Sustainability of CO2 technology and the role of control systems
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Diego Malimpensa, ATMOsphere Europe 2012
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Sustainability of CO2 technology and the role of control systems
- 1. Sustainability of CO2 technology and the role of control systems Diego Malimpensa 07th November 2012
- 2. 1. Background 2. Technology evolution 3. Upcoming innovations & trends Agenda
- 3. Background late 90s The Late 1990s Developments in the use of brines for both LT & MT Systems in Nordic countries
- 4. The early 2000s Introductions of cascade systems R xxx /LT CO2 Background late 90s early 2000s
- 5. Today The most promising system Transcritical Booster DX One Refrigerant Background late 90s early 2000s … today
- 6. Main barriers 1. Training & Know how 2. Technology & Safeties 3. Psychology (perceptions, acceptance) Control systems must MAKE IT EASIER, it’s our role. Ref. 2012 Shecco Natural refrigerant guide
- 7. In the past: Standard HFC systems • Consolidated knowledge • Simple and well known technology • Simple tools and maintenance procedures • Electromechanical backup • Manual management in case of problems Technology evolution MAIN TARGET: FOOD TEMPERATURE even with no efficiency
- 8. CO2 booster DX transcritical systems: service/maintenance break trough • More relevant information to consider • Electronic controls are the brain of the system • Service and maintenance tools need to reflect latest technological improvements Technology evolution Industries have to consider • Easy access to all relevant information • Easy understanding of working conditions • Guided and flexible procedures • Built in safeties • Predictive alarms • System integration MAIN TARGET: SYSTEM EFFICIENCY preserving food quality Gas cooler pressure MT suction pressure Gas cooler outlet temperature HPV valve opening Receiver pressure LT suction pressure RPV valve opening
- 9. Human Machine Interfaces Fast growing and technological improvements in consumer applications Large scale availablity of: • Widespread broadband connectivity • Cloud computing • High level user terminals (smarthpones, tablet, …) Conceal complexity behind HVAC/R industries need to ride this trend • General overview, detailed zooms • Added value informations, user profiles differentiation • Improve service levels through faster remote troubleshooting • No hardware cost increase 1990 2012 11,5 barg 12 36,1 28 86 62,5 26,2 barg 2
- 10. Integration 3 controllers: ▪ Suction MT ▪ Suction LT ▪ High stage 2 controllers: ▪ Suction MT & high stage ▪ Suction LT Integrated solutions All in one • Capital costs reduction • Installation costs and complexity reduction • Faster commissioning/maintenance • Improved interaction and synchronization between components • Increased safeties and backup procedures • Easier understanding of working conditions
- 11. Turkey Know how diffusion Good basic knowledge is needed: dedicated training is required European know how and expertise need to be exported to help CO2 deployment in foreign countries. 2009: first subcritical cascade r134a/CO2 system 2012: first transcritical booster CO2 system Up to now: 3 subcritical / 1 transcritical CO2 plants
- 12. Know how diffusion Brazil South Korea 2009: first subcritical cascade r134a/CO2 system 2012: first transcritical booster CO2 system Up to now: 9 subcritical/ 1 transcritical CO2 plants 2008: first subcritical cascade r134a/CO2 system 2011: first subcritical pumped r134a/CO2 system Up to now: 5 subcritical/pumped r134a/CO2 plants
- 13. Upcoming innovations & trends
- 14. Convenience Stores Good scale production of medium/large stores • Continuous improvements • Component availability • Cost reductions • Growing portfolio • Introduction of small and cost effective solutions Market is ready to move the focus to a new niche for CO2 Convenience Stores • Huge numbers • Energy efficiency • ROI • Safeties
- 15. • Consolidate technology in northern European countries • Attention is shifting to southern European countries • Target: further decrease the acceptable lattitude Tests are continuing in warmer climates countries, assessing and comparing different solutions One potential solution: Evaporative cooling system • Simple • No invading • Cost effective • Integration with system controller (energy saving or safety activation) Warmer climates
- 16. Warmer climates – Istanbul case study Activation threshold 28°C outdoor temp 0 5 10 15 20 25 30 Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec [°C] outdoor temp. Ref. ASHRAE Maximum temp decrease :15°C Annual average temp:14.5°C
- 17. Warmer climates – Istanbul case study Activation threshold 28°C outdoor temp 0 5 10 15 20 25 30 Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec [°C] outdoor temp. gas cooler temp. Ref. ASHRAE Maximum temp decrease :15°C Annual average temp:14.5°C Perceived average temp: 13.8°C
- 18. Warmer climates – Istanbul case study 0 5000 10000 15000 20000 25000 Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec [kWh] Booster CO2 w/o evap cooling Booster CO2 with evap cooling
- 19. Warmer climates – Istanbul case study 0 5000 10000 15000 20000 25000 Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec [kWh] Booster CO2 w/o evap cooling Booster CO2 with evap cooling double r404 MT/LT
- 20. 80% 82% 84% 86% 88% 90% 92% 94% 96% 98% 100% Booster CO2 w/o evap cooling Booster CO2 with evap cooling double r404 MT/LT 99% 95% 100% Warmer climates – Istanbul case study
- 21. Conclusions • Conceal complexity behind • HMI • Integrated solutions • Exporting knowledge • New opportunities • Convenience stores • Warmer climates