demonstration of the tesse2b system in residential houses
TRANSCRIPT
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Thermal Energy
Storage Systemsfor energy efficient building an integrated solution for residential building
energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017
Demonstration of the TESSe2b system in residential houses
in Austria, Cyprus and Spain and their energy analysis
First Workshop & B2B Meeting
Luis Coelho, Amândio Rebola– IPS, Constantine Karytsas, Olympia Polyzou, Anastasia Benou – CRES;
Heiko Gaich – GEOTEAM; Chrysis Chrysanthou, Maria Athanasiou – Z&X; Aniol Esquerra Alsius –
ECOSERVEIS, Michalis Gr. Vrachopoulos, Maria K. Koukou, Nikos Tsolakoglou - TEISTE
Development of heat exchangers and PCM tanks for
heating, cooling and domestic hot water
First Workshop & B2B Meeting
Technological Educational Institute of Sterea Ellada
Pr. Michail Gr. Vrachopoulos, Nikolaos P. Tsolakoglou
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 2
Design a modular concept of a thermal storagetank/container for the candidate PCMs.
Design and optimize the Heat Exchanger for the candidate PCMs.
Main Objectives
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 3
Initial concept design – Rectangular / Cuboid
Tank without
supporting ribs
Tank with
horizontal
supporting
ribs
Tank with
horizontal and
vertical
supporting ribsAccording to EN12573 standard
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 4
HDPE PP-H GRPs
Long term operational temperature upper limit
~75oCAcceptable
~90oCAcceptable
~100oCAcceptable
Compatibility with salt hydrates
Compatibility with Paraffins
OKOK
experimental study ISO 175:1999
OK
experimental study ISO 175:1999
OK
Tank Material – 3 main options
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 5
Immersion of HDPE and PP-H samples into organic PCMs (ISO 175:1999 Methods ofTest for the determination of the effects of immersion in liquid chemicals.
2
PO
LYM
ERS
Imm
erse
d in
4 P
CM
s at 7
0oC
A-44
A-46
A-53
A-58
Experimental studies in finalizing tank material
HDPE (A)
PP (B)
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 6
Experimental studies in finalizing tank material
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 7
SEMObservation
DSCMass
measurementOptical Microscopy
Mechanical Tests
Frequency
7 days 28 days 40 days
70°C
Experimental studies, laboratorial testings
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 8
70oC/7 days
0 50 100 150 200 250
-22
-20
-18
-16
-14
-12
-10
-8
-6
-4
-2
0
2
He
atF
low
(m
W)
Furnace Temperature (°C)
PPH
B/44/7
B/46/7
B/53/7
B/58/7
0 50 100 150 200 250
-30
-25
-20
-15
-10
-5
0
He
atF
low
(m
W)
Furnace Temperature (°C)
HDPE
A/44/7
A/46/7
A/53/7
A/58/7
Experimental studies, DSC results
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 9
0 20 40 60 80 100 120 140 160 180 200
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
5
Hea
t flo
w (
mW
)
Furnace Temperature (°C)
A44/40
A46/40
A53/40
A58/40
0 50 100 150 200 250
-30
-25
-20
-15
-10
-5
0
5
He
atF
low
(m
W)
Furnace Temperature (°C)
B/44/40
B/46/40
B/53/40
B/58/40
70oC/40 daysExperimental studies, DSC results
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 10
Experimental studies, Hardness HV
A0/ No PCM A44 A46 A53 A58
0
1
2
3
4
5
7 days
28 days
40 days
HDPE samples at 7, 28 and 40 days
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 11
Experimental studies, Hardness HV
B0/ No PCM B4 B46 B53 B58
0
2
4
6
8
10
12
14 7 days
28 days
40 days
PP samples at 7, 28 and 40 days
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 12
A0 A44 A46 A53 A58
0
200
400
600
800
1000
1200
1400
Elogation (%) 7 days
Young modulus (N/mm2) 7 days
A44 A46 A53 A58
Elogation (%) 28 days
Young modulus (N/mm2) 28 days
Experimental studies, Mechanical StrengthHDPE samples at 7 and 28 days
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 13
0 5 10 15 20 25 30 35 40 45
0
1
2
3
4
5
6
7
0 5 10 15 20 25 30 35 40 45
0
1
2
3
4
5
6
7
Time (days)
A/44
A/46
A/53
A/58
R/A44
R/A46
R/A53
R/A58
Ma
ss u
pta
ke
(%
)
B/44
B/46
B/53
B/58
R/A44
R/A46
R/A53
R/A58
BOTH polymers are affected
A44: highest uptake in both HDPE & PPH
A58: lowest uptake
Ampreg 21 is stable
Experimental studies, % weight uptake
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 14
Based on market and literature review:
GRP can offer excellent corrosion resistance to a wide range of fluidsand gases at ambient temperatures and even at higher temperatures.GRP is compatible to the paraffin wax and if the compatibilityexperiments show HDPE or PP-H polymers are inadequate (even whena protection layer is applied), then GRPs could be another option forthe TESSe2b tank with
higher cost
higher weight
GPRs – Organic PCMs compatibilityThe ‘back up’ solution
The main reasons for insisting in HDPE and PPH compared to GRPs are:
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 15
Designing of the PCM Tank
The mechanical properties of the candidate plastics are extracted
from the standard EN 1778: 2000 (Characteristic values for welded
thermoplastics constructions & Determination of allowable stresses
and moduli for design of thermoplastics equipment).
