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Development of Carbon Capture Technology Using Microcapsules from Dolomite

9 Nov 2016
Emily Adam
Publishing / Media

Industry news

Researchers at the Lawrence Livermore National Laboratory (LLNL) are using a Dolomite Fluidic Factory to help develop a novel carbon capture technology intended for industrial applications.

Mindy Simon, postdoctoral research associate, explained: “Carbon capture is important for power generation and other heavy industries, reducing the amount of carbon dioxide released into the atmosphere. Here at LLNL, we have developed an innovative microcapsule technology which consists of a highly permeable polymer shell surrounding a CO2-absorbing liquid core. These microcapsules can be loaded into columns which can then be placed into a smoke-stack or other industrial outlet, capturing the CO2 before it is released into the environment.”

“We use microfluidics to manufacture the microcapsules, and initially used custom glass microfluidic chips from Dolomite for this application. However, because we are a research lab, we are constantly tweaking and updating our designs, and manufacturing glass prototypes by hand is both laborious and complex; it’s as much art as science. We wanted a 3D printer to allow rapid prototyping of new microfluidic devices, and our local Dolomite representative told us about the Fluidic Factory. We were immediately interested, and became a beta tester for the system.”

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Atomic Absorption / Emission SpectroscopyAtomic absorption spectroscopy (AAS) and atomic emission spectroscopy (AES) — also called optical emission spectroscopy (OES) — are used to detect the elemental constituents in samples. Both techniques involve the atomization of a sample. Atomic absorption spectrometers may use a flame or furnace to create an atomic vapor of the sample before irradiation with spectral light. Optical emission spectrometers may use a flame, inductively coupled plasma (ICP), microwave plasma (MP) or spark arcs to atomize and excite the sample. At higher excitation energies, electrons can be emitted instead of photons, which can be useful for samples that can’t be atomized and for surface analysis. Explore electron spectroscopy equipment such as Auger spectrometers and photoelectron spectrometers for surface elemental analysis of samples. Find the best atomic absorption, photoelectron and optical emission spectrometers in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Environmental Monitoring and TestingEnvironmental monitoring and testing uses handheld portable analyzers, kits, spectrometers or chromatography systems for air, water, soil, food and other sample testing. Useful features of analyzers such as BOD and COD include portability, easy calibration, automation and sensitivity.  Environmental test kits for pH, water, moisture, etc, should be accurate, sensitive, reliable, fast and easy to use.MicrofluidicsMicrofluidics is the science of manipulating small volumes of fluids in micro-sized channels. It is widely used in diagnostics, drug development, and lab-on-a-chip technologies. Microfluidic devices can enable rapid, cost-effective, and high-throughput analysis of biological samples. Browse our peer-reviewed product directory to find the best microfluidic devices, compare products, check reviews, and get pricing directly from manufacturers.Carbon DioxideEnvironmental AnalysisEnvironmental analysis describes a variety of tests that determine the effect of chemicals, processes and particulates such as persistent organic pollutants (POPs) have on the environment.

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Development of Carbon Capture Technology Using Microcapsules from Dolomite