ENERGY RECOVERY SYSTEMS & DEAERATORS
Energy efficiency refers to technologies and processes designed to achieve the same output while consuming less energy. Deaerator systems play a critical role in steam and water systems by removing dissolved gases, thereby enhancing energy efficiency and extending the system’s lifespan.
Ayvaz Energy Efficiency Solutions:
- Reducing Energy Loss:
Systems designed to minimize energy wastage. - Efficient Steam Utilization:
High-performance steam and condensate solutions that lower energy costs. - Heat Recovery Systems:
Innovative technologies that allow the reuse of waste heat.
ACOM Mechanical Condensate Pump
Working Temperature: +10/+200 °C
Max. Condensate discharge:
10.000 kg/h
Max Inlet Pressure: 8 bar
Connection: Flanged
Size: DN50
ASD Compact Deaerator
The Compact degasser nozzles with flash steam inlet, condensate inlet, fresh feed water inlet, air drainer and vacuum breaker, and closed recirculation circulation line with DIN norm PN16 flanged air drainer (N4) and gas drainer (N5) with screw according to BSP can be flanged and weld end.
ACOP Condensate Transfer Pump
Condensate comes from the input collector and goes on internal pipe and access check valve than enter in condensate pump body so tank is getting full . In tank when the condensate comes on the upper limit, ELK-2 level gauge check the conductivity and change it to electrical signal and send it to 3 way pneumatic valve for the giving contact which is on the steam line than allows it to be opened
AFBT Flash Vessel Tank Systems
The amount of heat required to increase 1 kg of water temperature by 1 ° C in the atmospheric pressure is 4,186 kJ
The saturated liquid temperature of the condensate at steam temperature and pressure of 8 bar is 721 kJ / kg (saturated steam table).
If this condensate is leaked to a 2 bar tank, the heat value (saturated liquid temperature) drops to 504 kJ / kg.
This is 721-504 = 217 kJ/kg of excess condensate. The percentage of the condensate to be transformed into the steam can be calculated as follows.