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10 results on '"Tahar, Imen Ben"'

1. An Extended Mean Field Game for Storage in Smart Grids

Author

Alasseur, Clemence, Tahar, Imen Ben, and Matoussi, Anis

Subjects
Mathematics - Probability, 60H10, 60H30, 91A10
Abstract

We consider a stylized model for a power network with distributed local power generation and storage. This system is modeled as network connection a large number of nodes, where each node is characterized by a local electricity consumption, has a local electricity production (e.g. photovoltaic panels), and manages a local storage device. Depending on its instantaneous consumption and production rates as well as its storage management decision, each node may either buy or sell electricity, impacting the electricity spot price. The objective at each node is to minimize energy and storage costs by optimally controlling the storage device. In a non-cooperative game setting, we are led to the analysis of a non-zero sum stochastic game with $N$ players where the interaction takes place through the spot price mechanism. For an infinite number of agents, our model corresponds to an Extended Mean-Field Game (EMFG). In a linear quadratic setting, we obtain and explicit solution to the EMFG, we show that it provides an approximate Nash-equilibrium for $N$-player game, and we compare this solution to the optimal strategy of a central planner., Comment: 27 pages, 5 figures. arXiv admin note: text overlap with arXiv:1607.02130 by other authors

Published
2017

6. Higher thermal and ethanol tolerance of a yeast strain isolated from oral cavity.

Author

Tahar, Imen Ben, Fickers, Patrick, Górka, Anna, Telek, Samuel, and Kus-Liśkiewicz, Małgorzata

Subjects
*DEHYDRATION, *ETHANOL as fuel, *OVERPRODUCTION, *GLUCANS, *TREHALOSE
Abstract

Efficient bioethanol producing microorganisms must be endowed with peculiar physiological and technological traits, such as, higher thermal and ethanol tolerance. This encompasses a strain thermotolerance and an ability to grow at elevated sugar and ethanol concentration or ability to sustain dehydration process such as freeze drying. In this study, we characterized a thermotolerant yeast strain isolated from the human oral cavity regarding the above mentioned parameters. Such an uncommon niche was considered as the great potential reservoir, to isolate strains endowed with metabolic aptitudes requested for ethanol production. In the process, we have defined the YTerm-1strain ability to sustain high sugar and ethanol concentration that are two technological constrains in bioethanol production. Finally, we highlighted that the strain YTerm-1 was able to accumulate, at a high level, trehalose and β-glucan, two compounds conferring the cells an increased resistance to freeze drying process and osmotic stress. Our results suggest that the Yterm-1 strain showed a better growth ability and higher ethanol yield as compared to the industrial strain. Other metabolic traits, such as resistance to dehydration stress, tolerance to ethanol, accumulation of intracellular trehalose or membrane β-glucan confer to that isolate all the characteristics requested in industrial production of ethanol. [ABSTRACT FROM AUTHOR]

Published
2021

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