1 / 22

Peculiarities of solar cooling systems: MEDISCO DESIGN GUIDELINES

Peculiarities of solar cooling systems: MEDISCO DESIGN GUIDELINES. Osama Ayadi Dipartimento di Energia, Politecnico di Milano. CONTENTS. Introduction Why Solar Cooling for Agro-food Sector? How to design a solar cooling system? Solar cooling General Scheme Medisco Concept

kevlyn
Télécharger la présentation

Peculiarities of solar cooling systems: MEDISCO DESIGN GUIDELINES

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Peculiarities of solar cooling systems: MEDISCO DESIGN GUIDELINES Osama Ayadi Dipartimento di Energia, Politecnico di Milano

  2. CONTENTS • Introduction • Why Solar Cooling for Agro-food Sector? • How to design a solar cooling system? • Solar cooling General Scheme • Medisco Concept • Medisco Subsystems • Absorption Chiller • Solar Collector Selection • Cold Storage • Integration with the existing system. • Conclusion • .

  3. Introduction • During the project, two experimental sets up, with novel high performing solar driven cooling and refrigeration concepts, have been constructed and installed allowing on site monitoring activities of the system performance. • The experiences gained through the design and the experimental activities have been used to create these design guidelines in order to disseminate the best practice applications for next solar-cooling installations in this area.

  4. Why Solar Cooling for Agro-Food Industry (AFI)? • Why it is interesting for Agro-food Industry? • Why it is interesting for Solar Cooling?

  5. Why it is interesting for Agro-food Industry? • The AFI is a major industrial sector in all three EMT countries, • accounting for between 12% and 15% of the gross domestic product (GDP) . • The AFI sector requires high energy supply, specially for cooling processes. • Energy demand of the AFI is expected to increase steadily during the next two decades. • Cold chain should be granted to ensure product quality for exporting purpose. • Solar cooling have a great energy saving potential.

  6. Split >12 kW 7% RAC <12 kW 36% Chiller 45% VRF 2% Roof tops 5% packages 5% source: EECCAC Why it is interesting for Solar Cooling? • Several solar cooling technologies can cover the cooling demand at the high temperature range. • There is a high potential and advantages for cooling at low temperatures due to a significant economy of scale (i.e., refrigeration technologies represent a large share of the investment and operation costs).

  7. How did we start? • Location Suitability Land Solar radiation • Level of interest • Load Profile (SF) • Integratrion with existing systems • Agro-Food Sector • characterisation • Agro-Food Sector • characterisation • Plant • Selection • Process • Selection • End User • Requirement • Refrigeration load at 0°C Distributed along the year, Peaking during summer. • Replication Potential. • Dairy • Fruits & Vegetables • Fish & Meat • Oil • Bevarage

  8. How to design a solar cooling system Rules of thumb cannot be applied For solar cooling design D 5.2 Medisco Design Guidelines D 3.4 Medisco Simulation tool

  9. Cold Storage? Load? Solar Cooling: General Scheme Air-conditioning Thermal Driven process Heat Cold Water Heat storage? Heat rejection? Source: ISE Fraunhofer

  10. MEDISCO Concept Scheme Requirements • High driving temperatures => Concentrating Solar Collectors, for high direct radiation sites Advantages • Heat rejection by dry air (no water needs, low maintenance effort) • Ice storage (high storage capacity; high mismatch between cooling loads and solar gains is allowed)

  11. The Absorption Chiller • 1. Cooling Load Temperature. (-10°C – 5°C) • 2. Good performance at different ambient tempeartures. • 3. Dry cooling for heat rejection (water scarcity) DRY COOLER • ROBUR absorption chiller, • Air cooled, Single stage • Ammonia-water 13,3kW, • COP=0,65 @ (TEXT30°C) • Min. Operating temp =-10°C Source: Robur

  12. Consider the direct solar radiation in the specific geographical location How to select the solar collector? I When deciding which collector technology is best suited for a particular cooling technology, efficiency curve play and important role for the various collectors. • Starting from the working temperature range of the generator of the chiller, that is 150 °C-180°C, a pre-selection of typologies of collectors has been done. Three kinds of solar collectors have been investigated: • Parabolic trough collectors • Fresnel-type collectors • Evacuated tube collectors with compound parabolic concentrator Collector efficiency for the respective application should amount to at least 50%.

  13. How to select the solar collector? II • Selection is based both technical and economic aspects. Important parameters include : • Thermal performance • Availability • Cost and delivery time.

  14. Which thermal fluid?

  15. How to select the cold storage? • Ability to store cold at the chiller operating temperature. • Storage capacity • Shortage of solar radiation. • Mismatch between solar gain and load. • Available space. • Cost. • The low operating temperatures of the Medisco solar cooling system(-10°C) allows storing the cold energy in Ice storage. • The advantage of this ice storage is the use of the latent heat of fusion of water (-335 kJ/kg), and thus its size is compact (10 to 20% of a comparable chilled water tank). Capsule Charging Capsule Discharging Ice-encapsulated storage

  16. Chilled Water Storage • Chilled water storage systems use the sensible heat capacity of water store to store cooling energy. • The most economical for systems greater than 7000kWh in capacity. • The storage energy density of a chilled water storage unit is given by the heat capacity of water.

  17. Conclusion • MEDISCO concept is air-cooled  no water consumption nor complex regulatory requirements • MEDISCO concept require hot temperatures Concentrating solar collectors work perfectly in required area. • The potential to work at low temperatures satisfy therequirement of most of the AFI processes. • As well as allow to store cold energy in ice storage, which can cope with high mismatch between coolingproduction and consumption.

  18. شكراً لكمThank You

  19. driving heat high temperature, TH heat rejection intermediate temperature, TM useful cooling low temperature, TC Kindergarten in Milan - Italy

  20. Low and High temperature lift Q.Is it possible to provide low temperature solar refrigeration to the industrial processes? Q.Which solar and refrigeration technologies can be used for industrial applications?

  21. Absorption cooling analysis Thermodynamic analysis reveals the need for medium temperature and single stage absorption chiller Medium T. Evacuated tubes Flat Plate

  22. How to select the chiller? Source: Pridasawas, KTH, 2006

More Related