Mikael Risberg scite author profile

Mikael Risberg

5Publications

81Citation Statements Received

96Citation Statements Given

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101

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Luleå University of Technology

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Influence from fuel type on the performance of an air-blown cyclone gasifier

Risberg

Öhrman²,

Gebart

et al. 2014

Fuel

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h i g h l i g h t sPerformance of an air-blown cyclone gasifier have been investigated for different fuels. Cleaning system performance have been investigated with SMPS. Carbon conversion varied between 70% and 95% for the different fuels. Entrained flow gasification of biomass using the cyclone principle has been proposed in combination with a gas engine as a method for combined heat and power production in small to medium scale (<20 MW). This type of gasifier also has the potential to operate using ash rich fuels since the reactor temperature is lower than the ash melting temperature and the ash can be separated after being collected at the bottom of the cyclone. The purpose of this work was to assess the fuel flexibility of cyclone gasification by performing tests with five different types of fuels; torrefied spruce, peat, rice husk, bark and wood. All of the fuels were dried to below 15% moisture content and milled to a powder with a maximum particle size of around 1 mm. The experiments were carried out in a 500 kW th pilot gasifier with a 3-step gas cleaning process consisting of a multi-cyclone for removal of coarse particles, a bio-scrubber for tar removal and a wet electrostatic precipitator for removal of fine particles and droplets from the oil scrubber (aerosols). The lower heating value (LHV) of the clean producer gas was 4.09, 4.54, 4.84 and 4.57 MJ/Nm 3 for peat, rice husk, bark and wood, respectively, at a fuel load of 400 kW and an equivalence ratio of 0.27. Torrefied fuel was gasified at an equivalence ratio of 0.2 which resulted in a LHV of 5.75 MJ/Nm 3 which can be compared to 5.50 MJ/Nm 3 for wood powder that was gasified at the same equivalence ratio. A particle sampling system was designed in order to collect ultrafine particles upstream and downstream the gasifier cleaning device. The results revealed that the gas cleaning successfully removed >99.9% of the particulate matter smaller than 1 lm. a r t i c l e i n f o

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Numerical modeling of a 500 kW air-blown cyclone gasifier

Risberg

Carlsson²,

Gebart

2015

Applied Thermal Engineering

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A high efficient heat exchanger with twisted geometries for biogas process with manure slurry

et al. 2020

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Investigation of thermal indoor climate for a passive house in a sub-Arctic region using computational fluid dynamics

Risberg

Westerlund

2018

Indoor and Built Environment

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There is currently an increasing trend in Europe to build passive houses. In order to reduce the cost of installation, an air-heating system may be an interesting alternative. Heat supplied through ventilation ducts located at the ceiling was studied with computational fluid dynamics technique. The purpose was to illustrate the thermal indoor climate of the building. To validate the performed simulations, measurements were carried out in several rooms of the building. Furthermore, this study investigated if a designed passive house located above the Arctic Circle could fulfil heat requirements for a Swedish passive house standard. Our results show a heat loss factor of 18.8 W/m2 floor area and an annual specific energy use of 67.9 kWh/m2 floor area, would fulfils the criteria. Validation of simulations through measurements shows good agreement with simulations if the thermal inertia of the building was considered. Calculation of heat losses from a building with a backward weighted moving average outdoor temperature produced correct prediction of the heat losses. To describe the indoor thermal climate correctly, the entire volume needs to be considered, not only one point, which normally is obtained with building simulation software. The supply airflow must carefully be considered to fulfil a good indoor climate.

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CFD modelling of radiators in buildings with user-defined wall functions

Risberg

Westerlund

2016

Applied Thermal Engineering

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Mikael Risberg

Influence from fuel type on the performance of an air-blown cyclone gasifier

Numerical modeling of a 500 kW air-blown cyclone gasifier

A high efficient heat exchanger with twisted geometries for biogas process with manure slurry

Investigation of thermal indoor climate for a passive house in a sub-Arctic region using computational fluid dynamics

CFD modelling of radiators in buildings with user-defined wall functions

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