JING SHEN, M.D.
Medical Practice in Houston, TX

2013006, Mar 21, 2013

Jun 1, 2011

13/636294

Christopher M. Jones - Houston TX, US
Michael T. Pelletier - Houston TX, US
Jing Shen - Houston TX, US
Marian L. Morys - Downingtown PA, US

Halliburton Energy Services, Inc. - Houston TX

E21B 47/10

250253, 2524081

Logging systems and methods that employ nanosensors to obtain spectral measurements downhole. The nanosensors can be dispersed in borehole fluids (including cement slurries) that circulate, diffuse, or get injected in a borehole. Because the nanosensors have diameters on the order of nm to nm, they readily penetrate into cracks, pores, and other voids where their carrier fluids can reach. The nanosensors transport light sources and recording media to measure spectra in these otherwise inaccessible regions. The nanosensors are then recovered and analyzed to reconstruct the measured spectra and determine relevant material characteristics. Among other things, spectral measurements can reveal the presence of certain elements and molecules in the formation and fluids, from which information scientists determine composition and phases of formation fluids and the formation itself. Certain triggering criteria may also be employed to enable the nanosensor measurements to be associated with specific locations, paths, and/or events.

2014004, Feb 13, 2014

Feb 11, 2011

13/984813

Jing Shen - Houston TX, US
Christopher Michael Jones - Houston TX, US
Michael T. Pelletier - Houston TX, US

Halliburton Energy Services Inc. - Houston TX

G01N 21/25

25033912

A method of using spectroscopic envelopes for determining components in a sample may include selecting spectroscopic envelopes and passing input light through a sample comprising at least one absorbing component is provided. The method includes measuring throughput light with a photo-detector and determining the concentration of the at least one absorbing component in the sample using the measured throughput, wherein at least one of the plurality of spectroscopic envelopes overlaps at least one absorption band of the at least one absorbing component in the sample. An apparatus for determining components in a sample including an input light source having a spectrum and a sample container having a fixed optical path-length is also provided. The apparatus may include a plurality of pre-selected spectroscopic envelopes to select spectral portions of the throughput light from the sample; and at least one photo-detector to measure the throughput light selected by the spectroscopic envelopes.

2013005, Mar 7, 2013

May 21, 2010

13/520558

Jing Shen - Houston TX, US
Christopher M. Jones - Houston TX, US
Michael T. Pelletier - Houston TX, US
Robert Atkinson - Richmond TX, US
Mark Proett - Missouri City TX, US

HALLIBURTON ENERGY SERVICES, INC. - Houston TX

G01V 8/12

2502691

The present invention relates to a method for measuring the characteristics of a downhole fluid. The method for measuring the characteristics of a downhole fluid includes passing a downhole fluid sample through an analyzer, analyzing the downhole fluid sample by illuminating the downhole fluid sample with light from a light source and detecting light that interacts with the fluid sample. The method is applicable to detecting carbon dioxide and/or hydrogen sulfide directly in a downhole environment.