Life cycle assessment of rice hull-coal co-firing for portland cement clinker production
Co-firing coal with biomass is one way to reduce greenhouse gas contribution from clinker production. A model was developed to determine the optimum percentage mix of rice hull for a cement plant in the Philippines that would provide the minimum life impact while ensuring product quality and economi...
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oai:animorepository.dlsu.edu.ph:faculty_research-37782021-11-03T07:14:49Z Life cycle assessment of rice hull-coal co-firing for portland cement clinker production Mariano, Daniel Joseph Biona, Jose Bienvenido Manuel M. Gonzaga, Jeremias A. Co-firing coal with biomass is one way to reduce greenhouse gas contribution from clinker production. A model was developed to determine the optimum percentage mix of rice hull for a cement plant in the Philippines that would provide the minimum life impact while ensuring product quality and economic viability. Results indicated that optimum environmental benefits is obtained at 64% rice hull thermal substitution. It is important however also to take into consideration rice hull supply limitations and system modification requirements. © 2014 IEEE. 2014-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/2779 Faculty Research Work Animo Repository Co-combustion Rice hulls Life cycle costing Cement clinkers Mechanical Engineering |
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De La Salle University |
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De La Salle University Library |
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Philippines Philippines |
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Co-combustion Rice hulls Life cycle costing Cement clinkers Mechanical Engineering |
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Co-combustion Rice hulls Life cycle costing Cement clinkers Mechanical Engineering Mariano, Daniel Joseph Biona, Jose Bienvenido Manuel M. Gonzaga, Jeremias A. Life cycle assessment of rice hull-coal co-firing for portland cement clinker production |
| description |
Co-firing coal with biomass is one way to reduce greenhouse gas contribution from clinker production. A model was developed to determine the optimum percentage mix of rice hull for a cement plant in the Philippines that would provide the minimum life impact while ensuring product quality and economic viability. Results indicated that optimum environmental benefits is obtained at 64% rice hull thermal substitution. It is important however also to take into consideration rice hull supply limitations and system modification requirements. © 2014 IEEE. |
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text |
| author |
Mariano, Daniel Joseph Biona, Jose Bienvenido Manuel M. Gonzaga, Jeremias A. |
| author_facet |
Mariano, Daniel Joseph Biona, Jose Bienvenido Manuel M. Gonzaga, Jeremias A. |
| author_sort |
Mariano, Daniel Joseph |
| title |
Life cycle assessment of rice hull-coal co-firing for portland cement clinker production |
| title_short |
Life cycle assessment of rice hull-coal co-firing for portland cement clinker production |
| title_full |
Life cycle assessment of rice hull-coal co-firing for portland cement clinker production |
| title_fullStr |
Life cycle assessment of rice hull-coal co-firing for portland cement clinker production |
| title_full_unstemmed |
Life cycle assessment of rice hull-coal co-firing for portland cement clinker production |
| title_sort |
life cycle assessment of rice hull-coal co-firing for portland cement clinker production |
| publisher |
Animo Repository |
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2014 |
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https://animorepository.dlsu.edu.ph/faculty_research/2779 |
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