Add to ORKGThe heat transfer capabilities of industrial heat exchangers are reduced by the build-up of insulating deposits (fouling) on their surfaces. This has an adverse environmental impact due to the necessary increase in energy consumption and the subsequent depletion of nonrenewable fuel sources. Studies of the microstructure of material obtained from heat exchanger surfaces in pulverised coal combustion plants, highlight their geometrical self-similarity over a range of length scales. We will discuss a methodology for estimating the thermal properties of these materials which utilises these self-similarity properties using fractal analysis and renormalisation. The self-similar microstructure of the fouling materials is captivated by a family of...
Several studies have shown that fractal geometry is a tool that can replicate and investigate the na...
Nature has inspired many scientists and engineers to solve problems through observation and mimicry....
The effective thermal conductivity of porous materials is a function of the intrinsic characteristic...
Our fundamental hypothesis in this paper is that aggregated deposits grown on a substrate can be con...
Our fundamental hypothesis in this paper is that aggregated deposits grown on a substrate can be con...
Our fundamental hypothesis in this paper is that aggregated deposits grown on a substrate can be con...
International audienceA novel methodology is developed for predicting the thermal impact of fouling ...
International audienceA novel methodology is developed for predicting the thermal impact of fouling ...
International audienceA novel methodology is developed for predicting the thermal impact of fouling ...
International audienceA novel methodology is developed for predicting the thermal impact of fouling ...
International audienceA novel methodology is developed for predicting the thermal impact of fouling ...
International audienceA novel methodology is developed for predicting the thermal impact of fouling ...
International audienceA novel methodology is developed for predicting the thermal impact of fouling ...
Convective heat transfer finds applications in several domains of industry like heat exchangers, gas...
AbstractSeveral studies have shown that fractal geometry is a tool that can replicate and investigat...
Several studies have shown that fractal geometry is a tool that can replicate and investigate the na...
Nature has inspired many scientists and engineers to solve problems through observation and mimicry....
The effective thermal conductivity of porous materials is a function of the intrinsic characteristic...
Our fundamental hypothesis in this paper is that aggregated deposits grown on a substrate can be con...
Our fundamental hypothesis in this paper is that aggregated deposits grown on a substrate can be con...
Our fundamental hypothesis in this paper is that aggregated deposits grown on a substrate can be con...
International audienceA novel methodology is developed for predicting the thermal impact of fouling ...
International audienceA novel methodology is developed for predicting the thermal impact of fouling ...
International audienceA novel methodology is developed for predicting the thermal impact of fouling ...
International audienceA novel methodology is developed for predicting the thermal impact of fouling ...
International audienceA novel methodology is developed for predicting the thermal impact of fouling ...
International audienceA novel methodology is developed for predicting the thermal impact of fouling ...
International audienceA novel methodology is developed for predicting the thermal impact of fouling ...
Convective heat transfer finds applications in several domains of industry like heat exchangers, gas...
AbstractSeveral studies have shown that fractal geometry is a tool that can replicate and investigat...
Several studies have shown that fractal geometry is a tool that can replicate and investigate the na...
Nature has inspired many scientists and engineers to solve problems through observation and mimicry....
The effective thermal conductivity of porous materials is a function of the intrinsic characteristic...