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Slide 1CONCENTRATED SOLAR POWER SYSTEM DESIGN AND INTEGRATION
[email protected]
www.rayer.co.ukProprietary Information
System Highlights
www.rayer.co.ukProprietary Information
• 130 KWth peak parabolic trough solar matrix Plus 70 kWth Linear Fresnel Collector
• Thermal oil is used as HTF and generates superheated steam at 200 psi and 210 C is through a non-firing oil boiler
• A 20HP steam engine is powered by the steam generating 15 KWe
• 150 liters/Hour of distilled water is generated • 20 KW adsorption chiller is powered by rejected heat
from the water distillation unit • In winter the rejected heat is used for space heating
with 80 KWth
www.rayer.co.ukProprietary Information
European Union
FP7 Project
Project Web Page
Sotligua-Italy.
Prof. Ayman Al-Maaitah, Aug. 29, 2016
* Rayer-Jordan was contracted to install the RSH NRG system under the
supervision of Soltigua and to connect it to the existing Tri-Generation System
Proprietary Information
• The system can generate Steam only for industrial process
• The system can produce only one stage of the four outputs. It can only produce electricity, or water distillation, or cooling or heating alone.
• The system can by-pass any stage to produce a combination of two or more of each stage (e.g. electricity +steam or cooling +steam …etc)
Pay Back for DSG simple system without BOS
(more than 10 tons per day)
-
P ay
B ac
k Ye
ar s
Financial feasibility of co- generation
• The best feasible system is combining steam and Power by producing higher pressure steam to generate electricity and use the exhaust steam for the industrial application.
• The other combination of the poly generation depends on the specific need.
• For the full system in Mu’tah the pay back is around 5 years if it was fully operated continuously. R&D cost were not considered.
RAYER DID THE ENGINEERING AND DESIGN OF THE SYSTEM WHILE THE PROJECT USED THE FOLLOWING ENNOVATIONS BY PROF. AYMAN AL- MAAITAH
Innovations in the Tri- Generation Project
Two Stage Adsorption Chiller
Hi Efficiency Distillation
In Conclusion
• Poly-Generation is feasible both technically and financially and can expand the scope of CSH in MENA region.
• Steam Generation via CSH is feasible for indusrial applications.
• Linear concentrators both Fresnel and Parabolic Trough are suitable for moderate temperatures of CSH.
• To spread CSH systems project financing is needed
Ayman Solar Concentrator ASC
[email protected]
www.rayer.co.ukProprietary Information
System Highlights
www.rayer.co.ukProprietary Information
• 130 KWth peak parabolic trough solar matrix Plus 70 kWth Linear Fresnel Collector
• Thermal oil is used as HTF and generates superheated steam at 200 psi and 210 C is through a non-firing oil boiler
• A 20HP steam engine is powered by the steam generating 15 KWe
• 150 liters/Hour of distilled water is generated • 20 KW adsorption chiller is powered by rejected heat
from the water distillation unit • In winter the rejected heat is used for space heating
with 80 KWth
www.rayer.co.ukProprietary Information
European Union
FP7 Project
Project Web Page
Sotligua-Italy.
Prof. Ayman Al-Maaitah, Aug. 29, 2016
* Rayer-Jordan was contracted to install the RSH NRG system under the
supervision of Soltigua and to connect it to the existing Tri-Generation System
Proprietary Information
• The system can generate Steam only for industrial process
• The system can produce only one stage of the four outputs. It can only produce electricity, or water distillation, or cooling or heating alone.
• The system can by-pass any stage to produce a combination of two or more of each stage (e.g. electricity +steam or cooling +steam …etc)
Pay Back for DSG simple system without BOS
(more than 10 tons per day)
-
P ay
B ac
k Ye
ar s
Financial feasibility of co- generation
• The best feasible system is combining steam and Power by producing higher pressure steam to generate electricity and use the exhaust steam for the industrial application.
• The other combination of the poly generation depends on the specific need.
• For the full system in Mu’tah the pay back is around 5 years if it was fully operated continuously. R&D cost were not considered.
RAYER DID THE ENGINEERING AND DESIGN OF THE SYSTEM WHILE THE PROJECT USED THE FOLLOWING ENNOVATIONS BY PROF. AYMAN AL- MAAITAH
Innovations in the Tri- Generation Project
Two Stage Adsorption Chiller
Hi Efficiency Distillation
In Conclusion
• Poly-Generation is feasible both technically and financially and can expand the scope of CSH in MENA region.
• Steam Generation via CSH is feasible for indusrial applications.
• Linear concentrators both Fresnel and Parabolic Trough are suitable for moderate temperatures of CSH.
• To spread CSH systems project financing is needed
Ayman Solar Concentrator ASC
