Description
PROFILE project management and handling instruments/equipment * Good understanding of various chemical processes (Distillation, Heat Transfer, Fluid Mechanics, Chemical Reaction Kinetics) * Excellent knowledge in ISO Standards, FDA guidelines 21 CFR Part 11, Part 210, Part 211, SOP, cGMP, cGLP, Audit trails, GAP Analysis * Familiar with safety protocols followed in research labs and worked on projects/assignments related to Process Hazard Analysis (HAZOP) * Proficient in Microsoft office suite (Excel, PowerPoint, Word), MATLAB, AUTOCAD, C-language * Ability to work in multiple disciplines i.e., Technical & Maintenance, Operations, Manufacturing, Quality Control * Good knowledge in quality control using process map, FMEA, root cause analysis, troubleshooting, 5 why's SPC, PDPC, cause and effect diagram, SIPOC, corrective actions, DOE * Well versed in writing and analyzing scientific reports * Excellent communication, organizational and Leadership skills Main objective of this study is to check applicability of Dual-Site Langmuir model for LiLSX zeolite adsorbent for air separation * Volumetric method was used to measure pure and binary equilibria of nitrogen and oxygen in LiLSX zeolite * Pure component isotherms were measured at three different temperatures thus reporting the effect of temperature on adsorption * Dual-Site Langmuir model was used to predict binary mixture equilibria and compared to experimental results. The DSL model successfully predicted the total amount adsorbed throughout the experimental concentration range. The results show that equilibrium selectivity of adsorbent favors nitrogen over oxygen from the results * Gas chromatography (GC) technique was used to analyze mixture and prepare pure components from mixtures * This study is useful in enhancement of separation technologies productivity and global competitiveness * Application of this study is used in many industrial areas such as medical purposes (portable oxygen concentrators) oxygen production in steel plants