Environment & Safety
Global Project Data
According to <i>Hydrocarbon Processing</i>’s Construction Boxscore Database, there are nearly 470 active refining projects around the globe.
Editorial Comment: The reemergence of a collaborative platform
Readers have witnessed that throughout the life of the publication, <i>Hydrocarbon Processing</i> has always published information on new technologies to increase efficiency, safety and profitability in downstream processing operations, while introducing techniques to decrease environmental footprint and emissions and produce high-quality, clean fuels and petroleum products for consumers around the world.
Tackle safety and environmental challenges for storage tank operators
Recent storage tank and industrial plant explosions around the world bring into focus the importance of engineering and building standards.
Process safety as a profit center?
In today’s economic environment, new capital spending is harder to find than loose change buried under the couch cushions.
Hydrocarbon Processing Awards
<i>Hydrocarbon Processing,</i> the downstream processing sector’s leading technical publication, has announced the winners for its second annual awards.
Corrosion impact of the mixture of butanol-blended gasoline
The role of octane boosters on the corrosivity of petroleum products for gasoline/diesel engines has attracted more attention in the auto fuel market due to the depletion of fossil fuels in the world’s feedstock.
Getting onboard with modernization
While electrical equipment typically has a lengthy lifespan, it is not meant to last, or be relevant, forever.
A game-changing approach to furnace safeguarding
This work is a follow-up article to “Automate furnace controls to improve safety and energy efficiency,” which was published in the June 2014 edition of <i>Hydrocarbon Processing.</i>
Technical considerations for the Heydar Aliyev refinery revamp
The following case study describes the early development phases of SOCAR’s ongoing major revamp project at the Heydar Aliyev Refinery (HAR) in Baku, Azerbaijan, and its interface with the associated Azerikimya (AZK) steam cracking complex near Sumgait. References are made to the related SOCAR polymer project in Sumgayit, as well.
Additive solutions to SOx emissions in FCCUs
Sulfur oxide additives are typically based on hydrotalcite or magnesium aluminate spinel-type structures. Magnesium alumina is the pickup agent present in the most effective SO<sub>x</sub> additives on the market; therefore, to optimize SO<sub>x</sub> reduction, it is critical to maximize the amount of the critical magnesium component in the fluid catalytic cracking unit (FCCU) in an efficient and cost-effective way.
- WinGD secures world-first ethanol-fueled engine orders for ocean-going ships 5/19
- Aster to invest $80 MM to expand ethylene export capacity at complex in Singapore 5/19
- Energy Transfer withdraws air permit application for $1.8-B petrochemical complex in Texas 5/19
- Green eFuels Producers receive financial backing for first-of-its-kind wastewater-to-green-methanol plant 5/19
- Coega awards electrolyzer cell technology deal to Topsoe for $5.8-B South African green ammonia project 5/19
- Tecnofink and CorrosionRADAR partner to bring advanced CUI monitoring solutions to Brazil 5/19
