Ghanta, K. C.
A support vector classification method for regime identification of slurry transport in pipelines
Statistical analysis showed the proposed solution has an average misclassification error of only 1.5%
Computational fluid dynamics simulation of solid–liquid slurry flow
The resulting model's predictions showed reasonably good agreement with the experimental data
Genetic algorithm tuning improves artificial neural network models
The technique is illustrated by predicting hold-up of slurry flow in pipelines
Minimize power consumption in slurry transport
Accurately predict critical velocity
- 1
- ... 1 pages
Current Digital Edition
Sign up to Receive Our Newsletter
Latest News
- Clariant technology to transform 8,000 tpy of CO₂ to synthetic fuels and waxes 6/3
- Lummus and InnoVent Renewables sign MoU for tire pyrolysis technology 6/3
- Marubeni signs a long-term offtake agreement for green ammonia produced in Inner Mongolia, China 6/3
- Braskem to commercially implement Ardent’s Olefin Separation technology 6/3
- BASF, Yuntianhua successfully verify/register GHG emissions reductions from the use of stabilized urea fertilizer 6/3
- Both crude units at bp Rotterdam oil refinery are offline 6/3
Construction Boxscore: Project Spotlight
Project:
Long Son Petrochemicals Complex
Location:
Long Son, Vietnam
Operator:
Siam Cement Group
Cost:
$5.4 B
Capacity:
1.65 MMtpy
Completion date:
2023
Status:
Under Construction
