Articles

The Modeling Club

Here, we break down the latest and greatest breakthrough in Engineering. Whether you're curious about how we make clean energy, clean water, or even design better processes, these articles have got you covered. Let's dive in together!

TECHNICAL REPORT ON BIO-FG-DVC PYROLYSIS MODEL

Modelling of biomass pyrolysis usually considers the reactions of the three major components, i.e., cellulose, hemicellulose and lignin. The models usually model the reactions of each individual component proceeding independently so that biomass is modelled as the superposition of these components, without considering potential interactions among these components. However, modelling of biomass pyrolysis based on model compounds may not represent that of real biomass.

BIOMASS TO ENERGY: A REVIEW

Turning waste into watts — this review explores how biomass is transformed into clean electricity, heat, and biofuels, driving a sustainable and carbon-neutral energy future.

Machine Learning Model to detect Breast Cancer

In this project, we go through a simple way of using machine learning to help check for breast cancer. We use a small dataset and take you step by step, how to prepare the data, train the model, and test how well it works.

REVIEW OF BIO-FLASHCHAIN® MODEL

Bio-FLASHCHAIN® is a mechanistic reaction model developed to simulate the rapid primary devolatilization of biomass during pyrolysis, gasification, and combustion. The model represents biomass as three independent pseudo-components—cellulose, hemicellulose, and lignin—whose depolymerization and decomposition are described using lumped Arrhenius-type kinetics.