| Autor: |
Uibu, M. maiuibu@staff.ttu.ee, Velts, O.1, Kuusik, R.1 |
| Předmět: |
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| Zdroj: |
Journal of Hazardous Materials. Feb2010, Vol. 174 Issue 1-3, p209-214. 6p. |
| Abstrakt: |
Abstract: Solid waste and atmospheric emissions originating from power production are serious problems worldwide. In the Republic of Estonia, the energy sector is predominantly based on combustion of a low-grade carbonaceous fossil fuel: Estonian oil shale. Depending on the combustion technology, oil shale ash contains 10–25% free lime. To transport the ash to wet open-air deposits, a hydraulic system is used in which 107–108 cubic meters of Ca2+-ion-saturated alkaline water (pH level 12–13) is recycled between the plant and sedimentation ponds. The goals of the current work were to design an ash–water suspension carbonation process in a continuous mode laboratory-scale plant and to search for potential means of intensifying the water neutralization process. The carbonation process was optimized by cascading reactor columns in which the pH progressed from alkaline to almost neutral. The amount of CO2 captured from flue gases can reach 1–1.2 million ton at the 2007 production level of the SC Narva Power Plants. Laboratory-scale neutralization experiments were carried out to compare two reactor designs. Sedimentation of PCC particles of rhombohedral crystalline structure was demonstrated and their main characteristics were determined. A new method providing 50× greater specific intensity is also discussed. [Copyright &y& Elsevier] |
| Databáze: |
GreenFILE |
| Externí odkaz: |
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