Diesel Hydrodesulfurization and its Impact on the Fuel Market in Ecuador: A Review

Paola Toro, Jordan Casierra, Ernesto Bastardo, Marvin Ricaurte
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Abstract

This article examines the hydrodesulfurization process used to produce diesel with low sulfur content in Ecuador. The analysis covers the level of processing in the country, the quality of domestic diesel compared to other nations, and the technical and economic requirements of the process. It also explores the need to modify or upgrade catalysts to achieve deep hydrodesulfurization.. Unfortunately, the review found that sulfur content in Ecuadorian deposits is very high, with 3.53 MMkg produced in 2018. Despite improvements in the country’s refineries, diesel sulfur content has only been reduced to 110 ppm.. Ecuador regulates sulfur emissions through the Ecuadorian standard NTE INEN-1489 (2012). This norm classifies the fuel into three types, diesel #1 (3000 ppm), diesel #2 (7000 ppm), and premium diesel (500 ppm), following the use of diesel both in the industrial and transportation sectors. However, Ecuador seeks to adjust to countries with stricter regulations, such as the European Union. The standard that regulates sulfur emissions in this community is Euro VI, which limits the concentration to 10 ppm. One of the challenges in achieving international standards in the hydrodesulfurization units of the Ecuadorian refineries is to modify or improve the catalytic systems. Trimetallic catalysts, both supported and unsupported, can help overcome this challenge by decomposing the refractory molecules (e.g., dibenzothiophene and 4,6-dimethyldibenzothiophene) found in deep hydrodesulfurization. These catalysts can handle molecules that commonly used catalysts such as CoMo or MoW cannot. Therefore, proposals such as using trimetallic catalysts to achieve deep hydrodesulfurization levels are techno-economic options for Ecuador. Keywords: diesel, sulfur, Ecuador, hydrodesulfurization, refineries, catalyst.
厄瓜多尔柴油加氢脱硫及其对燃料市场的影响
本文考察了厄瓜多尔生产低硫含量柴油的加氢脱硫工艺。分析内容包括国内的加工水平、国内柴油与其他国家相比的质量以及加工过程的技术和经济要求。探讨了对催化剂进行改性或升级以实现深度加氢脱硫的必要性。不幸的是,审查发现厄瓜多尔矿床的硫含量非常高,2018年产量为3.53百万公斤。尽管该国的炼油厂有所改善,但柴油的含硫量仅降至110 ppm。厄瓜多尔通过厄瓜多尔标准NTE INEN-1489(2012)规范硫排放。该标准将燃料分为三种类型,柴油#1 (3000 ppm),柴油#2 (7000 ppm)和优质柴油(500 ppm),在工业和运输部门使用柴油。然而,厄瓜多尔试图适应法规更严格的国家,如欧盟。管理这个社区硫排放的标准是欧六,将浓度限制在10ppm。厄瓜多尔炼油厂加氢脱硫装置要达到国际标准所面临的挑战之一是修改或改进催化系统。负载型和非负载型三金属催化剂可以通过分解深度加氢脱硫中的难降解分子(如二苯并噻吩和4,6-二甲基二苯并噻吩)来帮助克服这一挑战。这些催化剂可以处理常用催化剂如CoMo或MoW不能处理的分子。因此,使用三金属催化剂实现深度加氢脱硫等建议是厄瓜多尔的技术经济选择。关键词:柴油,硫,厄瓜多尔,加氢脱硫,炼油厂,催化剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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