Using TOPAZ smart adiabatic cooling system new technology in water and power conservation that causes efficiency enhancements for Industrial and HVAC water chillers
3. Permanently Good Cooling
Compression Chiller Mechanism
7 c water to Fan coils 12 c water from Fan coils
Energy Efficiency Enhancement for Chillers
4. Permanently Good Cooling
Air Cooled Condenser(ACC)
High Initial Costs
Electric Power for Fans
Thermal efficiency is
limited by Ambient air
temp.
7 c water to Fan coils 12 c water from Fan coils
Energy Efficiency Enhancement for Chillers
5. Permanently Good Cooling
Water Cooled Condenser(Cooling Tower)
35 c Water to Condenser
45 c Water to C.T.
Energy Efficiency Enhancement for Chillers
Higher thermal efficiency
than ACC
Lower Initial Costs
Water consumption
Corrosion in Chiller
Maintenance problems
Health problems
7 c water to Fan coils 12 c water from Fan coils
6. Permanently Good Cooling
رسمی نماینده آیکار مهندسی شرکتE.W. GOHL GmbHو آلمانJACIRایران در فرانسه
Thermodynamic Analysis for Chiller:
Energy Efficiency Enhancement for Chillers
7. Permanently Good Cooling
Lowering Cond. Temp. causes lower compressor out let
pressure(lower power consumption)
Increasing Cooling Efficiency
Decreasing Compressor work
Decreasing System working time
Decreasing system maintenance costs
Energy Efficiency Enhancement for Chillers
Thermodynamic Analysis for Chiller:
8. Permanently Good Cooling
Technical/Economical Selection
Water Cooled CondenserHigh Thermal EfficiencyHigh Water Consumption
Air Cooled Condenser
Lower Thermal Efficiency
Electric Power ConsumptionNo Water Consumption
Technical/Economical Selection is The Combination of :
Higher Thermal Efficiency(Water Cooled Condenser)
Lower Water Consumption(Air Cooled Condenser)
Lower Power Consumption
Energy Efficiency Enhancement for Chillers
Selecting Right Condenser System
All in
One
TOPAZ
9. Permanently Good Cooling
Introduction to TOPAZ Smart Adiabatic System
Energy Efficiency Enhancement for Chillers
High Thermal Efficiency
No Water Treatment
Using City Water
No Risk for Corrosion
No Risk for Legionella
Closed-Loop Water System
Low Water Consumption
Low Power Consumption
Easy/Low Cost Maintenance
12. Permanently Good Cooling
LONG TERM CORROSIVE PROTECTION WITH WHIRL SINTERING is a coating process developed by Gohl
for cooling towers, in which a 0.3 mm thick thermoplastic performance polymer alloy is melted onto
clean, degreased and pre-treated (by sandblasting) galvanized sheet steel in a powder whirl bed.
This unique technique
guarantees for more than
40 years cooling towers
especially resistant and
durable - regardless of
where they are in use.
04-13 12
TOPAZ Smart Adiabatic System
Energy Efficiency Enhancement for Chillers
14. Permanently Good Cooling
LONG TERM CORROSIVE PROTECTION WITH WHIRL SINTERING
1404-13
Gohl´s whirl sintering coating is reaching
C5-M corrosivity category
TOPAZ Smart Adiabatic System
Energy Efficiency Enhancement for Chillers
15. Permanently Good Cooling
15
AIR CONDITIONNING APPLICATIONS
Arkadia Shopping Mall
Poland
16 Topaz coolers – 12 MW
02-14
Paris Seine
Offices
1 Topaz T4 – 800 kW
Airbus
Toulouse
2 Topaz T3 – 1,2 MW
18. 18
• Direct drive / no belt or gear
• Permanent magnets motors as an option
• IE4 MOTORS
• low heating ; long lasting
TOPAZ Smart Adiabatic System
Energy Efficiency Enhancement for Chillers
19. 19
Simple rotation of cover :
no tools, no climbing
Distribution channels without
water spraying :
no drops in the air flow
TOPAZ Smart Adiabatic System
Energy Efficiency Enhancement for Chillers
20. 20
Complete opening by automatic sliding door :
Direct access to internal side of bundle
Direct Access to fan / Motors
TOPAZ Smart Adiabatic System
Energy Efficiency Enhancement for Chillers
23. ECONOMIE D’EAU 3J
Option recirculation
WATER CONSUMPTION
Open tower
Open hybrid tower
Closed tower
Dry adiabatic cooler
TOPAZ Smart Adiabatic System
Energy Efficiency Enhancement for Chillers
24. ECONOMIE D’EAU 3J
Option recirculation
ANNUAL ELECTRICAL CONSUMPTION
kWh
Open tower
Open hybrid tower
Closed tower
Dry adiabatic cooler
TOPAZ Smart Adiabatic System
Energy Efficiency Enhancement for Chillers
25. ECONOMIE D’EAU 3J
Option recirculation
Open / Open hybrid / Closed / Dry adiabatic cooler
Price €
TOPAZ Smart Adiabatic System
Energy Efficiency Enhancement for Chillers
INVESTMENT
26. ECONOMIE D’EAU 3J
Option recirculation
kWh
Open / Open hybrid / Closed / Dry adiabatic
Admin. Cost / 2 years
OPERATION COST 2 YEARS
TOPAZ Smart Adiabatic System
Energy Efficiency Enhancement for Chillers
27. ECONOMIE D’EAU 3J
Option recirculation
Open / Open hybrid / Closed / Dry adiabatic cooler
INVESTMENT AND OPERATION
COST ON 2 YEARS
TOPAZ Smart Adiabatic System
Energy Efficiency Enhancement for Chillers