| Editor's Page | ||
| 1. | A. Ots. Where should the oil shale power engineering be directed? | 193-194 |
| 2. | A. Ots. Thermal Engineering Department of Tallinn Technical University | 195-208 |
| 3. | A. Prikk, H. Arro. Circulating fluidized bed combustion – the technology exact for Estonian oil shale | 209-214 |
| 4. | H. Arro, A. Prikk, J. Kasemetsa. Circulating fluidized bed technology – test combustion of Estonian oil shale | 215-217 |
| 5. | H. Arro, A. Prikk, J. Kasemetsa. On the fouling of heat transfer surfaces of CFB oil shale boiler | 218-224 |
| 6. | H. Arro, A. Prikk, J. Kasemetsa. Grain composition and corrosive activity of ash from CFB oil shale boiler | 225-235 |
| 7. | A. Ots, A. Paist. Laboratory investigations of high temperature corrosion of boiler alloys under the impact of Estonian oil shale ash | 236-245 |
| 8. | H. Arro, A. Prikk, J. Kasemetsa. Recommendations for design of Estonian oil shale fired CFB boilers | 246-253 |
| 9. | A. Prikk, M. Hiltunen, P. Makkonen. Circulating fluidized bed boilers | 254-264 |
| 10. | I. Külaots, A. Ots, P. Yrjas, M. Hupa, P. Backman. Sulpation of Estonian an Israeli oil shale ashes under atmospheric and pressurized combustion conditions | 265-283 |
| 11. | A. Ots, T. Pihu, A. Hlebnikov. The influence of pressure on the behaviour of oil shale carbonates | 284-298 |
| 12. | A. Poobus, T. Tiikma. Some design aspects of recovery boiler for oil shale retorting unit SHC-3000 | 299-306 |
| 13. | H. Tallermo, T. Lausmaa, I. Klevtsov, M. Nuutre. The influence of chlorine in ash deposits on 12Cr1MoV alloy high temperature corrosion | 307-316 |
| 14. | H. Tallermo, E. Tomann, I. Klevtsov, T. Bojarinova, M. Nuutre. Corrosion resistance of ferritic alloys 13 CrMo 44 and 10 CrMo 910 in conditions of superheaters of pulverized oil shale boiler | 317-327 |
| 15. | H. Suik. Crack in recovery boiler | 328-334 |
| In Memoriam | ||
| 16. | Harri Käär | 335-336 |
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