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Harale, Aadesh
37
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Online (37)
Mediatypes
Articles (Online) (29)
OpenAccess-fulltext (8)
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1
Fuel reforming processes for hydrogen production:
Mokheimer, Esmail Mohamed Ali
;
Shakeel, Mohammad Raghib
;
Harale, Aadesh
..
Fuel. 359 (2024) - p. 130427 , 2024
Link:
https://doi.org/10.1016/..
?
2
Poisonous effect of carbon bearing species on adsorption of..:
Abuelyamen, Ahmed
;
Ben-Mansour, Rached
;
Habib, Mohamed A.
...
International Journal of Hydrogen Energy. 50 (2024) - p. 420-432 , 2024
Link:
https://doi.org/10.1016/..
?
3
Palladium-alloy membrane reactors for fuel reforming and hy..:
Habib, Mohamed A.
;
Haque, Md Azazul
;
Harale, Aadesh
...
Case Studies in Thermal Engineering. 49 (2023) - p. 103359 , 2023
Link:
https://doi.org/10.1016/..
?
4
High purity, self-sustained, pressurized hydrogen productio..:
Cerrillo, Jose L.
;
Morlanés, Natalia
;
Kulkarni, Shekhar R.
...
Chemical Engineering Journal. 431 (2022) - p. 134310 , 2022
Link:
https://doi.org/10.1016/..
?
5
CFD analysis and scale up of a baffled membrane reactor for..:
Choi, Hongbum
;
Kim, Shin Hyuk
;
Bae, Joongmyeon
...
Computers & Chemical Engineering. 165 (2022) - p. 107912 , 2022
Link:
https://doi.org/10.1016/..
?
6
A technological roadmap to the ammonia energy economy: Curr..:
Morlanés, Natalia
;
Katikaneni, Sai P.
;
Paglieri, Stephen N.
...
Chemical Engineering Journal. 408 (2021) - p. 127310 , 2021
Link:
https://doi.org/10.1016/..
?
7
On-site hydrogen production using heavy naphtha by maximizi..:
Yoo, Jae Young
;
Lee, Jaemyung
;
Han, Gwangwoo
...
Journal of Power Sources. 508 (2021) - p. 230332 , 2021
Link:
https://doi.org/10.1016/..
?
8
Comprehensive parametric investigation of methane reforming..:
Ben-Mansour, Rached
;
Azazul Haque, M.D.
;
Harale, Aadesh
...
Energy Conversion and Management. 249 (2021) - p. 114838 , 2021
Link:
https://doi.org/10.1016/..
?
9
Palladium-Alloy Membrane Reactors for Fuel Reforming and Hy..:
Habib, Mohamed A.
;
Harale, Aadesh
;
Paglieri, Stephen
...
Energy & Fuels. 35 (2021) 7 - p. 5558-5593 , 2021
Link:
https://doi.org/10.1021/..
?
10
Development of a Ba–CoCe catalyst for the efficient and sta..:
Morlanés, Natalia
;
Sayas, Salvador
;
Shterk, Genrikh
...
Catalysis Science & Technology. 11 (2021) 9 - p. 3014-3024 , 2021
Link:
https://doi.org/10.1039/..
?
11
Steam reforming of simulated pre-reformed naphtha in a PdAu..:
Alrashed, Firas S.
;
Paglieri, Stephen N.
;
Alismail, Zainab S.
...
International Journal of Hydrogen Energy. 46 (2021) 42 - p. 21939-21952 , 2021
Link:
https://doi.org/10.1016/..
?
12
Rhodium Nanoparticle Size Effects on the CO2 Reforming of M..:
Alabdullah, Mohammed
;
Ibrahim, Mahmoud
;
Dhawale, Dattatray
...
ChemCatChem. 13 (2021) 12 - p. 2879-2886 , 2021
Link:
https://doi.org/10.1002/..
?
13
Response to Comment on "Dry reforming of methane by stable ..:
Song, Youngdong
;
Ozdemir, Ercan
;
Ramesh, Sreerangappa
...
Science. 368 (2020) 6492 - p. , 2020
Link:
https://doi.org/10.1126/..
?
14
Stable High‐Pressure Methane Dry Reforming Under Excess of ..:
Ramirez, Adrian
;
Lee, Kunho
;
Harale, Aadesh
...
ChemCatChem. 12 (2020) 23 - p. 5919-5925 , 2020
Link:
https://doi.org/10.1002/..
?
15
Dry reforming of methane by stable Ni–Mo nanocatalysts on s..:
Song, Youngdong
;
Ozdemir, Ercan
;
Ramesh, Sreerangappa
...
Science. 367 (2020) 6479 - p. 777-781 , 2020
Link:
https://doi.org/10.1126/..
1-15