-
Subscribe to Blog:
-
SEARCH THE BLOG
CATEGORIES
- Aerospace
- Asset Maintenance
- Automotive
- Blog
- Building Products
- Case Studies
- Chemical Processing
- Consulting
- Food & Beverage
- Forestry Products
- Hospitals & Healthcare
- Knowledge Transfer
- Lean Manufacturing
- Life Sciences
- Logistics
- Manufacturing
- Material Utilization
- Metals
- Mining
- News
- Office Politics
- Oil & Gas
- Plastics
- Private Equity
- Process Improvement
- Project Management
- Spend Management
- Supply Chain
- Uncategorized
- Utilities
- Whitepapers
BLOG ARCHIVES
- December 2024 (4)
- November 2024 (2)
- October 2024 (6)
- September 2024 (5)
- August 2024 (5)
- July 2024 (6)
- June 2024 (3)
- May 2024 (3)
- April 2024 (4)
- March 2024 (3)
- February 2024 (4)
- January 2024 (5)
- December 2023 (2)
- November 2023 (1)
- October 2023 (6)
- September 2023 (3)
- August 2023 (4)
- July 2023 (2)
- June 2023 (3)
- May 2023 (7)
- April 2023 (3)
- March 2023 (3)
- February 2023 (5)
- January 2023 (6)
- December 2022 (2)
- November 2022 (5)
- October 2022 (5)
- September 2022 (5)
- August 2022 (6)
- July 2022 (3)
- June 2022 (4)
- May 2022 (5)
- April 2022 (3)
- March 2022 (5)
- February 2022 (4)
- January 2022 (7)
- December 2021 (3)
- November 2021 (5)
- October 2021 (3)
- September 2021 (2)
- August 2021 (6)
- July 2021 (2)
- June 2021 (10)
- May 2021 (4)
- April 2021 (5)
- March 2021 (5)
- February 2021 (3)
- January 2021 (4)
- December 2020 (3)
- November 2020 (3)
- October 2020 (3)
- September 2020 (3)
- August 2020 (4)
- July 2020 (3)
- June 2020 (5)
- May 2020 (3)
- April 2020 (3)
- March 2020 (4)
- February 2020 (4)
- January 2020 (4)
- December 2019 (3)
- November 2019 (2)
- October 2019 (4)
- September 2019 (2)
- August 2019 (4)
- July 2019 (3)
- June 2019 (4)
- May 2019 (2)
- April 2019 (4)
- March 2019 (4)
- February 2019 (5)
- January 2019 (5)
- December 2018 (2)
- November 2018 (2)
- October 2018 (5)
- September 2018 (4)
- August 2018 (3)
- July 2018 (2)
- June 2018 (4)
- May 2018 (3)
- April 2018 (3)
- March 2018 (2)
- February 2018 (2)
- January 2018 (1)
- December 2017 (1)
- November 2017 (2)
- October 2017 (2)
- September 2017 (1)
- August 2017 (2)
- July 2017 (2)
- June 2017 (1)
- April 2017 (3)
- March 2017 (3)
- February 2017 (2)
- January 2017 (2)
- December 2016 (2)
- November 2016 (4)
- October 2016 (4)
- September 2016 (3)
- August 2016 (6)
- July 2016 (4)
- June 2016 (4)
- May 2016 (1)
- April 2016 (3)
- March 2016 (4)
- February 2016 (2)
- January 2016 (4)
- December 2015 (3)
- November 2015 (3)
- October 2015 (1)
- September 2015 (1)
- August 2015 (4)
- July 2015 (6)
- June 2015 (4)
- May 2015 (7)
- April 2015 (6)
- March 2015 (6)
- February 2015 (4)
- January 2015 (3)
CONNECT WITH US
Tag Archives: Maintenance Programs
Production involves different processes that run concurrently or independently, with operators and technicians handling several tasks at one go. They monitor the working conditions of machinery and the quality of products. As such, plant floors are ever busy, making safety a priority for companies. They establish and enforce safety regulations to enhance the consistency of processes, eliminate workplace injuries and minimize breakdowns.
Human error is among the leading causes of plant floor accidents leading to workplace injuries, equipment and product damage, pollution (non-compliance) and death. Human errors may arise from fatigue, slips and lapses, psychological stress, technical mistakes, or violation of safety regulations. Reducing human error and accidents on the plant floor goes beyond establishing a safety mindset among employees. Below are tips for reducing human errors and accidents on the plant floor.
