Electromagnetic Imaging Offers First Look at the Propped Rock

Image courtesy of Carbo Ceramics
Carbo Ceramics created this image of a propped fracture using specially coated proppant stimulated by electromagnetic energy. This image of the heel stage of a ConocoPhillips well in the Delaware Basin is the first use of this method in a working well. Proppant injected: 230,000 lb; maximum length, height, and width: 440 ft, 330 ft, and 240 ft, respectively; propped reservoir volume: 1.4 MMcf.

A series of images that look like yellow lumps on a line are the first-ever images of the area around the wellbore where fractures have been propped open using specially coated proppant stimulated by electromagnetic (EM) energy.

The images created by Carbo Ceramics could represent a milestone on the journey to find an answer to a critical question facing unconventional producers—how much rock is being stimulated and propped with grains of sand or ceramic for maximum production?

“People see the value in this area; they are starved for this,” said Terry Palisch, global engineering adviser for Carbo, who described what is seen in the images as the propped reservoir volume.

Four groups of researchers are seeking a direct way to visualize what is left behind after fracturing. Three of the projects involve getting images by using proppant specially treated to be visible when stimulated by EM energy.

Microseismic images currently used in the industry to show fracturing results are based on the popping sounds of rocks rubbing against each other, like fingers snapping, but not the quiet, productive work of opening fractures and pumping in proppant to ensure they stay open.

“Microseismic doesn’t really tell us where the proppant has gone. It shows where failure events are occurring,” said Mukul Sharma, a petroleum engineering professor at the University of Texas (UT) at Austin. He heads the Hydraulic Fracturing and Sand Control Joint Industry Project (UT Fracturing JIP) at UT, which is leading one of the projects mentioned earlier. “What matters is where the proppant is. In many rocks, the propped part of the fracture is the primary contributor to well productivity. That is the main advantage of electromagnetic (visualization) over microseismic.”

...
This article is reserved for SPE members and JPT subscribers.
If you would like to continue reading,
please Sign In, JOIN SPE or Subscribe to JPT

Electromagnetic Imaging Offers First Look at the Propped Rock

Stephen Rassenfoss, JPT Emerging Technology Senior Editor

18 February 2016

Volume: 68 | Issue: 3

STAY CONNECTED

Don't miss the latest content delivered to your email box weekly. Sign up for the JPT newsletter.