Publications

Patents

Larry L. Baxter. Methods and systems for separating condensable vapors from gases. U.S. Patent 9,250,012, issued February 2, 2016.

Larry L. Baxter. Methods and systems for generating power from a turbine using pressurized nitrogen. US Patent 8,963,347, issued February 24, 2015.

Larry L. Baxter and Christopher S Bence. Systems and methods for separating condensable vapors from gases by direct-contact heat exchange. US Patent 8,764,885, issued July 1, 2014.

Larry L. Baxter. Methods and systems for separating condensable vapors from gases. US Patent 8,715,401, issued May 6, 2014.

Larry L. Baxter. Methods for stable sequestration of carbon dioxide in an aquifer. US Patent 8,646,538, issued February 11, 2014.

Larry L. Baxter. Systems and methods for separating condensable vapors from light gases or liquids by recuperative cryogenic processes. US Patent Application 13/482,980, published November 29, 2012.

Larry L. Baxter. Systems and methods for integrated energy storage and cryogenic carbon capture. US Patent Application 13/657,616, published October 22, 2012.

Larry L. Baxter. Carbon dioxide capture from flue gas. US Patent Application 12/745,193, published November 28, 2008.

Peer-Reviewed Articles

Ebrahimzadeh, Edris and Larry L. Baxter. (2016) Plant-wide control of coupled distillation columns with partial condensers. Applied Thermal Engineering, 102:785–799.

Ebrahimzadeh, Edris, Jacob Matagi, Farhad Fazlollahi, and Larry L. Baxter. (2016) Alternative extractive distillation system for CO2–ethane azeotrope separation in enhanced oil recovery processes. Applied Thermal Engineering, 96:39–47.

Ebrahimzadeh, Edris, Paul Wilding, David Frankman, Farhad Fazlollahi, and Larry Baxter. (2016) Theoretical and experimental analysis of dynamic heat exchanger: Non-retrofit configuration. Applied Thermal Engineering, 93:1006–1019.

Ebrahimzadeh, Edris, Paul Wilding, David Frankman, Farhad Fazlollahi, and Larry L. Baxter. (2016) Theoretical and experimental analysis of dynamic heat exchanger: Retrofit configuration. Energy, 96:545–560.

Safdarnejad, Seyed Mostafa, John D. Hedengren, and Larry L. Baxter. (2016). Dynamic optimization of a hybrid system of energy-storing cryogenic carbon capture and a baseline power generation unit. Applied Energy, 172:66–79.

Baxter, Larry L. (2015) Cornerstone Mag. 3:53–56.

Fazlollahi, Farhad and Larry L. Baxter. (2015) Modeling and analysis of natural gas liquefaction process: Energy storage of cryogenic carbon capture (CCC-ES). EM: Air and Waste Management Association's Magazine for Environmental Managers, 65:28–35.

Fazlollahi, Farhad, Alex Bown, Edris Ebrahimzadeh, and Larry L. Baxter. (2015) Design and analysis of the natural gas liquefaction optimization process-CCC ES™ (energy storage of Cryogenic Carbon Capture™). Energy, 90:244–257.

Fazlollahi, Farhad, Alex Bown, Edris Ebrahimzadeh, and Larry L. Baxter. (2015) Transient natural gas liquefaction and its application to CCC-ES (energy storage with Cryogenic Carbon Capture™). Energy.

Jensen, Mark J., Christopher S. Russell, David Bergeson, Christopher D. Hoeger, David J. Frankman, Christopher S. Bence, and Larry L. Baxter. (2015) Prediction and validation of external cooling loop Cryogenic Carbon Capture (CCC-ECL) for full-scale coal-fired power plant retrofit. International Journal of Greenhouse Gas Control.

Safdarnejad, Seyed Mostafa, John D. Hedengren, and Larry L. Baxter. (2015) Plant-level dynamic optimization of Cryogenic Carbon Capture™ with conventional and renewable power sources. Applied Energy, 149:354–366.

Safdarnejad, Seyed Mostafa, John D. Hedengren, Nichols R. Lewis, and Eric L. Haseltine. Initialization strategies for optimization of dynamic systems. Computers & Chemical Engineering, 2015.

