The choice of evaporative cooler outlet will depend on how the cooler is to be installed on site. There are basically 3 different configurations of which 1 will need to be chosen for each evaporative cooler.
Passing warm air over a wet surface causes water to evaporate and the surface material cools. The surface in turn cools the air passing over it. This in simple terms is what happens inside an evaporative cooler.
Large Evaporative Coolers (bottom outlet) aka base outlet evaporative coolers are ideal for mounting flat roofs or slight pitch roofs of buildings where the area to be cooled is too far from any external wall to allow any ground level mounting.
Although they provide a solution to some cooling applications there are a number of specific considerations about base outlet evaporative coolers on roofs. In particular -
Roof loadings and reinforcement to be able to safely hold the operating weight of the base outlet evaporative cooler
Connection to power and water supply.
Drainage arrangements
Cranage and lifting into position
Health and safety for installation and maintenance of the cooler
Our range of base outlet evaporative coolers has various models with capacaties rangign from 20000 to 70000m3/hr.
If you require any assistance, please call us on 01729 924108 to discuss your requirements.
Average The Room Is A Normal Residential Room, Office, Reception Area Or Similar, Where There Is Not Overly Crowded With People, Computer And Office Equipment.
Above Average There Are Factors That Contribute To Additional Heat Being Generated In The Room E.G. Strong Lighting, Overcrowding With People And Office Equipment, Conservatory Type Room, Or Flat Roofed Room.
High There Are Factors That Contribute To A High Heat Load In The Room. E.G. Commercial Cooking, Much Computer And Server Equipment, Switchgear, Temporary Building With Thin Walls And Flat Room, Plain Glass Conservatory.
The Total Average Pressure Drop Over Your Higher Efficiency Filters And/Or Carbon Filters Is;
Pascals
This Pressure Drop Is Costing In Energy Alone
£
Per year
It Is Probable That A Sanuvox In-Duct System Could Break Down The Biological, Chemical And Odourous Contaminants On This Air Flow For Between 16 And 25% Of This Running Cost
£
Lower energy cost estimate of an equivalent Sanuvox system (16%)
£
Higher energy cost estimate of an equivalent Sanuvox system (25%)
This calculator is provided as a broad based indication of the energy cost of running a filter based air purification, and an indicative cost of running a Sanuvox system as an alternative. It should not be assumed to be absolutely accurate and should not be used as the basis of an actual system design or forecast of cost saving of an actual system. We accept no liability for consequences of the inappropriate use of this calculator, or its results. Actual figures would depend on the proposed system for a particular application and on the exact parameters of that application.