Many manufacturing clients are struggling with reduced labor pool, cost of training and maintaining employees, space limitations, and quality issues that come from manual hand assembly processes. This provides an opportunity to consider machine automation and robotics, but the challenge is weighing the costs and payback or return on investment for those capital expenditures.
US corporate engineering team engaged Sterling to complete a feasibility study on the current situation at the EU Ireland plant and propose potential solutions. Sterling designs customized equipment and robotics that will significantly increase production and decrease manual labor. Sterling prepared URS’s for obtaining quotes from several vendors on equipment to automate the product packaging. With this information and completing the cost savings and return on investment analysis, Sterling created a five-year Capital Plan with a purchase and installation plan for each year. Our stakeholders took this Capital Plan to their leadership and it was determined that a change needed to be made but the most economical solution would be to greenfield a new plant in Eastern Europe.
Costs of Operations and availability of affordable labor were much more favorable than their three current manufacturing sites. Since Sterling has experience in technology and equipment transfer, we were selected to mobilize a team of global and local engineers to support the decommissioning and recommissioning of production lines from US, Ireland, and Denmark to Lithuania. We worked with the onsite engineers at each plant to take their knowledge and incorporate it into training and work order instructions for the new plant. This project was five years from start to finish but the tech transfer and new plant build was less than two years which was well ahead of initial estimates and expectations.
Sterling Engineering created a five-year plan to automate packaging lines in Ireland. They developed and international team of subject matter experts who worked closely with Ireland’s onsite engineers. The final proposal incorporated innovative automation solutions that will be employed across all plants.