| 453 - 452 |
ELECTRICITY AND HEAT-GENERATION POTENTIALS OF INDUSTRIAL COMBINED HEAT AND POWER-PLANTS (KWK-PLANTS)
HOFER R |
| 458 - 457 |
DEVELOPMENTAL TENDENCIES OF UNIT COMBINED HEAT AND POWERPLANTS
PISCHINGER F |
| 461 - 460 |
THE SIGNIFICANCE OF DYNAMICS FOR THE PLANNING AND OPERATION OF UNIT COMBINED HEAT AND POWER-PLANTS .1. BASIC ASPECTS
EICHER H, STALDER M |
| 465 - 464 |
THE CALCULATION OF THE CO2 EMISSION REDUCTION THROUGH THE COMBINED HEAT AND POWER-SYSTEM
BAEHR HD, DRAKE FD |
| 470 - 469 |
HEAT PUMP-COMBINED HEAT AND POWER-PLANT FOR THE DEMAND-ORIENTED ELECTRICITY AND HEAT-GENERATION WITH OPTIMAL POWER-HEAT COMBINING
FRANCKE D |
| 476 - 475 |
PC-AIDED OPERATION OPTIMIZATION OF UNIT COMBINED HEAT AND POWER-PLANTS
BRAUN B, HINRICHS HJ |
| 480 - 479 |
THE NEW COOLING-TOWER PRINCIPLE MATRIX-MULTIFLOW
JURAN H, PLOCKI O |
| 485 - 484 |
HEAT SHIFTING SYSTEMS IN GAS-TURBINE PROCESSES .1. THERMODYNAMIC FUNDAMENTAL PRINCIPLES
GERICKE B, PERKAVEC M, TUMA M |
| 490 - 489 |
ENERGETIC OPTIMIZATION OF A WET OXIDATION PLANT WITH THE AID OF THE PINCH-METHOD
RADANT H, TITTMANN H, HESS R |
| 495 - 494 |
COMBUSTION OF SOLID FUELS - COALS, BIOMASSES, WASTE MATERIALS -IN FLUIDIZED-BED COMBUSTORS
GOHLA M, BORGHARDT R, REIMER H, NEIDEL W |
| 504 - 503 |
NITROGEN-OXIDE EMISSIONS OF SMALL WOOD FURNACES CHARGED IN BATCH QUANTITIES
STRUSCHKA M, SPRUNG J, BAUMBACH G |
