Add to ORKGThis paper presents a population balance model for describing the temporal evolution of the particle size distribution of a precipitate produced in a laboratory scale tubular crystallizer, including nucleation, growth and agglomeration of crystals. The quadrature method of moments is used to calculate the moments of the crystal size distribution. The gamma probability density function with the sixth order Laguerre polynomials are used to reproduce the particle size distribution from moments. A sensitivity analyses is carried out by simulation that can be helpful when designing a crystallizer. Influence of the design and process parameters on the particle size distribution of product is analysed
This contribution deals with the derivation of mathematical models for continuous and batch crystall...
A coupled solver for population balance systems is presented, where the flow, temperature, and conce...
Population balance models describing particle formation kinetics in supercritical crystallization pr...
This paper presents a population balance model for describing the temporal evolution of the particle...
This paper presents a population balance model for describ-ing the temporal evolution of the particl...
Crystallization is the most important purification process in the pharmaceutical industry. In additi...
Over the last few years, product design has gained increasing importance, due to the fact that solid...
Crystallization plays a vital role in separation and purification methods for the production of ther...
The paper presents a novel methodology for the estimation of the shape of crystal size distribution ...
A combined population balance (PB) and CFD model was developed to model the behaviour of a continuou...
A detailed two-dimensional population balance model of continuous cooling crystallization, involving...
In order to obtain constant solid properties with particles exhibiting a low order of symmetry, it i...
The paper presents a novel methodology for the estimation of the shape of the crystal size distribut...
Crystallization is a separation process involving mechanisms such as nucleation, growth, aggregation...
In this contribution, we investigate feedforward control synthesis for a batch cooling crystalliser ...
This contribution deals with the derivation of mathematical models for continuous and batch crystall...
A coupled solver for population balance systems is presented, where the flow, temperature, and conce...
Population balance models describing particle formation kinetics in supercritical crystallization pr...
This paper presents a population balance model for describing the temporal evolution of the particle...
This paper presents a population balance model for describ-ing the temporal evolution of the particl...
Crystallization is the most important purification process in the pharmaceutical industry. In additi...
Over the last few years, product design has gained increasing importance, due to the fact that solid...
Crystallization plays a vital role in separation and purification methods for the production of ther...
The paper presents a novel methodology for the estimation of the shape of crystal size distribution ...
A combined population balance (PB) and CFD model was developed to model the behaviour of a continuou...
A detailed two-dimensional population balance model of continuous cooling crystallization, involving...
In order to obtain constant solid properties with particles exhibiting a low order of symmetry, it i...
The paper presents a novel methodology for the estimation of the shape of the crystal size distribut...
Crystallization is a separation process involving mechanisms such as nucleation, growth, aggregation...
In this contribution, we investigate feedforward control synthesis for a batch cooling crystalliser ...
This contribution deals with the derivation of mathematical models for continuous and batch crystall...
A coupled solver for population balance systems is presented, where the flow, temperature, and conce...
Population balance models describing particle formation kinetics in supercritical crystallization pr...