The tank design (side plate thickness and dimensions of the
reinforcing bars) was designed in accordance to standard EN 12573-
3: 2000 (Design and calculation for single skin rectangular tanks).
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 16
Rim calculation
Skin thickness calculation
EN 12573-3: 2000 – Screenshot of calculation sheet
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 17
Final design of PCM Tank (Heating and Cooling)
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 18
The cases are investigatedand analysed through theEN12573 standard andthe FEA simulations. Thetank is analysed for aservice life of 10 years.
case 1 case 2 case 3
Tank material HDPE HDPE HDPE
Tank thickness (mm) 12 5 9
Rim material steel steel HDPE
Rim type orthogonal tube
orthogonal tube
orthogonal beam
Tube wall thickness (mm) 1.5 1.5 -Rim cross section dimensions (mm) 40x20 50x25 61x100
Ribs - horizontal -
Number of ribs - 1 -
Rib cross section dimensions (m) - 50x25 -
HDPE mass (Kg) 23.1 9.5 39.4
metal material mass (Kg) 5.1 12.7 -
FE Analysis of final TESSE2b tank
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 19
Hydrostatic pressure for the inner skin of the tank due to the PCM in liquid phase
HDPE mechanical properties used in FEA
Boundary conditionsFixed support for the bottom face of the tank
Material HDPEDensity (Kg/m3) 950Young modulus (Mpa) 800Poisson's ratio 0.42
FE Analysis of final TESSE2b tank
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 20
Case 1 Case 2 Case 3
FEA results (Computational Domain)
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 21
Case 1 Case 2 Case 3
FEA results – Total deformation (m) / HDPE
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 22
FEA results – Total deformation (m) / HDPE (x100) Video – Case 1 – Thick Tank (12 mm), no ribs, small rim
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 23
Video – Case 1 – Thin Tank (5 mm), rib, small rimFEA results – Total deformation (m) / HDPE (x100)
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 24
Video – Case 1 – Medium Tank (9 mm), no ribs, thick rimFEA results – Total deformation (m) / HDPE (x100)
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 25
FEA results – Rib deformation (m) / HDPE (x100)
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 26
FEA results – Rim deformation (m) / HDPE (x100)
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 27
case 1 case 2 case 3MAX Deformation Skin (m) 8.71x10-5 76,6x10-5 201x10-5
MAX Deformation Rim (m) 1.69x10-5 18,1x10-5 198x10-5
MAX Deformation Rib (m) - 37x10-5 -MAX equivalent Von Mises
stress_Skin (Pa) 1,41x105 10,6x105 18,3x105
MAX equivalent Von Mises stress_Rim (Pa) 5,63x106 30x106 1.83x106
MAX equivalent Von Mises stress_Rib (Pa) - 4,26x106 -
EN12573 compatible Yes Yes Yes
FEA results
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 28
Big experimental rig: to study the system at workingreal conditions (demo site simulation)
Experimental work
Small experimental rig: used as a first approach tostudy the heat transfer phenomena taking place inthe system using different PCM materials
Design and optimization of integrated Heat exchangers for PCM tanks
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 29
Experimental work, outcomes and validation
Energy storage inside the PCM Energy stored for different HTF flow rates HE geometries
Temperature variation of the HTF
HTF flow rate effect (inlet-outlet temperature)
Efficiency of the HE Type of HE and geometry patterns
Temperature patterns Mean PCM temperature for different areas inside its volume
Melting/Solidification patterns Time to complete charge and discharge process – effect of HTF flow rate and HE
patterns
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 30
Overall photo view
Water buffertank
Glass measurement tank
DAQ system
Heat Pump
3-way mixing valve
Flowmeter
Small Experimental Rig
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 31
Small Experimental Rig SetupHeat Exchanger length = 500mm. 12 loops – total length = 6m
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for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 32
Small Experimental Rig Setup
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for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
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Experimental procedureCharging (melting) – Hot water was supplied to the HE. Inlettemperature was always adjusted 8°C more than the phasechange temperature (if A44 was examined, inlettemperature was 52°C). The process was fulfilled when allthermocouples exceeded the inlet temperature.Discharging (solidification) – Cold water was supplied to theHE. Inlet temperature was always adjusted 8°C less than thephase change temperature (if A44 was examined, inlettemperature was 36°C). The process was fulfilled when allthermocouples reached the inlet temperature.
