ALIASGHAR DEHGHANI ZADE
Dynamic and results-driven Process Engineer with over 2 years of experience in optimizing manufacturing processes and enhancing operational efficiency. Proven expertise in process design, troubleshooting, and implementation of innovative solutions that drive productivity and reduce costs. Skilled in utilizing Lean Six Sigma methodologies to streamline operations and improve quality. Strong analytical abilities combined with effective communication skills enable collaboration across multidisciplinary teams. Committed to continuous improvement and delivering exceptional outcomes in fast-paced environments.
Qom
university
Tehran
resident
1996
born
Company
Pars International Products
Job Position
Control room operator
Field of Study
chemical engineering
Project video presentation
honors
Thermodynamic modeling of adsorption isotherms in solid-liquid systems using local composition model
Thermodynamic modeling is a powerful tool for predicting how existing systems or even systems that have not been built yet are used in processes. On the other hand, separation methods with adsorption approach require much less energy compared to conventional direct contact separation methods such as distillation. Despite the extensive research and development activities that have been carried out for gas mixture adsorption processes, the use of adsorption techniques for the separation processes of multicomponent liquid mixtures in solid-liquid systems is still limited and further research development is needed. The reason for this issue is the lack of accurate adsorption thermodynamic models, which form the scientific basis for simulating the process of such systems and make it difficult and challenging to implement on an industrial scale.
In this research, an accurate thermodynamic framework will be developed according to the vacancy solution theory and by using a local composition model that describes the non-ideal behavior of the system, finally we achieve our isothermal model, according to the available data in the articles and the collected database, we validate our developed model and the amount of error we measure the model compared to previously developed models and the model developed in this research will be used in solid-liquid equilibrium calculations in adsorption systems of pollutants on nanoparticles and other valid adsorbents.
achievement
Monitored and analyzed real-time data feeds to ensure operational efficiency and safety.
Coordinated emergency responses by communicating effectively with on-site personnel and emergency services.
Maintained accurate logs of incidents and system performance, contributing to improved operational protocols.
Implemented proactive measures to minimize downtime, resulting in a 15% increase in overall productivity.
Trained new staff on control room procedures and technology, enhancing team performance and knowledge.
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