Boiler designed and manufactured to work with the gases coming from the combustion of solid waste.
The heat exchanger consists of several concentric coils connected in series, through which the system’s heat carrier ﬂuid circulates. The inlet and outlet of the boiler are made by means of rotary joints with seals designed to work at high temperatures.
The boiler is placed on a support equipped with turners, where, by the action of a gear motor, it rotates at low speed on the axis of the coils.
This rotary movement, together with the winding direction of each of the coils forming the exchange body, leads the particles in suspension in the gas ﬂ ow to an outlet enabled for their discharge.
In addition, the boiler body will have a cleaning system by means of particle discharge in charge of dragging the solids that may have remained adhered, all without the need to stop the installation at any time.
• Execution: horizontal rotary.
• Number of coils: variable on demand.
• Number of fume steps: variable on demand.
• Power range: 400 kW to 10 MW.
• Head transfer fluid: water / thermal oil
• Minimum / maximum service temperature: -30º/350 º
• Test pressure: 9.47 barg (thermal oil version 70 barg).
• Dessign pressure: 6 barg (thermal oil version 10 barg).
• Pipe quality: P235GH complementary upper thicknesses.
• Insulation: Low conductivity mineral rock wool.
• Construction standards: AD-2000 MERKBLATT.
• Efficiency: up to 94 %.
Rotating joint. Up to 320°C and 20 bar (contact us for higher temperatures and pressures).
Designed for 400 rpm. The Horizon heater makes 3 to 4 turns per minute.
The HORIZON + boiler’s own rotary design and coil configuration allows the ash to be extracted automatically.
Depending on the type of fuel, it is recommended that the surface of the coils be cleaned by means of a granulate resulting from the mixture of chemical components.
The heater allows different locations with respect to the combustion chamber. The plant layout could be in line, L-shaped, U-shaped or by positioning the boiler over the furnace.
Low speed rotary system driven by a low power consumption geared motor assembly with minimum maintenance.
Possibility of modifying the number of coils according to the requirements of the project. The number of coils can be varied, as well as their length and diameter.
The coils mounted on the HORIZON + are the same ones we have been using for our thermal oil boilers for over 40 years, which are subjected to test pressures above 70 barg.
Traditional systems have different performances depending on the level of dirt in the exchanger. In the case of the HORIZON +, the rotation achieves continuous cleaning, not by cycles, which allows a constant level of performance to be maintained throughout the operating time of the unit.
An exchange surface that is always clean allows the HORIZON + boiler to work with gases that contain a high percentage of ash and dust without affecting its performance, while other systems are not able to use gases with ash rates higher than 11%.
A fundamental part of the cleaning system consists of the addition of a mixture of chemical components in the form of granules, adaptable to the tracking of the fuel.
This compound gives the HORIZON + the ability to accept combustion gases of a variable nature, since the turbulence it generates is not only capable of trapping and filtering particles, but also favours
the chemical reactions necessary to prevent the degradation of the exchange body.
In static exchangers, the gases do not behave equally over the entire surface area. The constant movement of the coils mounted on the HORIZON + allows a more homogeneous exchange.
In a traditional blower-cleaned exchanger, the ash is lifted and mixed with the gases during the cleaning process. This makes it easier for suspended solids to reach the analysis inlets and filters, preventing compliance with regulations and shortening the life of the filtration equipment.
The continuous cleaning of the HORIZON + boiler does not generate variations in the concentration of solids in the gases.
As we do not require a compressor for blower cleaning, we avoid the cost of compressor purchase, pipe installation and electricity consumption.