By increasing the heat transfer surface of the pipe with the fin structures added on the pipe, more efficient heat transfer is achieved and at the same time the amount of pipe used is reduced due to the increased effective surface area.
By increasing the heat transfer surface of the pipe with the fin structures added on the pipe, more efficient heat transfer is achieved and at the same time the amount of pipe used is reduced due to the increased effective surface area.
Spiral Finned,
Oval Tubular,
Stamped Plate Finned,
Spiral Wrapped Finned,
Integral Finned Tubes Grooved Tube
Spiral finned coils can be hot dip or electrogalvanized coating can be applied to DKP vane coils with carbon steel pipes depending on the process conditions or customer request. In standard coil products, the blades can be attached to the pipe with spot welding or applied in continuous welding between the blades and the pipe in accordance with the customer's demand.
Oval tubular coils are suitable for processes where low-pressure losses are desired compared to circular pipes. The friction coefficient is low compared to the circular type pipes due to its structure by the shape. This type of coils can be manufactured as stamped plate finned and spiral finned coils.
Copper and special alloy stamped plate finned coils, depending on customer requirements, can be applied with a dip solder coating rather than internally inflated Thanks to this coating, the oxidation rate is reduced while the heat transfer is increased. For stamped plate finned coils, the number of pipes can be changed according to the customer's requirements.
Fin form is created on the outer surface of the pipe by applying inward pressure around the pipe at certain intervals with the fin extrusion method in Stamped Plate Finned Coils. Since there is no gap between the pipe and the fin in this type of finned pipes, the best heat transfer transmission is provided.
Turbulence in the flow may be increased due to the surface shape of integral finned tubes grooved tube. A more efficient heat transfer rate is achieved by increasing turbulence at low fluid rates. These pipes, which are formed by threading the pipes in a spiral way, are used in many processes in accordance with the contamination tendency of the heat-using fluid.
Pipe and fin material can be carbon steel, stainless steel, copper, brass, and aluminum in accordance with the process and conditions of use. Here, the factors in the selection of pipe and fin material are fluid type, temperature, and pressure parameters. Carbon steel pipe-DKP finned coils can be coated with electro-galvanized or hot-dip galvanized in order to increase system life against corrosive conditions.
ERK with its expert staff, in accordance with its permanent mission, undertakes to offer the most accurate product or service selection by considering the customer benefit as an ethical criterion in every customer request and to produce or serve in line with the most up-to-date standards and technologies.