SPB Steam Process Boiler
Industrial boiler designed to transfer energy from combustion gases to water, converting it into steam. Available in various architectures to optimize performance based on the fuel: water-tube.
We guarantee a dry, clean, and stable steam supply, with automatic systems certified for 24-hour unattended operation, maximizing operational efficiency and minimizing technical downtime thanks to its self-cleaning design and precision in process control.
Self-supporting structure
The tubes themselves support the boiler, eliminating the need for heavy external steel structures, reducing total weight, and simplifying installation and civil works.
Operational safety
Natural circulation ensures that the tubes are always water-cooled, even in the event of electrical failure, preventing overheating without relying on circulation pumps.
Dynamic response
Its low thermal inertia design allows for rapid cold starts and an immediate reaction to sudden peaks in steam demand, maintaining level and pressure stability.
Long service life
The structure allows for free thermal expansion of the tubes, minimizing mechanical tension and material stress during heating and cooling cycles.
Water-tube steam boilers are distinguished by an advanced corner-tube architecture. In this design, the downcomers do not only carry water but also form the structural frame of the equipment itself, creating a self-supporting and extremely robust exchange body. The system operates on a natural circulation principle, utilizing the density difference between water and steam to ensure continuous and safe flow, eliminating the need for mechanical pumps in the evaporator circuit.
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Thermal energy for high-demand processes
Primarily for generating process heat or electrical energy from solid by-products. Ideal for intensive production. Applicable in all types of industries requiring process steam at pressures exceeding 20 bar and steam production rates greater than 17 t/h.
Aftersales Services
Maintenance, technical service and spare parts. Minimise downtime, maximise results.
Steam Process Boiler en acción
Showroom and training
Bianna Greenways, to see our plants and equipment in real operation
Especificaciones técnicas
Water inlet
Starting point where process water enters to be distributed through the circuit.
Horizontal headers
Pipes located at the base that ensure water is distributed uniformly to all panels.
Small panel tubes
Upper zone where water reaches its boiling point and transforms into steam due to the high thermal energy received.
Water evaporation
Starting point where process water enters to be distributed through the circuit.
Water/steam outlet
Flame gases
Hot air flow rising from the burner, transferring heat to the water tubes as it ascends.
Gas outlet
Point where exhaust gases leave the boiler after having released their thermal energy.
Ash
Heavy particles that fall by gravity into the lower hoppers to be removed from the system.
Primary air
Combustion activator: This is the injected air that provides the oxygen necessary to maintain a stable flame.
Reciprocating grate
Moving mechanism at the bottom that manages solid fuel and allows air to pass through to keep the flame alive.
Gases
Water
Ash
Air
Prestaciones y componentes
Operation
Steam generation with control and efficiency
Hot combustion gases transfer energy to the water circulating in the tubes, generating steam. Water circulation is either natural or assisted. The water feed system is continuous and modulating, using a proportional pneumatic valve to maintain a stable level based on steam demand. The boiler requires feed water to meet strict physicochemical quality parameters (e.g., pH >9.2 at 25°C for operating pressures >0.5 to 40 bar) according to the UNE-EN 12952-12 standard.
