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<h3>Publications - Wood Refinery</h3>

Publications - Wood Refinery

D.A. Mosuli, S. Barghi, C. Xu, and Zhen Fang, Techno-economic analysis of renewable hydrogen production via supercritical water gasification using glucose as a model compound, Editors: Zhen Fang, C. Xu, Near-critical and Supercritical Water and Their Applications for Biorefineries, Springer Book Series – Biofuels and Biorefineries, Publisher

<h3>Hydrogen production by supercritical water gasification of </h3>

Hydrogen production by supercritical water gasification of

Jan 01, 2014 · Catalyst can decrease the reaction temperature and accelerate the reaction to guarantee the technological and economic feasibility of supercritical water gasification and conduct the reaction toward the desired products [15], so catalytic gasification of biomass in supercritical water has received much attention, and the catalyst investigated can roughly be divided into homogenous and

<h3>Effect of Reaction Temperature and Type of Catalyst on </h3>

Effect of Reaction Temperature and Type of Catalyst on

non-catalytic hydrogen production from hog manure using supercritical water partial oxidation, gasification and sequential gasification partial oxidation in a batch autoclave reactor under the pressure of 28 MPa and the hydrogen [19]. 3 tobacco stalk at 500 °C. I Pressure, MPa _ Elliott and his co-workers in NPNL examined wet Temperature. °C

<h3>Life-Cycle Analysis of Water Consumption for Hydrogen Production</h3>

Life-Cycle Analysis of Water Consumption for Hydrogen Production

Updated WCF for hydrogen production via biomass gasification – Accomplishment Gasification/ Tar Reforming. Syngas Cleanup. Reforming /Shift. Pressure Swing Adsorption (PSA) Biomass. Compression. H. 2. Steam System. Cooling water: 62 – 83%. Cooling water WCF of H 2 from biomass gasification: 3.3 – 3.7 gal/kg H 2 0.7 –.0 gallon of water per kg H 1 2

<h3>‪Yanhui Li(李艳辉)‬ - ‪Google  - Google Scholar</h3>

‪Yanhui Li(李艳辉)‬ - ‪Google - Google Scholar

Characteristics of sodium sulfate deposition in hydrogen production from supercritical water gasification: A review Y Zhang, S Wang, W Song, J Yang, T Xu, J Li, C Yang, Y Li International Journal of Hydrogen Energy 44 (56), 29467-29482 , 2019

<h3>Hydrogen Production by Supercritical Water Gasification of </h3>

Hydrogen Production by Supercritical Water Gasification of

environmental problems [1-3]. Supercritical water gasification (SCWG) is an innovative thermo-chemical method for converting biomass and organic wastes into hydrogen-rich gaseous products. SCWG of black liquor has several advantages, for example, compared with other biomass gasification technologies such as air gasification and steam gasification,

<h3>EconPapers: Renewable and Sustainable Energy Reviews</h3>

EconPapers: Renewable and Sustainable Energy Reviews

Jan 22, 2022 · Review of catalytic supercritical water gasification for hydrogen production from biomass pp. 334-343 Y. Guo , S.Z. Wang , D.H. Xu , Y.M. Gong , H.H. Ma and X.Y. Tang A review on adsorption refrigeration technology and adsorption deterioration in physical adsorption systems pp. 344-353

<h3>farid safari | University of Ontario Institute  - Academia.edu</h3>

farid safari | University of Ontario Institute - Academia.edu

A novel process based on supercritical water gasification has been used in this study for co-production of hydrogen and power from sugarcane bagasse as one of the main agricultural wastes of Iran. The cycle of the process was designed first, and then, the thermodynamic equilibrium model of the gasification process was simulated using ASPEN PLUS.

<h3>Machine learning aided supercritical water gasification for </h3>

Machine learning aided supercritical water gasification for

Dec 15, 2021 · Abstract Hydrogen production from wet organic wastes through supercritical water gasification (SCWG) promotes sustainable development. However, it is always time-consuming and expensive to achieve optimal SCWG conditions and suitable catalysts for different wastes to produce H2-rich syngas. Herein, we developed a unified machine learning (ML) framework to predict syngas composition from SCWG

<h3>Supercritical Water Processing Technologies for Environment </h3>

Supercritical Water Processing Technologies for Environment

Sep 18, 2019 · His specialization fields include waste treatment and utilization by supercritical water oxidation, hydrogen production by supercritical water gasification, multiphase flow and heat transfer, innovative technology for conventional energy conversion, and new energy.

<h3>5,600 138,000 175M</h3>

5,600 138,000 175M

Supercritical Water Gasification of Biomass and Organic Wastes 169 3. Engineering problems in supercritical water gasification systems As an innovation biomass processing technology, supercritical water gasification has many new engineering problems, especially because the reaction temperature and pressure are relatively high.

<h3>National Energy Technology Laboratory</h3>

National Energy Technology Laboratory

The activities include coal gasification, hydrogen production and power generation, and carbon sequestration. Technical goals are to complete an industrial demonstration project of 400 MW before 2020. Approx. 2 million metric tons of CO2 to be captured. This is a Chinese-Canadian collaborating project.

<h3>International Research Center for Renewable Energy</h3>

International Research Center for Renewable Energy

He established a demonstration plant for hydrogen production based on coal gasification in supercritical water. He is board member of Chinese society for electrical engineering. He has more than 100 publications indexed by SCI and more than 2700 citations. 7 paper was indexed by ESI (1 hot paper).

<h3>Hydrogen production and heavy metal immobilization using </h3>

Hydrogen production and heavy metal immobilization using

Jan 15, 2021 · High-yield hydrogen production by supercritical water gasification of various feedstocks: alcohols, glucose, glycerol and long-chain alkanes Chem. Eng. Res. Des. , 92 ( 2014 ) , pp. 1834 - 1844 Article Download PDF View Record in Scopus Google Scholar

<h3>Hydrogen from Biomass - NREL</h3>

Hydrogen from Biomass - NREL

• Gasification gas conditioning: The key to hydrogen utilization is fuel cell applications, so product purity requirements for the fuel cell will drive the gas purity requirements of all production systems. In gasification, the presence of hydrocarbons and trace levels of

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