Three Ways Lean Lab Projects Create an Empowered Workforce And Why That’s Important
By engaging employees while implementing Lean principles, companies create a culture of accountability, collaboration, and motivation. The positive outcomes of this drives employee empowerment in three key ways. Ultimately, employee engagement in Lean Lab projects leads to a more empowered and invested workforce, that benefits the overall success of the company.
The importance of ‘triage’ in variable effort work packages in quality control teams
Teams with high variability in incoming workload, face significant challenges in trying to organize their work in a fast productive manner. A quick controlled Triage process can boost performance without overloading team resources.
Five Ways Lean Lab can help you become a Greener Lab
Improving the environmental impact of the lab might not be the initial goal of a Lean Lab project but it can be a beneficial outcome without any extra effort or expenditure.
Project Based Labs
Laboratories with project based workloads often have greater volatility in both the volume and mix of work than other lab types. The work content of later steps may only be clear after the preceding step is complete. This all adds to an inherently unpredictable workload, both for the overall lab and for individual personnel. But there are some core strategies that you can deploy to make project labs more productive.
Raw Materials / Consumables Laboratories – Understanding the Nuances and a Strategy to Ensure Best in Class Performance
Raw materials / consumables labs are integral to the smooth and stable operation of a production plant and as such they perform a very important function. The cardinal sin for an incoming materials laboratory is to cause a change in the production schedule due to a material not being released on time. While most plants will try to have some sort of fixed production schedule, production environments are inherently fluidic and dynamic in nature. This fluidity can negatively impact the lab; often leading to constant prioritization and re-prioritization cycles of materials to be tested in the laboratory. This means that a lot of unnecessary non value-add effort is expended on scheduling. The net effect of all of this is a pressurized environment where analysts feel that they are in constant firefighting mode.
Waste in Laboratories
Laboratories are not the same as manufacturing environments so do the standard Lean ‘Wastes’ even apply in Labs? BSM can show you the "right" wastes to tackle to unlock the performance of your testing laboratory.
Lean Tools versus Lean Systems
Since the emergence of the Toyota Production System (TPS) in the early nineties there have been many successful introductions of Lean manufacturing to all types of differing industries from Healthcare to Retail. Providing Lean consulting services has become big business. But without understanding the deeper principles behind Lean, companies can be too focused on the application of Lean Tools instead of deploying Lean as a holistic system. “Managers are struggling to combine lean techniques into a coherent system.” (Womack & Jones, Beyond Toyota: How to Root Out Waste and Persue Perfection, 1996)
Bringing Flow to the Review and Release Process
The concept of flow is a key element in achieving lean operations. This fact has not gone unnoticed by laboratories but many still struggle to achieve real flow and very often the final review and release of samples can prove to be somewhat of a bottle neck. The final review and release tasks should not be thought of as being autonomous or decoupled from the testing process and should be incorporated in the flowed process.
The Trouble with Dedicated Resources: Leveling the Workload
Dedication of resources may seem like a good way to have “Subject Matter Experts” (SMEs) get through work quickly, but it gives rise to a costly productivity penalty. The antidote is to level the workload across the team (without compromising the important role of the SME!).
Optimising QC Lab Testing
QC test methods and the overall testing approach employed in laboratories can themselves be inherently wasteful. What steps should be taken to identify and eliminate such waste?