Professor 吉优ff Wang (王国雄教师),煤层气能源与成

来源:http://www.minidronereview.com 作者:走进科学 人气:196 发布时间:2019-10-14
摘要:告诉标题:Fracture flow simulation with Lattice Boltzmann Method forcoalbed methane recovery 时间: 2018年8月17日上午8:30-11:40 报告人:Professor 吉优ff Wang (王国雄教师) 地点: 煤层气能源与成藏进度教育部

告诉标题:Fracture flow simulation with Lattice Boltzmann Method for coalbed methane recovery

时间:2018年8月17日上午8:30-11:40

报告人:Professor 吉优ff Wang (王国雄教师)

地点:煤层气能源与成藏进度教育部重要实验室319房间

时间:12月11日下午3:00

主办方:煤层气能源与成藏进程教育部重要实验室

地址:煤层气财富与成藏过程教育部主要实验室319室(中夏族民共和国矿业高校文昌校区西门对面中汇3层)

Effect of gas sorption-induced swelling/shrinkage on coal permeability and cleat compressibility (Prof. Geoff Wang)

图片 1报告人简要介绍:吉优ff Wang王国雄, 澳洲昆士兰洲大学学化理高校教授,昆士兰大学工程及建筑设计和电子、音信学部应用商讨与搭档主任,宝山钢铁集团-澳国联合研究开发中央实践领导。一九九零年毕业于东哈工高校获大学生学位后下车于马赛戏剧大学教师、副教授,曾任中夏族民共和国金属学会炼铁学会管事人。1995年九月澳洲新南Will高校访谈教,一九九八年一月加盟昆士兰高校。

Wettability and Relative Permeability in Coal (Dr. Thomas Rufford)

王国雄助教主要从事化学工业、冶金财富及条件方面包车型地铁支付与研讨职业,包括煤转化和煤层气开拓与运用、二氧化碳减排、冶金新本领开荒、及相关的数值模拟和模型、软件开辟。王国雄教师已出版专著一部,在每一种国际期刊杂志宣布诗歌120余篇,会研商文近100篇, 以致2项专利本事。除与东武高校,中南高校和博洛尼亚科技高校在冶金质感和冶金节减世界同盟外,他还遥遥无期与中华夏族民共和国矿业高校/西安武大/甘肃理艺术大学在煤和煤层气开拓应用及二氧化碳减排与积攒调查研讨领域树立了广大的通力协作。

LBM Simulation of coal bed methane migration (Dr. Yuhua Chen)

近日几年, 王国雄助教经过宝山钢铁集团-澳国联合研发中央打响地与中华特大型工企开展了约。项合作还将持续府和昆士兰地方当局配套的研究开发花费超越600ds , and三十八个门类的合营, 获得工企直接的研究开发投资抢先2,000万英镑, 以至澳大坎Pina斯(Australia)联邦当局和昆士兰地点当局配套的研究开发资金近800万法郎。

In situ stress regime in coal reservoirs, eastern Yunnan region, South China: Implications for coalbed methane production (Dr. Wei Ju)

Seminar Abstract:This seminar will present a lattice Boltzmann method based fracture model which was developed to compute permeability of coal at the microscopic level. Factors that influence permeability of coal will also be investigated using this model. Two methods to be discussed to generate the fracture structure of coal for modelling. For method one, a multi-parameter random generation-growth method will be introduced to construct the complex microstructure of coal. The other method uses non-destructive measurements such as scanning electron microscopy or micro-computed tomography scanning to describe the interior structure of coal. With this LBM model the fluid flows in the coal fracture can be simulated. As a result, the velocity and pressure distributions of the flow through the pores or fractures in coal rock at the different stages can be obtained accurately. The simulation results also provide the numerical information for investigating the permeability of porous materials, both locally and in the overall, which could not be measured even by costly experiments otherwise.

Characteristizing nanoscale pores and its structure in high rank coal (Mr. Difei Zhao)

款待全校广大师生参预!

Advance of CO2-ECBM practices in coalbed methane well groups in our group (Dr. Jian Shen)

煤层气能源与成藏进度教育部重大实验室

能源与地球科学大学

2017年12月11日

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