Sinta

Indonesia
Select Country
Select country
Search Country by Name

Author Profile

photo
DWIWAHJU SASONGKO
SINTA ID : 6034533
Subjects/Areas:
id ID
14.64
Overall Score
5.1
3 Years Score
1456
Overall Score V2
610.5
3 Years Score V2
0
Books
4499
Rank in National
4533
3 Years National Rank
0
IPR
338
Rank in Affiliation
179
3 Years Affiliation Rank
Page 1 of 3 | Total Records : 26
Quartile Publications Citation
Q1
Significant factors affecting devolatilization of fragmenting, non-swelling coals in fluidized bed combustion
Chemical Engineering Science | vol: 51 | issue : 16 | 1996-01-01 | Journal
28
Q1
Significant factors affecting devolatilization of fragmenting, non-swelling coals in fluidized bed combustion
Chemical Engineering Science | vol: 51 | issue : 16 | 1996-01-01 | Journal
28
Q1
Novel configuration of supercritical water gasification and chemical looping for highly-efficient hydrogen production from microalgae
Renewable and Sustainable Energy Reviews | vol: 112 | issue : | 2019-09-01 | Journal
19
Q1
On the heating rate and volatile yield for coal particles injected into fluidised bed combustors
Fuel | vol: 77 | issue : 9-10 | 1998-01-01 | Journal
16
Q1
On the heating rate and volatile yield for coal particles injected into fluidised bed combustors
Fuel | vol: 77 | issue : 9-10 | 1998-01-01 | Journal
16
Q1
Microalgae-based coproduction of ammonia and power employing chemical looping process
Chemical Engineering Research and Design | vol: 146 | issue : | 2019-06-01 | Journal
10
Q1
Effect of gas composition produced by gasification, on the performance and durability of molten carbonate fuel cell (MCFC)
Journal of Natural Gas Science and Engineering | vol: 35 | issue : | 2016-09-01 | Journal
5
Q2
Numerical simulation of coal pyrolysis with Tar and Gas products prediction
Asia-Pacific Journal of Chemical Engineering | vol: 11 | issue : 2 | 2016-03-01 | Journal
3
Q2
Fragmentation model of coal devolatilisation in fluidised bed combustion
International Journal of Ambient Energy | vol: 39 | issue : 5 | 2018-07-04 | Journal
3
Q2
Simulation of temperature and reaction time prediction of the torrefaction process: Case of hard-wood biomass
International Journal of Ambient Energy | vol: 39 | issue : 2 | 2018-01-01 | Journal
2
Best viewed in resolution 1024x768 and higher
SINTA was originally initiated by:

UNISSULA

Universitas Islam Sultan Agung

UAD

Universitas Ahmad Dahlan

UNSRI

Universitas Sriwijaya
The Team:

Imam Much Ibnu Subroto

Universitas Islam Sultan Agung

Tole Sutikno

Universitas Ahmad Dahlan

Deris Stiawan

Universitas Sriwijaya

Ahmad Heryanto

Universitas Sriwijaya

Sam F Chaerul

Universitas Islam Sultan Agung

Herman Yuliansyah

Universitas Ahmad Dahlan