Environmental Engineering Reference
In-Depth Information
Laboratory, genomicscience.energy.gov/ and genomics.energy.gov/:
This picture was featured on the cover of the report from the March
2008 Workshop, DOE/SC-108, US DOE, Offi ce of Science.
•
Chapter 4:
Introduction to Carbon Capture
: Schwarze Pumpe plant
Brandenburg, Germany.
Reproduced with permission, © Bureau de
Recherches Géologiques et Minières — Vattenfall
.
http://www.brgm.eu/content/geological-storage-co
2
-safety-is-priority
•
Chapter 5:
Absorption
: Bottoms, R.R. (Girdler Corp.), “Separating
acid gases,” U.S. Patent 1783901, 1930.
•
Chapter 6:
Adsorption
: This picture gives an illustration of the zeolite
FAU; the red and white sticks show the Si, O framework and the sur-
face gives the energy of a CO
2
molecule at a particular position.
Prepared by Dr. Richard Martin
.
•
Chapter 7:
Membranes
: The image gives a cross-section of a scan-
ning electron microscopy — micrographs of a functionalized polyani-
line-based composite membranes.
Prepared by Natalia V. Blinova and
Frantisek Svec
.
•
Chapter 8:
Introduction to Geological Sequestration
:
Image from
Curtis M. Oldenburg
.
•
Chapter 9:
Fluids and Rocks
: Scanning electron microscopy (SEM)
images of a sandstone sample from the Cranfi eld CO
2
sequestration
pilot site in Mississippi (6 by 2.4 mm area) with pore space and min-
eralogy identifi ed by electron microscopy and X-ray spectroscopy
techniques.
Images by Landrot, G., J.B. Ajo-Franklin, L. Yang,
S. Cabrini, and C.I. Steefel, 2012. Measurement of accessible reactive
surface area in a sandstone, with application to CO
2
mineralization.
Chemical Geology, 113, 318-319. http://dx.doi.org/10.1016/j.chemgeo.
2012.05.010, reproduced with permission from Elsevier.
•
Chapter 10:
Large-Scale Geological Carbon Sequestration
:
Figure
courtesy of Earth Science Division, LBNL
.
• Chapter 11:
Land Use and Geo-Engineering
:
Earth image courtesy
of NASA
.
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