task53.iea-shc.org
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
THERMAL STORAGE
Why?
1st: To increase self consumption
7 kWh
9 kWh
vv
6 kWh
1 kWh8 kWh
2 kWh
THE GRID
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
THERMAL STORAGE
Why?
1st: To increase self consumption
7 kWh
9 kWh
vv
2 kWh
2 kWh
THE GRID
OPTIMUM!!
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
ETANK=0 kWh
T=60ºC
ETANK=12 kWh
T=60ºC
T=60ºC
T=60ºC
T=60ºC
T=10ºC
T=10ºC
T=10ºC
T=10ºC
T=10ºC
ETANK=5 kWh
T=30ºC
T=30ºC
T=30ºC
T=30ºC
T=30ºC
STORAGE = 12 kWh
THERMAL STORAGE FOR DOMESTIC HOT WATER
Demand = 120 liters at 60ºC
Vol =200 liters
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
ETANK=5 kWh
T=40ºC
ETANK=5 kWh
T=30ºC
T=35ºC
T=25ºC
T=20ºC
T=30ºC
T=30ºC
T=30ºC
T=30ºC
T=30ºC
TANK STRATIFICATION
THERMAL STORAGE FOR DOMESTIC HOT WATER
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
ETANK=12 kWh
T=40ºC
ETANK=5 kWh
T=30ºC
T=35ºC
T=25ºC
T=20ºC
T=60ºC
T=60ºC
T=60ºC
T=60ºC
T=60ºC
16:00 10:00
ETANK=12 kWh
T=60ºC
T=60ºC
T=60ºC
T=60ºC
T=60ºC
16:0018 h 6 h
STORAGE = 12 ‐ 5 = 7 kWh
THERMAL STORAGE FOR DOMESTIC HOT WATER
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
PROTOTYPEUMH-DHW1
230V24V
ELOS=1.6
EDHW=6.2
EU,TOT=7.8 kWh/day
EU,HT=1.1
EU,HP=6.7EL,HT=1.1
EL,HP=2.0
EL,GRID=0.9EL,PV=2.2
EU,TOT=7.8 kWh/day
EL,GRID=0.9 kWh/day
PEnR=1.8 kWhnRPE/day
THERMAL STORAGE FOR DOMESTIC HOT WATER
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
0
2
4
6
8
10
12
14
16
18
HEATER BOILER HEAT‐PUMP BOILER + ST HEAT‐PUMP + PV
kWh(nRPE)
THERMAL STORAGE FOR DOMESTIC HOT WATER
EU,TOT=7.8 kWh/day for DHW
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
PROTOTYPEUMH-DHW1
230V24V
Vol =200 liters
Q = 1.5 kW
PE= 0.5 kWE
THERMAL STORAGE FOR DOMESTIC HOT WATER
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
230V24V
Vol =100 liters
Q = 1.0 kW
PE= 0.35 kWE
E=3 kWhE
PROTOTYPEUMH-DHW2
Why?1st: To increase self consumption
2nd: To reduce unit size
THERMAL STORAGE FOR DOMESTIC HOT WATER
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
Grid
DESING CHARACTERISTICS• ELECTRICITY EXPORT: YES/NO• BATTERIES: YES/NO• THERMAL STORAGE: YES/NO• COMPRESOR: INVERTER, W=CONSTANT• IMPROVED CONTROL (SOLAR)
DIMENSIONS:• NUMBER OF PV PANELS• COMPRESOR POWER• BATTERIES: Ah • STORAGE CAPACITY (liters)
THERMAL STORAGE FOR DOMESTIC HOT WATER
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
ETANK=37 kWh
T=40ºC
ETANK=28 kWh
T=40ºC
T=40ºC
T=40ºC
T=40ºC
T=50ºC
T=50ºC
T=50ºC
T=50ºC
T=50ºC
16:00 10:00
ETANK=37 kWh
T=50ºC
T=50ºC
T=50ºC
T=50ºC
T=50ºC
16:0018 h 6 h
Heating = 9 kWh
Unit= 12 kWh
Vol = 800 liters
THERMAL STORAGE FOR HEATING
Heating = 3 kWh
Demand = 12 kWh, Storage = 9 kWh
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
230V
SPACEHEATING
Vol =800 liters
Q = 3 kW
PE= 1 kWE
SPACECOOLING
THERMAL STORAGE FOR HEATING
PHASECHANGEMATERIALSARE AN OPTION!
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
BUILDING AS STORAGE
3 X 4 =12 m2
DT = 25‐22 = 3ºC
ESTOR= 0.5 kWh in 12m2
W= 50 kg/m2
THERMAL STORAGE FOR HEATING
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
PV HEAT PUMPS FOR AIRCOINDITIONING
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
INSTALLATIONCables connection
200-300 Vdc
24 Vdc
PV HEAT PUMPS FOR AIRCOINDITIONING
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
Thermal Storage is a good idea, because:
1st: Increases self consumption
2nd: Reduces unit sizes: lower power is better!
CONCLUSIONS
Heat pump + Photovoltaics is a good idea, because:
1st: It is very efficient
2nd: It is a simple and very reliable system
HP + PV + Storage design must be done specifically
UMH. Pedro Vicente Quilespedro.vicente@umh.es
IEA PVPS Task 1 at EU-PVSEC 2016 - Munich, GermanyTask53.iea-shc.org
Enhancing PV competitiveness with energy storage in buildings
Prof. Dr. Pedro V. QuilesUniversidad Miguel Hernández de Elche
pedro.vicente@umh.eshttp://dime.umh.e
Task53.iea-shc.org
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