Taieb Wafi scite author profile

Municipal solid waste management (MSWM) is one of the major environmental issues in Tunisian cities. Rapid growth in urbanization and population rates and the changes in people's lifestyle have prompted a dramatic increase quantity and a significant shift in the composition of municipal solid waste. There is insufficient data concerning the quantities and the composition of waste streams along with the absence of a comprehensive complete overview and a wider perspective of MSWM potential that provides detailed information at region and city level. As a result, it is still impossible for the scientific community and the authorities to provide synergetic schemes to tie the problems of MSWM with how to integrate economically feasible and environmentally sustainable practices holistically. In the present study, an attempt has been made to provide a comprehensive overview of MSW, through a qualitative (compositional) and quantitative (parametric) characterization of the generated total waste generated in Tunisian cities. A 1-year research survey was conducted in seven regions in Tunisia (Great Tunis, Northeast, Northwest, Midwest, Mideast, Southwest, and Southeast) that cover the 24 provinces of the country. Collected samples revealed that the distribution of waste by region was defined by the region's demographic, economic, and industrial status. Approaches of possibly more efficient procedures that can be undertaken to improve MSW collection are discussed. At a final stage and based on the potential of biogas calculated in the seven regions, we suggest that the scientific community and the authorities should introduce applicable schemes to valorize MSW through generating biogas as a renewable energy.

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Qualitative and quantitative characterization of municipal waste in Tunisia: a case study of metropolitan Tunis

Othman

Wafi

Fattoumi

et al. 2021

Biofuels Bioprod Bioref

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Municipal solid waste management has evolved into a promising approach to climate issues and to the growing energy demand in Tunisian cities. However, energy recovery from organic waste in the Metropolis of Tunis is still complex. This is due to the city's unpredictable economy, urbanization level, and population growth rates. So far, this unpredictability has constrained access to accurate data about organic waste. This has led to slow progress in harnessing organic waste for renewable energy production. This study focuses on the conversion of the city's organic waste to biogas as a local energy supply. The potential quantity of organic waste and its theoretical energy content were estimated based on a case study in four areas in the Metropolis encompassing 12 municipalities, official records, and literature reviews. The aim of this mixed method was to enhance data quality and optimize the long‐term viability of a small‐scale biogas plant in the city. The results show that the area generates a considerable amount of organic waste (55–66%) with an annual theoretical energy content of 224.18 GWh. The yearly financial gain from the 25.5 MW biogas plant could reach 40 352 400 USD. The estimated organic waste with its considerable potential energy content represents a significant renewable energy source in the Metropolis of Tunis. © 2021 Society of Chemical Industry and John Wiley & Sons, Ltd

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Revisited control of non regular singular system by using adaptive scheduled gain - case of methanizer

Tmar¹,

Wafi²,

Besbes³

2023

Applied Mathematics and Computation

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On the controllability of a singular nonregular methaniser system

Tmar

Wafi

Besbes

2023

Sci Rep

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The control and command of singular systems of non-regular type pose very complex problems for automation engineers. The classic concepts of controllability are not applicable because of the non-regularity of the response of such systems whose internal states are no longer controllable in the temporal or frequency plane. New concepts are rather considered such as R-Controllability and Imp-Controllability combined with $$H_2/H_\infty $$ H 2 / H ∞ type stabilization approaches. This paper proposes a new synthesis of a $$H_2/H_\infty $$ H 2 / H ∞ controller, written in terms of LMI-like matrix inequalities, dedicated to this type of system. The simulation results, of the controller synthesized on methanation plant are encouraging and have led to better performance compared to other scientific publications in the field.

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Revisited Control of Non Regular Singular System by using Open Loop Adaptive Scheduled Gain - Case of Methanizer

Tmar

Wafi

Besbes

2022

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Taieb Wafi

Qualitative and quantitative characterization of municipal solid waste and the unexploited potential of green energy in Tunisia

Qualitative and quantitative characterization of municipal waste in Tunisia: a case study of metropolitan Tunis

Revisited control of non regular singular system by using adaptive scheduled gain - case of methanizer

On the controllability of a singular nonregular methaniser system

Revisited Control of Non Regular Singular System by using Open Loop Adaptive Scheduled Gain - Case of Methanizer

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