TVE ThermoValue Energy
ThermoValue Energy (TVE) is Bianna’s modular solutions line designed to redefine energy recovery through a decentralised approach. Our technology enables complex waste and biomass streams to be processed directly at their point of origin, transforming environmental liabilities into “zero-kilometre” thermal and electrical energy. With robust thermodynamic engineering focused on drastically reducing operating costs (OPEX) and maximising efficiency, TVE ensures financial viability and full energy autonomy for your industrial or municipal project, without the need for the colossal investments of traditional macro-plants.
Decentralised Waste-to-Energy solutions for zero-kilometre industrial power generation
Financial viability through OPEX and “bankability”
Projects that are highly attractive to investors due to their fast payback, achieving profitability by minimising daily costs (maintenance and downtime) compared to traditional economies of scale.
Circular economy and reduced logistics
It transforms local liabilities into community assets, eliminating the very high logistics costs and carbon footprint associated with transporting waste to distant landfills.
Streamlined permitting and integration
Compact, low-visual-impact design that speeds up permitting procedures and facilitates social acceptance.
Superiority over solar energy
While photovoltaics depend on weather conditions and generate asynchronous energy, our decentralised model (TVE/SWIP) guarantees 24/7 operational availability and constant energy density on a much smaller footprint.
ThermoValue Energy is a dedicated, comprehensive engineering line focused on the design and construction of energy recovery plants. This solution is designed to process input fractions with a high calorific value (LHV) through thermal oxidation. Its main objective is to provide a comprehensive, specialised response to solid waste management.
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De residuo
Fuel typology
- SWIP (Small Waste Incineration Plants): the decentralised model par excellence for processing volumes below 3 tonnes/hour (< 20 MWt). SWIPs challenge the dogma of scale with unbeatable thermodynamic engineering. They represent a low-risk, fast-track investment, ideal for complementing flagship plants or providing autonomy to local authorities and private industries.
- BIO (Biomass and recovered organic fraction): solutions designed for industries with waste suitable for energy recovery. Using cutting-edge technology, these plants achieve combustion of complex fuels (up to 50% ash and 70% moisture), transforming biomass into a stable energy resource for the paper, chemical, and wood industries.
A recurso
Obtained energies
- Power generation: Production of synchronous electricity with high availability (up to 24/7) using conventional steam turbines or ORC (Organic Rankine Cycle) technology. This generated energy enables full self-consumption by the facility or direct export to the power grid.
- Thermal generation: Production of continuous, stable industrial heat (steam, thermal oil, or hot water) to supply urban district networks (District Heating) or provide thermal autonomy to adjacent industry.
Fuel typology
Energy recovery from solid waste and sludge through thermal oxidation
The TVE line is designed for energy recovery from fractions with high calorific value. Thermal oxidation is the key method, and this line is aimed at sectors that handle municipal solid waste, sludge generated in wastewater treatment plants, and recoverable materials with energy potential.
Recovery
Energy recovery from high-LHV waste to prevent it from being sent to landfill
The core purpose of TVE is the energy recovery of waste, using the energy contained in fractions with high LHV. This is achieved through thermal oxidation, transforming material that would otherwise go to landfill.
Operation
Thermal oxidation technologies and boiler systems to maximise LHV utilisation
The solution operates through thermal oxidation, a process designed to harness the LHV of the incoming stream. The combustion technologies used include moving grate, powder injection, bubbling furnace, and fluidised bed. The resulting heat is transferred to heat-transfer fluids (water, steam, or thermal oil) via specialised boilers.
Configurations
Modular solutions tailored to every need
We offer modular configurations that combine the best technology at each stage of the process. Scalable and adapted to the needs of each client:
- Combustion systems: step grate combustion (SGC) for stable flows, or Rotary Kiln Combustion (RKC) ideal for more critical materials.
- Heat transfer systems: integration of our advanced Horizon+ thermal oil boiler (HZB) or, alternatively, superheated process steam boilers (SPB).
- Emission control systems: comprehensive gas treatment using advanced technology, such as ceramic bag filters.
- Power generation: via steam turbines or ORC systems
Aftersales Services
Maintenance, technical service and spare parts. Minimise downtime, maximise results.
ThermoValue Energy en acción
Showroom and training
Bianna Greenways, to see our plants and equipment in real operation
Equipos que forman parte de esta planta
Ofrecemos configuraciones adaptadas a cada proyecto, desde soluciones compactas hasta líneas de procesamiento masivo.
Steam Process Boiler
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.
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Step Grate Combustion
Designed to master complex fuels (high moisture and ash content), our system guarantees more than 8,200 hours of continuous operation per year.
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Underfeed Stocker Combustion
The USC Underfeed Stoker Furnace, designed as a robust monobloc unit, ensures maximum extraction of calorific value from solid fuels and biomass, offering an automated process and rapid implementation at your plant.
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Horizon+ Thermal Oil Boiler
Thanks to its unique rotating design, the Horizon+ offers continuous cleaning and automatic ash extraction, enabling energy recovery from gases with high dust and ash content without shutdowns or efficiency losses.
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Vertical Thermal Oil Boiler
High operating temperatures in liquid phase with minimal pressures, simplifying installation, eliminating corrosion, and ensuring unmatched efficiency.
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