Chemical Engr I at Honeywell. Latest BSc Jobs. Interested candidates can check the details below and apply online.
Job role: Chemical Engr I
Job ID: req414190
Job Location: One-HON-UTC-2+4F ,UTC, 2F 4F, Sushant Lok Phase I,,Sector 43,Sushant Lok Phase I,,Gurgaon,HARYANA,122022,India
Design solutions to drive safe living and quality of life
Develop and design chemical manufacturing processes. You will apply the principles of chemistry, biology, physics, and mathematics to solve problems that involve the production or use of chemicals, fuel, drugs, food, and many other products. You will help run experiments and tests to aid in the development of improved manufacturing procedures and processes.
Key Responsibilities for Chemical Engr I at Honeywell:
- Perform laboratory testing
- Adjust and calibrate instruments
- Research new methods
- Design experiments
- Lead improvement initiatives
- Gather estimates of the cost of production
- Test and monitor performance of processes throughout production
- Troubleshoot problems with manufacturing processes
- Conduct analysis and prepare reports
- Bachelor’s degree from an accredited institution in a technical discipline such as the sciences, technology, engineering or mathematics
- An understanding of engineering principles and mathematics
- An aptitude for, and interest in chemistry
- Project management skills
- Resource management skills
- Oral and written communication skills
- Analytical and problem-solving ability
- The ability to work as part of a team
Possible interview questions with answers for the role of Chemical Engr I at Honeywell:
1:Can you provide an example of a complex chemical manufacturing process you’ve worked on in the past? How did you approach designing and improving the process?
Answer: Certainly. In my previous role, I was involved in optimizing a chemical manufacturing process for producing a specialty polymer used in the automotive industry. To improve the process, I first conducted a thorough analysis of the existing procedure, identified bottlenecks, and areas of inefficiency. I then designed a series of experiments to test various parameters, such as reaction temperatures and catalyst concentrations, aiming to increase yield and reduce waste. By systematically adjusting these variables and carefully monitoring the results, I managed to achieve a 20% increase in product yield and a 15% reduction in production costs.
2:How do you ensure the safety and compliance of chemical manufacturing processes, especially when working with hazardous materials?
Answer: Safety is paramount in chemical manufacturing. I adhere to rigorous safety protocols and guidelines to mitigate risks. For hazardous materials, I implement proper containment measures, ventilation systems, and personal protective equipment (PPE). Regular safety audits and thorough employee training are essential to ensure everyone understands the risks and knows how to respond to emergencies. Additionally, I stay updated on relevant regulations and standards, making sure our processes comply with all legal requirements to maintain a safe working environment.
3:Could you describe a situation where you had to troubleshoot a critical issue in a chemical manufacturing process? How did you identify the root cause and implement a solution?
Answer: Certainly. In one instance, we encountered a sudden drop in product quality during a batch production of pharmaceutical intermediates. After analyzing process data and conducting tests, I determined that a variation in the raw material quality was causing the issue. To address this, I collaborated with the procurement team to establish stricter quality control measures for incoming materials. Additionally, I optimized the process parameters to accommodate the variability in raw materials. These actions led to a consistent improvement in product quality, ensuring that the end product met the required specifications.
4:Can you share an experience where you successfully led an improvement initiative to enhance a chemical manufacturing process?
Answer: Certainly. In my previous role, I identified an opportunity to reduce waste in our chemical process by implementing a continuous flow system instead of batch processing. I formed a cross-functional team consisting of process engineers, operators, and maintenance personnel to plan and execute the transition. We conducted simulations and small-scale trials to validate the concept before implementing it on a larger scale. The new system not only reduced waste by 30% but also increased production efficiency by 20%. This initiative highlighted my project management skills, ability to collaborate with diverse teams, and commitment to sustainable process improvements.
Chemical Engr I at Honeywell
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