Abstract
Wastewater treatment is a critical and necessary task every human settlement is obligated to address. If not, the consequences might be catastrophic, not just for humans but for the ecosystems as well, pushing research into finding new ways to improve wastewater treatment processes to make them safer and more efficient. Hence, there is a need to address matters, such as reliability and maintainability of Wastewater Treatment Plants (WWTP), when analyzing the availability and operational conditions. These should be addressed by analyzing the plant operational effectiveness impact (P-OEI), and in this article specifically, a WWTP study case to identify design flaws or improvement opportunities. A vital aspect of a complex system is to determine the contribution to resilience, reliability, and availability of every element embedded in the system. This is performed by adapting and applying the P-OEI methodology and real data of a WWTP located in Chile. This methodology breaks down the system into several levels of disaggregation similar to RBD methodology, analyzing the upstream for availability and the downstream for the P-OEI analysis from the system itself to the individual elements within subsystems. The potential impact on the overall system’s lack of efficiency is also quantified by an Expected Operational Impact (EOI) index, which is also calculated by the methodology. The P-OEI and EOI analyses performed in this study are powerful tools to assess the design and performance of complex systems and WWTP in particular.
Highlights
Water relevance for all aspects of life resides in the several roles it plays on planet Earth from temperature regulation carried by glaciers and the ocean to nutrient transportation within all life forms, no matter how big or small
This paper addresses the potential consequences of equipment ineffectiveness and design flaws on the performance of a wastewater treatment process by further analyzing the effect of failure propagation on RAM indicators of a complex system
The results show that elements with higher plant operational effectiveness impact (P-operational effectiveness impact (OEI)) indexes are the TheSeparator results show that elements with Mixing higher P-OEI
Summary
Water relevance for all aspects of life resides in the several roles it plays on planet Earth from temperature regulation carried by glaciers and the ocean to nutrient transportation within all life forms, no matter how big or small. As human-kind thrives in this and the nearby worlds, they pollute at a dramatical rate, affecting Earth’s ecosystems and even human life; “two million tons of sewage, industrial and agricultural waste is discharged into the world’s waterways and at least 1.8 million children under five years-old die every year from water related disease, or one every 20 s” [1]. This pushes research into finding new and better ways to improve water quality for human consumption whilst minimizing the impact of wastewater produced by human activity. Wastewater treatment processes must be as reliable, effective, and safe as possible
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
