Refineries have increased focus on processing unfamiliar opportunity crude oils to improve profitability. However, the introduction of these new crude slates brings uncertainties that can impact refinery operations. One major challenge is crude incompatibility due to asphaltene instability, which affects desalters, emulsion stability, preheat trains and furnace fouling.
For decades, the industry has recognized the importance of tracking asphaltene stability. Suppliers and refineries employ diverse equipment to assess feeds stability including benchtop microscopy and titration equipment. Unfortunately, those methods can require time-consuming offsite laboratory testing.
Now, utilizing a portable, handheld near-infrared (NIR) analyzer, crude oil tanks and other refinery feeds can be assessed for stability and blending suitability with near instantaneous results. NIR spectra from crude oil samples are collected and compared against a database of crudes and crude unit feeds with known asphaltene stability parameters. Asphaltene stability parameters are modeled and reported with a stability assessment.
In the presentation, we will delve into the fundamentals of these available tools, showcasing real-world case studies where they have been successfully applied for crude blends and crude pretreatment to improve and optimize desalter operations and crude preheat train fouling.
Panel:
John Durnin, Marathon Petroleum Corporation
Steve Gill, HF Sinclair
Yangdong Pan, Delek US
Patrick Robinson, PBF Energy Inc.
Operation of a complex refinery process involves keeping the process within varous types of limits. These include safe operating limits, integrity operating windows, machine protection or other reliability limits, and product quality limits. This diverse background panel session from process controls and process safety management explores how to effectively identify these parameters and keep the limits in front of operators using instrumented shutdowns, alarm systems, and other monitoring and alerting software.