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David Frankman
David Frankman
Sustainable Energy Solutions
Verified email at SESinnovation.com
Title
Cited by
Cited by
Year
Measurements of convective and radiative heating in wildland fires
D Frankman, BW Webb, BW Butler, D Jimenez, JM Forthofer, P Sopko, ...
International Journal of Wildland Fire 22 (2), 157-167, 2012
1272012
Prediction and validation of external cooling loop cryogenic carbon capture (CCC-ECL) for full-scale coal-fired power plant retrofit
MJ Jensen, CS Russell, D Bergeson, CD Hoeger, DJ Frankman, ...
International Journal of Greenhouse Gas Control 42, 200-212, 2015
892015
Time-resolved radiation and convection heat transfer in combusting discontinuous fuel beds
D Frankman, BW Webb, BW Butler
Combustion Science and Technology 182 (10), 1391-1412, 2010
402010
Theoretical and experimental analysis of dynamic plate heat exchanger: non-retrofit configuration
E Ebrahimzadeh, P Wilding, D Frankman, F Fazlollahi, LL Baxter
Applied Thermal Engineering 93, 1006-1019, 2016
222016
Theoretical and experimental analysis of dynamic heat exchanger: Retrofit configuration
E Ebrahimzadeh, P Wilding, D Frankman, F Fazlollahi, LL Baxter
Energy 96, 545-560, 2016
212016
The effect of sampling rate on interpretation of the temporal characteristics of radiative and convective heating in wildland flames
D Frankman, BW Webb, BW Butler, D Jimenez, M Harrington
International journal of wildland fire 22 (2), 168-173, 2012
182012
Fine fuel heating by radiant flux
D Frankman, BW Webb, BW Butler, DJ Latham
Combustion Science and Technology 182 (2), 215-230, 2010
172010
Investigation of lightpipe volumetric radiation effects in RTP thermometry
DJ Frankman, BW Webb, MR Jones
152006
Radiation and convection heat transfer in wildland fire environments
DJ Frankman
Brigham Young University, 2009
122009
Field testing of cryogenic carbon capture
A Sayre, D Frankman, A Baxter, K Stitt, L Baxter
Carbon Management Technology Conference, CMTC-486652-MS, 2017
102017
Cryogenic carbon capture development
LL Baxter, A Baxter, E Bever, S Burt, S Chamberlain, D Frankman, ...
National Energy Technology Laboratory: Pittsburgh, PA, USA, 2019
82019
Method for separating solids suspended or entrained in a liquid
L Baxter, A Baxter, D Frankman, S Chamberlain, K Stitt
US Patent 10,329,182, 2019
72019
Influence of absorption by environmental water vapor on radiation transfer in wildland fires
D Frankman, BW Webb, BW Butler
Combustion Science and Technology 180 (3), 509-518, 2008
62008
Cryogenic Carbon Capture Development Final
LL Baxter, A Baxter, E Bever, S Burt, S Chamberlain, D Frankman, ...
Technical Report [Internet]. Sustainable Energy Solutions, Orem, UT (United …, 2019
52019
Integrated rapid response energy storage with CO2 removal
MJ Jensen, D Bergeson, D Frankman, LL Baxter
PowerGen International, Orlando, FL, 2012
52012
Recent cryogenic carbon capture™ field test results
D Frankman, S Burt, E Beven, D Parkinson, C Wagstaff, W Roberts, ...
Proceedings of the 15th Greenhouse Gas Control Technologies Conference, 15-18, 2021
42021
Circulating fluidized bed connected to a desublimating heat exchanger
L Baxter, A Baxter, E Mansfield, A Sayre, K Stitt, C Hoeger, S Burt, ...
US Patent 10,465,984, 2019
42019
Method for separating components using solids producing multi-stage direct and indirect-contact exchange
L Baxter, C Hoeger, S Burt, K Stitt, E Mansfield, A Sayre, D Frankman, ...
US Patent 10,543,456, 2020
32020
Method for preventing fouling of a demister
L Baxter, A Baxter, K Stitt, A Sayre, S Burt, D Frankman, N Davis
US Patent 10,537,828, 2020
32020
Methods For Negating Deposits Using Cavitation Induced Shock Waves
L Baxter, D Frankman, A Sayre, N Davis
US Patent App. 15/440,343, 2018
32018
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