I am currently pursuing an MSc in Project Management at the University of the West of Scotland, London Campus, building on a strong academic foundation in Chemical Engineering. I have gained hands-on experience through relevant internships, professional roles, projects, and certification in Aspen Plus. Over the past three months, I have worked as a Casual Sales Assistant at Sports Direct, where I have honed my customer service and teamwork abilities. I am actively seeking full-time project management positions starting in May 2025, with a commitment to continuous learning and leveraging my technical and managerial expertise to achieve project success.
• Led daily warehouse operations, overseeing the storage, dispatch, and logistics of cosmetic and stationery products.
• Managed a team of 4 warehouse staff, ensuring smooth workflow, efficient task assignment, and compliance with health and safety protocols.
• Monitored inventory levels and collaborated with procurement to maintain optimal stock levels, reducing stock shortages and delays.
• Implemented new organizational strategies that improved space utilization and workflow efficiency, resulting in a increase in warehouse productivity.
• Maintained accurate documentation of shipments, inventory records, and product handling to ensure smooth operations and audit compliance.
• Coordinated with suppliers, logistics teams, and vendors to ensure on-time deliveries, leading to improved customer satisfaction.
Gained practical experience in managing daily production operations, ensuring compliance with safety and efficiency protocols under the guidance of the Production Manager.
Actively participated in quality control processes and collaborated with cross-functional teams to achieve timely production goals.
Trained in monitoring production schedules and addressing operational challenges, contributing to streamlined manufacturing procedures.
1. Electrocoagulation for the Treatment of Dyeing Wastewater in the Textile Industry
Project Description:
The project focuses on utilizing electrocoagulation (EC) as an advanced method for treating textile dyeing wastewater, which is often challenging to manage due to its high levels of pollutants, including organic dyes, suspended solids, and chemical oxygen demand (COD). Electrocoagulation is an innovative, sustainable technology that applies electrical currents to destabilize contaminants, causing them to coagulate and be removed from the wastewater. The goal of this project was to construct an electrocoagulation cell and optimize critical operating parameters such as current density, electrode material, and pH to maximize the removal of dyes and other pollutants.
Key Contributions:
Optimization of Operating Parameters:
Tested different current densities, electrode materials, and pH levels to determine the best combination for maximizing the removal of color and COD from dyeing wastewater.
Electrocoagulation Cell Construction:
Designed and built an electrocoagulation system for treating textile wastewater, ensuring proper electrode placement and electrical input for efficient contaminant removal.
Analytical Characterization of Treated Water:
Used UV-spectrophotometry and COD meters to analyze and measure the effectiveness of electrocoagulation in removing dyes and pollutants from treated wastewater. The results were compared to existing wastewater treatment methods.
2. Wastewater Treatment Using Activated Carbon Adsorption
Description:
This project investigated the use of activated carbon as an adsorbent to remove organic pollutants from industrial wastewater, focusing on optimizing adsorption parameters for effective treatment.
Key Contributions:
valuated different types of activated carbon for their adsorption efficiency in removing organic contaminants.
Optimized adsorption parameters such as contact time, pH, and carbon dosage to maximize pollutant removal.
Analyzed treated water quality using chemical analysis methods, ensuring environment.
Project Title: Study on the Efficiency of Natural Coagulants in Water Treatment.
Description: This project investigates the use of natural coagulants like Moringa oleifera (drumstick seeds) and alum for removing turbidity and suspended solids from drinking water. The aim was to compare the effectiveness of these natural coagulants with conventional chemical coagulants in water purification, focusing on cost-effectiveness and environmental sustainability.
Key Contributions: Coagulant Comparison: Conducted experiments to compare the coagulation efficiency of natural materials like Moringa seeds against alum in treating turbid water.
Optimization of Dosage: Determined the optimal dosage for maximum turbidity removal by conducting jar tests with varying concentrations of the coagulants.
Water Quality Analysis: Measured water quality parameters such as turbidity, pH, and suspended solids before and after treatment, demonstrating the potential of natural coagulants as a sustainable alternative to chemical treatments.