A system was designed, calculated and installed for the recovery of industrial water that leaves the process at 120 C and is delivered to the industrial wastewater treatment system at 25 C.
This project solved the problem of discharging water at high temperatures to the treatment system, which deteriorated the entire anaerobic system of the plant and generated problems of high temperature discharges to the treatment plant and also structural damage to the entire plant due to scour problems, since the process water transport pipes were totally deteriorated and were replaced by fiber pipes that can withstand up to 200 C.
A submerged fixed film system was designed and assembled to increase treatment, capacity and efficiency by adding biomass.
The revamping of the biological treatment system increased its capacity to treat industrial water.
The unique design of Brentwood's AccuFAS system combines aeration, proprietary delivery media, combines aeration, proprietary delivery media, and vertical flow media to create an aerial pumping system and vertical flow media that not only provides sufficient substrate and oxygen to the bacteria in the biofilm, but also maintains substrate and oxygen thicknesses to the bacteria in the biofilm, but also maintains thin film thicknesses.
The engineering and analysis of the cooling system for the plant's condensers was carried out, increasing the cooling in the cooling towers.
Better performance was achieved in the cooling towers, increasing cooling efficiency in the condensers and also protecting the Bogotá River, since the return water is complying with environmental parameters.
The structure of cooling tower no. 2 was replaced with a structure made of fiberglass reinforced FRP. Structural designs and structural vibration analysis were carried out using the latest technology available in the market.
This work was performed with 70% of the cooling tower in operation never done in Peru or Latin America.
We are currently supplying the FRP materials for the cooling tower no. 1 of this Thermoelectric Power Plant.