Curcio, L. E.

Refinery Automation Institute, LLC, Morristown, New Jersey

Lee Eliseo Curcio is a Chemical Engineer, Vice President and CFO at Refinery Automation Institute (RAI). As a blending and optimization specialist, he has worked with RAI for the past 6 yr in the areas of gasoline, diesel and bunker blending, ethanol nonlinear property correlations and octane boost, and naphtha and butane blending. He also teaches the gasoline, diesel and bunker blending optimization section of RAI’s blending public course. As a manager, he is responsible for growing the business, acquiring new customers and managing company cashflow. He worked previously at Catholic University of Louvain in advanced modeling and optimization. He holds BS and MS degrees in chemical engineering with high honors from the University of Calabria, Italy.

Linear vs. nonlinear: Calculate gasoline component properties

Curcio, L. E., Refinery Automation Institute, LLC

The US is the largest “gasoline guzzler” in the world, producing and consuming about 9 MMbpd of gasoline—global production is approximately 45 MMbpd.

Refining: What is blending?

Curcio, L. E., Refinery Automation Institute, LLC

Not a day passes without publications, the blogosphere and pundits wringing their hands over the concept of fuel blending. In today’s low-priced crude oil market, the fuel blending business gives blenders a competitive edge that grows every day, attracting new customers and potential new producers intrigued by the possibility of making “easy” money.

Calculate gasoline RVP seasonal change giveaway economics

Barsamian, A., Curcio, L. E., Refinery Automation Institute, LLC

Despite high demand and depressed refining margins, the US is in the midst of a glut of gasoline. This predicament is causing a rush to convert summer gasoline into cheaper winter gasoline, in the hope that using cheap butane and higher Reid vapor pressure (RVP) specs will increase refining profits.