Modeling and simulation of small-scale biogas digester based on kitchen waste

Abstract EN

Anaerobic digestion (AD) is a collection of biological processes where the organic material is converted by microorganisms to produce a mixture of mainly methane and carbon dioxide (biogas) in the ence of oxygen.

Methane is a very powerful greenhouse gas.

The combustion of methane releases energy, which can be used to generate heat and electricity.

AD proves to be a beneficial technology in various spheres.

Biogas technology has the potential to meet the energy requirements in many places, it can be designed to meet the electrical and/or heat demand in rural areas.

On the other hand, kitchen waste can be used to produce biogas due to its high biodegradability which can reduce the dependency on fossil fuels.

This paper presents a proposed design, modeling and simulation of small-scale biogas digester based on kitchen waste.

The biological processes of the AD are mathematically modeled to give a complete representation of the physic-chemical reactions depending on several aspects such as microbial activity, substrate degradation, and temperature.

A small-scale family size kitchen waste digester is designed to utilize the kitchen waste of an average Egyptian family and provides the required cooking heat of the house.

The model is then simulated in Matlab/Simulink environment.

The proposed model is simulated under different conditions to investigate the impacts of digester temperature, feed type, and reaction time on biogas production.

The simulation results identify the best parameters for the operation of the proposed model.

The study explains that the suitable size for a biogas digester based on the kitchen waste of an average Egyptian family is 0.06 m3, with a diameter of 0.4 m and a height of 0.5 m.

The results show that there is a regular increase in methane production at 30 ºC for about 18 days before it becomes constant, and best volume of methane equals to 0.05369 m3 /day.