Publications

2020

O. Elishav, B. Mosevitzky Lis, E.M. Miller, D.J. Arent, A. Valera-Medina, A. Grinberg Dana, G.E. Shter, G.S. Grader, Progress and Prospective of Nitrogen-Based Alternative Fuels, Chem. Rev. 2020, 120(12), 5352-5436.

 

2019

A. Grinberg Dana, M. Liu, W.H. Green, Automated Chemical Resonance Generation and Structure Filtration for Kinetic Modeling, International Journal of Chemical Kinetics 2019, 51(10), 760-776.

A. Grinberg Dana, K.B. Moore, A.W. Jasper, W.H. Green, Large Intermediates in Hydrazine Decomposition: A Theoretical Study of the N3H5 and N4H6 Potential Energy Surfaces, The Journal of Physical Chemistry A 2019, 123(22), 4679-4692.

 

2018

H. Zhao, A. Grinberg Dana, Z. Zhang, W.H. Green, Y. Ju, Experimental and modeling study of the mutual oxidation of n-pentane and nitrogen dioxide at low and high temperatures in a jet stirred reactor, Energy 2018, 165(B), 727-738.

A. Grinberg Dana, B. Buesser, S.S. Merchant, W.H. Green, Automated Reaction Mechanism Generation Including Nitrogen as a Heteroatom, International Journal of Chemical Kinetics 2018, 50(4), 243-258.

A. Naor, D. Michaels, A. Grinberg Dana, Automatic generation of reduced chemical mechanisms of liquid aviation fuels for application in combustion dynamics computations, 56th AIAA Aerospace Sciences Meeting, AIAA SciTech Forum, (AIAA 2018-0138) 2018.

 

2017

A. Grinberg Dana, S. Gudiyella, W.H. Green, S.J. Shanbhogue, D. Michaels, N.W. Chakroun, A. Ghoniem, Automated Generation of Chemical Mechanisms for Predicting Extinction Strain Rates with Applications in Flame Stabilization and Combustion Instabilities, 55th AIAA Aerospace Sciences Meeting, AIAA SciTech Forum, (AIAA 2017–0835) 2017.

 

2016

M. Starostin, A. Grinberg Dana, O. Dinner, G.E. Shter, G.S. Grader, High-Temperature Corrosion of Stainless Steels and Ni Alloys During Combustion of Urea–Ammonium Nitrate (UAN) Fuel, Oxidation of Metals 2016, 87(1-2), 39–56.

A. Grinberg Dana, O. Elishav, A. Bardow, G.E. Shter, G.S. Grader, Nitrogen-based fuels: A power to fuel to power analysis, Angewandte Chemie 2016, 55, 8798–88058.
Highlighted in: ChemInform 2016, 47(38)

A. Grinberg Dana, B. Mosevitzky, G. Tvil, M. Epstein, G.E. Shter, G.S. Grader, Flow reactor combustion of aqueous urea ammonium nitrate fuel, Energy & Fuels 2016, 30, 2474–2477.

B. Mosevitzky, A. Grinberg Dana, G.E. Shter, G.S. Grader, Combustion simulations of aqueous ammonium nitrate monofuel at high pressures, Combustion and Flame 2016, 166, 295–306.

A. Grinberg Dana, G.E. Shter, G.S. Grader, Nitrogen-based alternative fuel: Progress and future prospects, Energy Technology 2016, 4(1), 7–18 (A Review Paper).

 

2015

A. Grinberg Dana, G.E. Shter, G.S. Grader, Nitrogen-based alternative fuel: Safety considerations, Energy Technology (Special Issue on Energy Science and Technology) 2015, 3(9), 976–981. (Selected by the publisher as one of the top 10 articles of 2015, based upon downloads and citations).

A. Grinberg Dana, G. Tvil, L. Winter, G.E. Shter, G.S. Grader, Pressure effect on the combustion of aqueous urea ammonium nitrate alternative fuel, Fuel 2015, 159, 500–507.

B. Mosevitzky, A. Grinberg Dana, G.E. Shter, G.S. Grader, Validation of an aqueous UAN alternative fuel combustion mechanism, 7th European Combustion Meeting 2015.

A. Grinberg Dana, O. Elishav, G.E. Shter, G.S. Grader, Nitrogen-based alternative fuel for sustainable chemical hydrogen storage, Ecology and the Environment 2015 (In Hebrew).

A. Grinberg Dana, G.E. Shter, G.S. Grader, Nitrogen-based alternative fuel, The Israeli Institute for Energy and the Environment 2015 (In Hebrew).

 

2014

A. Grinberg Dana, M. Starostin, G.E. Shter, A. Buk, O. Dinner, G.S. Grader, Metal corrosion screening in a nitrogen-based fuel at high temperature and pressure, Oxidation of Metals 2014, 82(5-6), 491–508.

A. Grinberg Dana, G.E. Shter, G.S. Grader, Thermal analysis of aqueous urea ammonium nitrate alternative fuel, RSC Advances 2014, 4(66), 34836–34848.

A. Grinberg Dana, G.E. Shter, G.S. Grader, Nitrogen-based alternative fuel: an environmentally friendly combustion approach, RSC Advances 2014, 4(20), 10051–10059.