Page 1
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
Examples of solar cooling innovations in SHC Task 53
Pedro V. QuilesUniversidad Miguel Hernández de Elche
[email protected] ://dime.umh.e
Francisco J. Aguilar ValeroUniversidad Miguel Hernández de Elche
Simón Aledo [email protected]
Prointer, S.L.
Page 2
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
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
Page 3
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
vv
PV Panels
ELECTRICITYIMPORT
EXPORT
GENERAL APPROACH
Page 4
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
vv
SYSTEM
SPACE HEATING AND COOLINGDOMESTIC HOT WATER
PV Panels
Elec
ELECTRICITYIMPORT
OUR APPROACH
Page 5
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
SOLAR AIRCONDITIONERS
GENERAL APPROACH
Page 6
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
SOLAR AIRCONDITIONERS
Page 7
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
SOLAR AIRCONDITIONERS
Page 8
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop8
INSTALLATIONCables connection
Page 9
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
240 Vca
200-300 Vcc
9
ELECTRONICS
24 Vdc
Page 10
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
Page 11
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
Page 12
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
0
100
200
300
400
500
600
700
800
900
1.000
1.100
0 2 4 6 8 10 12 14 16 18 20 22 24
Potencia (W
)
Tiempo (Horas)
P_PV,RED
P_TOT
P_RED
P_PV
PPV → Electrical power from photovoltaic panels
PGRID → Electrical power from the electrical grid
PTOT → Total Electrical power
PPV,GRID → Electrical power from photovoltaic panels connected to the electrical grid
EE=8,36 kWhFC=70%EFOT,RED=4,24 kWhEFOT= 4,00 kWhFP = 94,3%ERED= 4,36 kWhCS = 47,8 %
25/07/2013
Page 13
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
Page 14
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
• SOLAR CONTRIBUTION (SC%)Definition: % of consumed energy which is solar: 54%
• PRODUCTION FACTOR (PF%)Definition: % of employed PV energy compared to maximum: 70%
• EFFICIENCY (SPF)Definition: Heat + Cool compared to grid electricity: 9,6
CONCLUSIONS
ELECTRICITY EXPORT: NOBATTERIES: NOTHERMAL STORAGE: NOCOMPRESOR: INVERTERIMPROVED CONTROL (SOLAR): NO
NUMBER OF PV PANELS: 3COMPRESOR POWER: 1 kW
Page 15
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
DOMESTIC HOT WATER SYSTEMS
Page 16
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
PROTOTYPE UMH-DHW1
PHP=1.5kW
PPV=470Wp
DHW consumption of a 4 member family
Page 17
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
PROTOTYPE UMH-DHW1
Page 18
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
PROTOTYPE UMH-DHW1 E1
E5
E7 E6
Page 19
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
Experimental ResultsMONTLY RESULTS
Page 20
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
• SOLAR CONTRIBUTION (SC%)Definition: % of consumed energy which is solar: 71%
• PRODUCTION FACTOR (PF%)Definition: % of employed PV energy compared to maximum: 100%
• EFFICIENCY (SPF)Definition: Heat + Cool compared to grid electricity: 9,1
CONCLUSIONS
ELECTRICITY EXPORT: NOBATTERIES: NOTHERMAL STORAGE: YESCOMPRESOR: W=CONSTANTIMPROVED CONTROL (SOLAR): YES
NUMBER OF PV PANELS; 2COMPRESOR POWER: 500 WSTORAGE CAPACITY: 200 LITERS
Page 21
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
PROTOTYPE UMH-DHW2DHW consumption of a 4 member family
PHP=1.5kW
PPV=470Wp
Page 22
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
GENERAL APPROACH
Page 23
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
PROTOTYPE UMH-DHW2
Page 24
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
PROTOTYPE UMH-DHW2
100 % SOLAR OR 100% GRID
Page 25
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
2,13 kWh
16/SEP/2015
Page 26
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
2,13 kWh
0,57 kWh
0,55 kWh
100 % GRID
16/SEP/2015
Page 27
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
2,13 kWh
1,58 kWh
100 % BAT + PV
1,33 kWh
1,16 kWh
16/SEP/2015
Page 28
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
• SOLAR CONTRIBUTION (SC%)Definition: % of consumed energy which is solar: 74%
• PRODUCTION FACTOR (PF%)Definition: % of employed PV energy compared to maximum: 100%
• EFFICIENCY (SFP)Definition: Heat + Cool compared to grid electricity: 10,8
CONCLUSIONS 1 DAY 16/SEP/2015!!!!!!
ELECTRICITY EXPORT: NOBATTERIES: YESTHERMAL STORAGE: YESCOMPRESOR: W=CONSTANTIMPROVED CONTROL (SOLAR): YES
NUMBER OF PV PANELS: 2COMPRESOR POWER: 500 WBATTERIES CAPACITY: 150 AhSTORAGE CAPACITY: 200 LITERS
Page 29
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
PROTOTYPEUMH-DHW1
PROTOTYPEUMH-DHW2
230V 24V
230V24V
48V
24V
230V
Page 30
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
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
Page 31
UMH. Pedro Vicente [email protected]
SHC Task53 / PVPS Tas1 Join Workshop
Examples of solar cooling innovations in SHC Task 53
Pedro V. QuilesUniversidad Miguel Hernández de Elche
[email protected] ://dime.umh.e
Francisco J. Aguilar ValeroUniversidad Miguel Hernández de Elche
Simón Aledo [email protected]
Prointer, S.L.