T - JULES
T - JULES T - JULES
JULES-HP CHESS runs A B C Model simulation - Climate change impact - Climate change scenarios (UKCIP) Source: Energy Saving Trust, Heat Pump Technical Monitoring Specifica'on, 2008 - COP under future environmental conditions
CO 2 savings – Mitigation potential 126 P. Blum et al. / Renewable Energy 35 (2010) 122–127 Geothermal CO 2 emission (GCE, g/year) !"# ! !"#$ ! !!" !" ! !!"#$ !!"#$ !"#$ ! !" !"# ! !"! ! Conven'onal CO 2 emission (CCE, g/year) !!" ! !"#$ ! !" !" ! !!"#$ !!"#$ !"#$ !! !" !"# ! !"! ! !" CO 2 savings (CS, g/year) ! !"#$ ! !"# ! !"#$ ! !!" ! !"!" ! i.e. A heat pump of ~10KW th installed in Reading is able to produce approximately 21000KWh heat annually >> CO 2 savings ~ 2500 Kg/year 35% or 72% CO 2 Savings depending on the electricity mix used Blum et al., 2010
- Page 1 and 2: Applica'on of JULES for the as
- Page 3 and 4: Impacts of climate change • Imbal
- Page 5 and 6: Renewable heating in the UK By 2020
- Page 7 and 8: Range of GCHP systems Source: Ener
- Page 9 and 10: This methodology could help to: •
- Page 11 and 12: Preliminary studies, Drayton St Leo
- Page 13 and 14: GROMIT rationale A B C Model sim
- Page 15 and 16: JULES-HP 1D sensitivity runs Rotham
- Page 17: JULES-HP 1D sensitivity runs Moor
- Page 21: THANKS!
<strong>JULES</strong>-HP CHESS runs<br />
A B C <br />
Model simulation<br />
- Climate change impact<br />
- Climate change scenarios (UKCIP)<br />
Source: Energy Saving Trust, Heat Pump Technical Monitoring Specifica'on, 2008 <br />
- COP under future environmental conditions
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