1. Automate processes
There are several automation technologies for improving the consistency and accuracy of processes while minimizing human intervention. They range from basic control systems for starting, sequencing and stopping production to complex robots with artificial intelligence which perform repetitive tasks without fatigue. Conveyors and autonomous mobile robots replace forklifts for material handling, transporting large loads. Advanced robots have visual guides to enable them to navigate obstacles, thereby reducing plant floor collisions.
Automation systems are programmed to perform tasks following specific procedures, leaving no room for errors. They are equipped with automatic safety switches to stop processes when production conditions are violated. Automation reduces operator exposure to moving equipment parts and improves material handling.
Computerized Maintenance Management Systems (CMMS) are platforms for automating maintenance workflows. Companies upload equipment safety information, manuals and standard checklists that outline maintenance activities and intervals. Technicians navigate CMMS programs on mobile devices, allowing them to access accurate maintenance information promptly. CMMS solutions reduce maintenance mistakes and standardize operations, guaranteeing uniformity.
2. Develop standard operating procedures
The human factor in production means that individuals may skip or modify procedures to complete tasks faster. In some cases, the company provides mismatched safety and operational policies, breeding confusion during implementation. The incoherence of policies and ambiguity of procedures lead to more errors, more accidents and frequent production stops.
Companies need to compile all procedures in a single document, providing detailed instruction for accomplishing each task on the production floor. Standard Operating Procedures (SOP) increase the consistency of floor operations while leaving little or no room for errors. These documents use straightforward language to outline step-by-step guidelines, reducing the misinterpretation of policies.
Technicians de-energize production equipment when performing routine or emergency maintenance. To protect technicians and equipment, companies use equipment-specific lockout tagout (LOTO) procedures. They outline how to shut down processes, block energy sources during maintenance, tag equipment under repairs, startup procedures after maintenance and authorization protocols. In case of a technical mistake or unplanned re-energization of the system, lockout devices block the hazardous energy and signal technicians of impending danger. They halt the repair process and resume once they remove the hazard.
3. Audit facilities and perform conclusive root cause analysis
Equipment design and plant floor layout contribute to accidents. Proper arrangement of production equipment facilitates seamless continuity of processes while enhancing the safety of employees. When designing plant floor equipment, companies should consider ergonometrics. Equipment should be sized appropriately, fitted with protective safety guards and emergency switches. The plant floor should have adequate lighting, clearly marked walkways and visible safety signs.
Frequent facility audits enable companies to identify flaws on the production floor that escalate human errors. They inspect all machinery, check maintenance records and verify compliance of processes to internal and statutory regulations. Through facility audits, companies identify accidents that occur frequently and their causes. Insights from these audits facilitate future optimization plans, focusing on minimizing the impact of human errors in the production process.
Facilities may fail to investigate minor accidents since some operators or technicians underreport or disregard them. However, it is prudent that companies develop an accident reporting format that captures any incident irrespective of its magnitude. Accident reports enable companies to perform conclusive root cause analysis for the elimination of inherent hazards. Results of root cause analysis can be used to tailor safety training.
4. Conduct extensive staff training
Hiring a pool of skilled employees is not sufficient surety that human errors and accidents will happen. Over time, plant floor operations overwhelm the employees as they struggle to hit production targets amid other personal distractions. Companies upgrade machinery and adopt newer technologies as they strive to improve productivity and enhance compliance. Staff training is a continuous process that companies utilize to strengthen the technical capabilities of staff, introduce and explain safety policy changes and the consequences of non-compliance.
Through on-the-job maintenance training programs, technicians gain invaluable skills in troubleshooting and correcting equipment defects within a short time without errors. Technicians become aware of the safety procedures and understand how to exploit technological tools and protective equipment to eradicate plant floor accidents. Companies use training programs to equip operators with fundamental machinery diagnosis and care skills for identifying and correcting minor errors independently.
Final Thoughts
Reducing human errors on the plant floor is a collective responsibility that requires proactive action by staff and the management. The company provides correct work tools, trains staff, and guarantees the safety of facilities. Employees should follow safety regulations, report defects and accidents, use machinery correctly and adhere to standard operating procedures.
*This article is written by Bryan Christiansen. Bryan is the founder and CEO of Limble CMMS. Limble is a modern, easy-to-use mobile CMMS software that takes the stress and chaos out of maintenance by helping managers organize, automate, and streamline their maintenance operations.
