Steel Manufacturing EAF Dust as a Potential Adsorbent for Hydrogen Sulfide Removal [0.03%]
用钢铁制造电弧炉粉尘作为潜在的吸附剂去除氢硫酸气体
Christian Frilund,Minna Kotilainen,José Barros Lorenzo et al.
Christian Frilund et al.
Electric arc furnace dust (EAFD) is a high-volume steel manufacturing byproduct with currently limited value-added applications. EAFD contains metal oxides that can react with H2S to form stable sulfides. Hence, the valorization potential o...
Improving Fast Pyrolysis Bio-Oil Yield and Quality by Alkali Removal from Feedstock [0.03%]
通过去除原料中的碱来提高快速热解生物油的产率和品质
Elmeri Pienihäkkinen,Christian Lindfors,Taina Ohra-Aho et al.
Elmeri Pienihäkkinen et al.
Alkali removal from forest residues, eucalyptus residues, and wheat straw was studied by water and dilute nitric acid leaching. Leaching parameters were optimized for each feedstock in laboratory-scale experiments. After the optimization of...
Waste Refinery: The Valorization of Waste Plastics and End-of-Life Tires in Refinery Units. A Review [0.03%]
废料炼油厂:塑料废物和报废轮胎在炼油装置中的再利用化。综述
Roberto Palos,Alazne Gutiérrez,Francisco J Vela et al.
Roberto Palos et al.
This review collects a wide range of initiatives and results that expose the potential of the refineries to be converted into waste refineries. Thus, they will use their current units for the valorization of consumer society wastes (waste p...
Leonardo Andreoni,Massimo Baroncini,Jessica Groppi et al.
Leonardo Andreoni et al.
The exploitation of sunlight as a clean, renewable, and distributed energy source is key to facing the energetic demand of modern society in a sustainable and affordable fashion. In the past few decades, chemists have learned to make molecu...
Evaluation of Analysis Methods for Formaldehyde, Acetaldehyde, and Furfural from Fast Pyrolysis Bio-oil [0.03%]
快速热解生物油中甲醛、乙醛和糠醛分析方法的评价
Taina Ohra-Aho,Léon Rohrbach,Jozef G M Winkelman et al.
Taina Ohra-Aho et al.
Fast pyrolysis bio-oil (FPBO), a second-generation liquid bioenergy carrier, is currently entering the market. FPBO is produced from biomass through the fast pyrolysis process and contains a large number of constituents, of which a signific...
Insights into the Reaction Routes for H2 Formation in the Ethanol Steam Reforming on a Catalyst Derived from NiAl2O4 Spinel [0.03%]
NiAl₂O₄尖晶石衍生催化剂上乙醇水蒸气重整制氢反应路径的见解
José Valecillos,Sergio Iglesias-Vázquez,Leire Landa et al.
José Valecillos et al.
This work describes the satisfactory performance of a Ni/Al2O3 catalyst derived from NiAl2O4 spinel in ethanol steam reforming and focuses on studying the prevailing reaction routes for H2 formation in this system. NiAl2O4 spinel was synthe...
Syngas Production in a 1.5 kWth Biomass Chemical Looping Gasification Unit Using Fe and Mn Ores as the Oxygen Carrier [0.03%]
使用铁和锰矿作为氧载体的1.5千瓦生物质化学循环气化系统中的合成气生产
Oscar Condori,Luis Francisco de Diego,Francisco Garcia-Labiano et al.
Oscar Condori et al.
Biomass chemical looping gasification (BCLG) uses lattice oxygen from an oxygen carrier instead of gaseous oxygen for high-quality syngas production without CO2 emissions. In this work, the effect of the main operating variables, such as ox...
Progress on Catalyst Development for the Steam Reforming of Biomass and Waste Plastics Pyrolysis Volatiles: A Review [0.03%]
生物质和废塑料裂解气的水蒸气重整催化剂研究进展综述
Laura Santamaria,Gartzen Lopez,Enara Fernandez et al.
Laura Santamaria et al.
In recent decades, the production of H2 from biomass, waste plastics, and their mixtures has attracted increasing attention in the literature in order to overcome the environmental problems associated with global warming and CO2 emissions c...
Permeability and Porosity Development during the Carbonization of Coals of Different Coking Pressures [0.03%]
不同炼焦压力煤在热解过程中渗透率和孔隙度的演化规律
M Dolores Casal,Elvira Díaz-Faes,Carmen Barriocanal
M Dolores Casal
To obtain a better understanding of the development of coking pressure during the carbonization process, the plastic and semicoke layers of nine coking coals were investigated. The permeability of the plastic layer to the passage of gas and...
Characterization of the Fine Particle Emissions from the Use of Two Fischer-Tropsch Fuels in a CFM56-2C1 Commercial Aircraft Engine [0.03%]
两种费托合成燃料在CFM56-2C1型航空发动机中使用产生细颗粒物排放特征研究
John S Kinsey,William Squier,Michael Timko et al.
John S Kinsey et al.
The fine particulate matter (PM) emissions from the use of two types of Fischer-Tropsch aviation fuels and their 50:50 blends with military JP-8 were quantified as part of the first Alternative Aviation Fuel Experiment (AAFEX). Measurements...