Upgrading of fast pyrolysis bio-oils to renewable hydrocarbons using slurry- and fixed bed hydroprocessing

IF 7.2 2区 工程技术 Q1 CHEMISTRY, APPLIED
Niklas Bergvall , You Wayne Cheah , Christian Bernlind , Alexandra Bernlind , Louise Olsson , Derek Creaser , Linda Sandström , Olov G.W. Öhrman
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Abstract

Liquefaction of lignocellulosic biomass through fast pyrolysis, to yield fast pyrolysis bio-oil (FPBO), is a technique that has been extensively researched in the quest for finding alternatives to fossil feedstocks to produce fuels, chemicals, etc. Properties such as high oxygen content, acidity, and poor storage stability greatly limit the direct use of this bio-oil. Furthermore, high coking tendencies make upgrading of the FPBO by hydrodeoxygenation in fixed-bed bed hydrotreaters challenging due to plugging and catalyst deactivation. This study investigates a novel two-step hydroprocessing concept; a continuous slurry-based process using a dispersed NiMo-catalyst, followed by a fixed bed process using a supported NiMo-catalyst. The oil product from the slurry-process, having a reduced oxygen content (15 wt%) compared to the FPBO and a comparatively low coking tendency (TGA residue of 1.4 wt%), was successfully processed in the downstream fixed bed process for 58 h without any noticeable decrease in catalyst activity, or increase in pressure drop. The overall process resulted in a 29 wt% yield of deoxygenated oil product (0.5 wt% oxygen) from FPBO with an overall carbon recovery of 68%.

Abstract Image

利用淤浆和固定床加氢处理将快速热解生物油升级为可再生碳氢化合物
通过快速热解将木质纤维素生物质液化,从而产生快速热解生物油(FPBO),这是一种在寻找化石原料替代品以生产燃料和化学品等方面得到广泛研究的技术。高含氧量、酸性和储存稳定性差等特性极大地限制了这种生物油的直接使用。此外,由于高结焦倾向和催化剂失活,在固定床加氢处理装置中通过加氢脱氧对 FPBO 进行升级具有挑战性。本研究探讨了一种新颖的两步加氢处理概念:使用分散镍钼催化剂的连续淤浆工艺,以及使用支撑镍钼催化剂的固定床工艺。与 FPBO 相比,淤浆工艺产生的油品氧含量降低(15 wt%),焦化倾向相对较低(TGA 残留量为 1.4 wt%),在下游固定床工艺中成功处理了 58 小时,催化剂活性没有明显降低,压降也没有增加。在整个工艺过程中,FPBO 脱氧油产品(氧含量为 0.5 wt%)的产量为 29 wt%,碳回收率为 68%。
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来源期刊
Fuel Processing Technology
Fuel Processing Technology 工程技术-工程:化工
CiteScore
13.20
自引率
9.30%
发文量
398
审稿时长
26 days
期刊介绍: Fuel Processing Technology (FPT) deals with the scientific and technological aspects of converting fossil and renewable resources to clean fuels, value-added chemicals, fuel-related advanced carbon materials and by-products. In addition to the traditional non-nuclear fossil fuels, biomass and wastes, papers on the integration of renewables such as solar and wind energy and energy storage into the fuel processing processes, as well as papers on the production and conversion of non-carbon-containing fuels such as hydrogen and ammonia, are also welcome. While chemical conversion is emphasized, papers on advanced physical conversion processes are also considered for publication in FPT. Papers on the fundamental aspects of fuel structure and properties will also be considered.
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