Conference Presentations

Baxter, Larry L., Andrew Baxter, Chris Bence, David Frankman, Chris Hoeger, Aaron Sayre, Kyler Stitt, and Skyler Chamberlain, "Cryogenic Carbon Capture" in "CO2 Summit II: Technologies and Opportunities", Holly Krutka, Tri-State Generation & Transmission Association Inc. Frank Zhu, UOP/Honeywell Eds, ECI Symposium Series. http://dc.engconfintl.org/co2_summit2/12 April 2016.

Fazlollahi, Farhad and Larry L. Baxter. (2014) Comparison of two difference liquefaction models for Cryogenic Carbon Capture™ process. AIChE Annual Meeting, November 2014.

Fazlollahi, Farhad and Larry L. Baxter. (2014) Liquefaction process, energy storage of Cryogenic Carbon Capture™. AIChE Annual Meeting, November 2014.

Fazlollahi, Farhad, Alex Bown, and Larry L. Baxter. (2015) Transient natural gas liquefaction process comparison–dynamic heat exchanger under transient changes in flow. AIChE Annual Meeting, November 2015.

Safdarnejad, Seyed Mostafa, Lindsey Kennington, Larry L. Baxter, and John D Hedengren. (2015) Investigating the impact of Cryogenic Carbon Capture on power plant performance. In 2015 American Control Conference (ACC), 5016–5021. IEEE.

Safdarnejad, Seyed Mostafa, Trent Hall, John D. Hedengren, and Larry L. Baxter. (2014) Dynamic optimization of Cryogenic Carbon Capture™ with large-scale adoption of renewable power. AIChE Annual Meeting, November 2014.

Safdarnejad, Seyed Mostafa, John D. Hedengren, and Larry L. Baxter. (2015) Effect of Cryogenic Carbon Capture™ (CCC) on smart power grids. AIChE Spring Meeting, April 2015.

Safdarnejad, Seyed Mostafa, John D. Hedengren, and Larry L. Baxter. (2015) Reduction in cycling of the boilers by using large-scale energy storage of Cryogenic Carbon Capture™. AIChE Annual Meeting, November 2015.

Baxter, Larry L.. Carbon-negative CO2 management options. In Presentation for GCEP workshop on Energy Supply with Negative Carbon Emissions. http://gcep.stanford.edu/events/workshops_negemissions2012.html June 2012.

Baxter, Larry L., Chris Bence, Stephanie Burt, and Andrew Baxter. (2010) Cryogenic Carbon Capture Status. In Coal: Rising to New Challenges-The Clearwater Clean Coal Conference-The 35th International Technical Conference on Clean Coal & Fuel Systems. June 2010.

Burt, Stephanie Stitt, Andrew Baxter, Chris Bence, and Larry L. Baxter. (2010) Cryogenic CO2 capture for improved efficiency at reduced cost. AICHE 2010 Annual Meeting, November 2010.

Baxter, Larry L., Andrew Baxter, and Stephanie Burt. Cryogenic CO2 Capture as a cost-effective CO2 capture process. International Pittsburgh Coal Conference. September 2009.

Burt, Stephanie, Andrew Baxter, and Larry Baxter. (2009) Cryogenic CO2 capture to control climate change emissions. In Proceedings of the 34th International Technical Conference on Clean Coal & Fuel Systems. May 2009.

PhD Dissertations

Safdarnejad, Seyed Mostafa. (2016) Developing Modeling, Optimization, and Advanced Process Control Frame-works for Improving the Performance of Transient Energy-Intensive Applications. PhD Dissertation, Brigham Young University: Provo.

Fazlollahi, Farhad. (2016) Dynamic Liquefied Natural Gas (LNG) Processing with Energy Storage Applications. PhD Dissertation, Brigham Young University: Provo.

Ebrahimzadeh, Edris. (2016) Mitigating Transients and Azeotropes during Natural Gas Processing. PhD Dissertation, Brigham Young University: Provo. http://scholarsarchive.byu.edu/etd/5880

Jensen, Mark J. (2015) Energy Processes Enabled by Cryogenic Carbon Capture. PhD Dissertation, Brigham Young University: Provo. http://scholarsarchive.byu.edu/etd/5711

Masters Theses

Nielson, Bradley J. (2013) Cryogenic Carbon Capture Using a Desublimation Spray Tower. MS Thesis, Brigham Young University: Provo. http://scholarsarchive.byu.edu/etd/3721

James, David W. (2011) Falling Drop CO2 Deposition (Desublimation) Heat Exchanger for the Cryogenic Carbon Capture Process. MS Thesis, Brigham Young University: Provo. http://scholarsarchive.byu.edu/etd/2930