Using Single-molecule Imaging System Combined with Nano-fluidic Chip to Understand Fluid Flow in Tight and Shale Gas Formation

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Project Annual Report-09122-29-Year1 Report - Tight sand and shale gas exist in underground reservoirs with a micro-Darcy (µD) range of permeability and are characterized by nanosized pore throats and crack-like interconnections between pores. The flow of gas and introduced fluid, such as hydraulic fracturing fluid, in these fractures is not well understood. The current study will help to address this problem.

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Baojun Bai, et. Al., Missouri University of Science and Technology ---- Roy Long, Using Single-molecule Imaging System Combined with Nano-fluidic Chip to Understand Fluid Flow in Tight and Shale Gas Formation, 2016-09-29, https://edx.netl.doe.gov/dataset/using-single-molecule-imaging-system-combined-with-nano-fluidic-chip-to-understand-fluid-flow-in-ti

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Last Updated	September 29, 2016, 23:11 (LMT)
Created	September 29, 2016, 23:11 (LMT)
Citation	Baojun Bai, et. Al., Missouri University of Science and Technology ---- Roy Long, Using Single-molecule Imaging System Combined with Nano-fluidic Chip to Understand Fluid Flow in Tight and Shale Gas Formation, 2016-09-29, https://edx.netl.doe.gov/dataset/using-single-molecule-imaging-system-combined-with-nano-fluidic-chip-to-understand-fluid-flow-in-ti
Netl Product	yes
Poc Email	Roy.long@netl.doe.gov
Point Of Contact	Roy Long
Program Or Project	KMD
Publication Date	2012-2-19

Using Single-molecule Imaging System Combined with Nano-fluidic Chip to Understand Fluid Flow in Tight and Shale Gas Formation

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