Environment & Safety Gas Processing/LNG Maintenance & Reliability Petrochemicals Process Control Process Optimization Project Management Refining

Petrochemicals

Surviving turbulent times requires deep management changes

Transmar Consult Inc.: Chevriere, J. P.
Daily Thermetrics: Daily, A.

The Stone Age did not end due to a stone shortage. The Conventional Oil Age was not eclipsed by vanishing traditional oil and gas resources. The Shale Revolution unleashed an era of abundant, new unconventional oil and gas supplies.

Inspection: Best practices for inspecting guyed structures

Contributing Editor: Anwer, A.

Guyed structures are common in petrochemicals, oil and gas and chemical industries. Half of the installed flare structures at many facilities are guyed. Various routine inspection programs are in place to examine these structures. This work describes some very basic checks, which should be in place to maintain their mechanical integrity.

Digitalization: Maximize assets with a digital investment framework for oil and gas

EY Oil and Gas, Ernst & Young LLP: Shong, F.  |  Chung, W.  |  Thapar, R.

Oil and gas investments are diversifying as the industry leans toward a more digitally conducive environment. Asset analysis was initially evaluated based on an asset’s technical parameters, pricing and operationality. In this new digital world, however, variables such as service quality, innovation, compliance, flexibility and scalability require quantification. Refinery data continues to be critical to evaluate investments, but is often incomplete.

Construction

Hydrocarbon Processing Staff: Nichols, Lee

Total plans to take a final investment decision (FID) on the Nigeria LNG expansion project by the end of this year. If greenlighted, the 7-MMtpy LNG train would increase the Bonny Island LNG terminal’s capacity to nearly 30 MMtpy. If built, Train 7 is expected to be operational by 2023.

Industry Perspectives: There’s still time to vote for the best!

Hydrocarbon Processing Staff: Nichols, Lee

The nominees for the 2019 Top Project awards are out. Using <i>Hydrocarbon Processing’s</i> Construction Boxscore Database, the editors have identified nine projects that are anticipated to significantly impact the global or regional downstream industries.

Editorial Comment: Honoring the industry’s best … take 2!

Hydrocarbon Processing Staff: Nichols, Lee

Due to Tropical Storm Imelda, Hydrocarbon Processing issued its first force majeure in postponing the third annual HP Awards.

When digital transformation hits all four sustainability buckets

Aspen Technology: Morse, P.

Sustainability is emerging as a critical business topic, as many companies focus resources toward lowering emissions, waste and energy use in their production processes. This important concept can apply broadly to company operations, especially when considering the expansive view of the triple bottom line that measures the impact of company operations on profits, people and the planet.

Diversifying the future: Incentives for worldwide adoption of renewable fuels and chemicals—Part 2

Bio-based, renewable fuels and chemicals can reduce the environmental footprint of maintaining global transportation and product demands, while also offering supplementation of traditional fossil fuels in a global environment with increasing energy demand. The renewable energy sector is large and growing rapidly.

FCC catalyst deactivation studies to mimic refinery conditions for high-propylene applications

The fluid catalytic cracking unit (FCCU) is a conversion unit located at the heart of many refineries. Its main purpose is to crack crude oil-derived feedstocks into valuable liquid products, primarily LPGs (propylene and butylenes), and gasoline and light-cycle oil (LCO) precursors. The process uses a fluidizable catalyst, comprising an alumina-silica framework and tailored for each refinery to meet its specific needs. Often, the changing of a catalyst includes catalyst testing evaluations, employed by about 50% of the FCCUs in the world. The testing process is cumbersome, in which multiple methods are available to refineries.

Unlocking FCC potential with an innovative catalyst solution

W. R. Grace: Tavares, T.

In 2010, a JV embarked on the deployment of a MHY zeolite technologyb developed at the Massachusetts Institute of Technology. This novel zeolite technology improves traditional zeolite catalysts through the introduction of highly interconnected channels of medium pore size, which enhance diffusion of feed molecules inside zeolite crystals, leading to higher-value product yields, improved process efficiency and increased refinery profitability.