Small Experimental Rig
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 34
Experimental Data – Fin SpacingA44 – 30, 45, 60 lt/h – Fin Spacing 5/10 mm Melting (40-48°C)
Fin spacing affects melting time. As fin spacing reduces (more fins placed) melting timedecreases. This impact is lowered when HTF flow rates get lower (low HTF flow rates have asmaller affect in total melting time in respect to fin spacing)
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 35
Experimental Data – Fin SpacingA44 – 30, 45, 60 lt/h – Fin Spacing 5/10 mm Solidification (48-40°C)
Fin spacing affects solidification time. As fin spacing reduces (more fins placed) melting timedecreases. This impact is lowered when HTF flow rates get lower (low HTF flow rates have a smalleraffect in total melting time in respect to fin spacing)
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 36
Discharging (solidification): Conduction is the dominant heattransfer mechanism throughout the process
Melting and Solidification timeHeat Transfer Mechanism
Charging (melting): During the initial steps, conduction is thedominant heat transfer mechanism. As the PCM melts, naturalconvection undertakes a significant contribution to heat transferphenomenon
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
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Conduction in solid state is far more strongthat in liquid state as most PCM showdifferent thermal conductivity properties ( forA44 which is the optimum PCM for the hottank due to its melting temperature and highheat of fusion) thermal conductivity in liquidstate is k(l)=0.12 W/mK and is solid statek(s)=0.41 W/mK.
During discharging (solidication) a thin layer of solid material isformed on the surface of the tubes and expands on fin surfaces asprocess proceeds. This layer eliminates convection heat transferfrom the surface of the HE to the PCM.
Melting and Solidification time
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 38
Melting and Solidification ProcedureA44
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 39
Melting and Solidification ProcedureA46
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 40
Melting and Solidification ProcedureA53
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 41
Experimental Data – HTF Flow RateA44 – 30, 45, 60 lt/h – Fin Spacing 5 mm Melting & Solidification
HTF flow rate affects solidification and melting time. As HTF flow rate reduces melting andsolidification time decreases.
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 42
Experimental Data – HTF Flow RateA44 – 30, 45, 60 lt/h – Fin Spacing 10 mm Melting & Solidification
HTF flow rate affects solidification and melting time. As HTF flow rate reduces melting andsolidification time decreases. Notice : as fin spacing increases this impact is less.
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 43
Experimental Data – Energy AnalysisA44 – 30, 45, 60 lt/h – Fin Spacing 5 mm Melting & Solidification
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 44
Experimental Data – Energy AnalysisA44 – 30, 45, 60 lt/h – Fin Spacing 10 mm Melting & Solidification
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 45
During charging (melting) energy provided by the HTF ismore than what required (for tank with adiabatic walls) dueto thermal losses. On the contrary during solidification thephenomenon is reversed and as the environment is at highertemperature than the PCM the amount of energy requiredto fulfill the process is less.
Heat losses increase as the process takes longer (low HTFflow rates and less fins increase energy needed to completecharging and discharging process.
Experimental Data – Energy Analysis
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 46
Big Experimental Rig – Site SimulationInstallation Diagram
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 47
Big Experimental Rig – Site SimulationStaggered Heat Exchanger
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Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 48
Big Experimental Rig – Site Simulation
![Page 49: Demonstration of the TESSe2b system in residential houses](https://reader033.vdocument.in/reader033/viewer/2022061523/629f6164a2aa211ad21a4ca8/html5/thumbnails/49.jpg)
Thermal Energy Storage Systems
for energy efficient building an integrated solution for residential
building energy storage by solar and geothermal resources
First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage 49
Simulation procedures to validate
1. Charging and discharging of tank individually (energyand time required to fulfil process)
2. Charging and discharging of tank from both circuits(energy and time required to fulfil process)
3. Charging and discharging of tank simultaneously(energy and time required, real time recording)
Big Experimental Rig – Site Simulation
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First Workshop & B2B Meeting, Bochum, Germany, 22nd of June of 2017 TESSe2b - the smart energy storage
Thank for your attention
Thermal Energy
Storage Systemsfor energy efficient building an integrated solution for residential building
energy storage by solar and geothermal resources