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Energy and furnace technology

Energy and Furnace Technology Group is working on Carbon Mitigation for Process Industries.

Current research areas

Renewable electricity and fuels

Gasification of biomass/waste-High-Temperature Air/steam Gasification (HTAG)
Bio-oil from biomass/waste
Biomass pretreatment for hydrophobic pellets

Fuel Switching

For boilers in power plants
For the steel industry

Renewable Electricity and Fuels, Materials:

Conversion of biomass to carbon materials
Plasma Melting gasification of municiapl solid waste (MSW) and refuse derived fuel (RFD)
Treatment of waste from electronics for energy and material recovery
End-life-vehicle recycling

Methodologies

To achieve these goals, we apply a range or research methodologies, including:

quantum simulation of biomass pyrolysis on a molecular scale
kinetic calculations of biomass and heat transfer phenomena inside of the reactor
computational fluid dynamics modelling of pyrolysis and gasification
experiments in a batch scale reactor and fluidized bed reactor
catalyst development for the fast pyrolysis for chemical and energy

Contact

Weihong Yang
Responsible for Energy and furnace technology

weihong@kth.se , +4687908402

Profile

Optimization of the ingot casting process by minimising macrosegregation and porosity

Avoiding cracking during casting of a duplex stainless steel

Development and Application of an Operator Vision Assistance System for Enhanced Direct Process Control in Foundries

HIYIELD - Highly Efficient Technologies for Increased Yields in Steelmaking Processes and Reduced Environmental Impact

Clean metallurgy

FerroSilva - fossil-free virgin steel from iron ore and biogenic reduction gas

Optimisation of the oxygen use in EAF steelmaking by direct process monitoring of the chemical melt reactions

Computational fluid dynamics

Variable nozzle height in AOD converter, stage 2

Control of nitrogen content in the production of stainless steel

Raw Ideas for Materials Projects

Energy and furnace technology

A multiscale and multifunction Cascade Catalytic Fast Pyrolysis of lignocellulose for the production of gasoline- diesel range fuel for transportation section

Sustainable technology for the staged recovery of an agricultural water from high moisture fermentation products

Recycling plastic wastes to valuable chemicals of monoaromatics and metals through catalytic-pyrolysis

Optimized biofuel-production via two-step upgrading via catalytic pyrolysis and hydrotreatment

Electrified-Catalytic Reforming using 3D printed catalysts for Biomethane production from biomass pyrolysis

Gradient control in thin film solar cells

Flexible Ladle Preheating Procedures using Plasma Heated Refractory

Control of Metallurgical Processes with indirect measurements and Machine Learning

Optimization and Performance Improving in Metal Industry by Digital Technologies

BLast furnace stack density Estimation through on-line Muons ABsorption measurements

High-temperature experimental kinetics

Powder metallurgy

Digitalisation of Atomisation

Direct reduction of alloy metals

Advanced design, monitoring , development and validation of novel HIgh PERformance MATerials and components