| 1 |
Enhancing the efficiency and power of the triple-pressure reheat combined cycle by means of gas reheat, gas recuperation, and reduction of the irreversibility in the heat recovery steam generator
Bassily AM
Applied Energy, 85(12), 1141, 2008 |
| 2 |
Analysis and cost optimization of the triple-pressure steam-reheat gas-reheat gas-recuperated combined power cycle
Bassily AM
International Journal of Energy Research, 32(2), 116, 2008 |
| 3 |
Cost numerical optimization of the triple-pressure steam-reheat gas-reheat gas-recuperated combined power cycle that uses steam for cooling the first GT
Bassily AM
International Journal of Energy Research, 32(15), 1399, 2008 |
| 4 |
Modeling, numerical optimization, and irreversibility reduction of a triple-pressure reheat combined cycle
Bassily AM
Energy, 32(5), 778, 2007 |
| 5 |
Modeling, numerical optimization, and irreversibility reduction of a dual-pressure reheat combined-cycle
Bassily AM
Applied Energy, 81(2), 127, 2005 |
| 6 |
Cost optimization of a conical electric heater
Bassily AM, Colver GM
International Journal of Energy Research, 29(4), 359, 2005 |
| 7 |
Performance improvements of the intercooled reheat recuperated gas-turbine cycle using absorption inlet-cooling and evaporative after-cooling
Bassily AM
Applied Energy, 77(3), 249, 2004 |
| 8 |
Modelling and performance analysis of an electric heater
Bassily AM, Colver GM
International Journal of Energy Research, 28(14), 1269, 2004 |
| 9 |
A continuous-time nonlinear dynamic predictive modeling method for Hammerstein processes
Rollins DK, Bhandari N, Bassily AM, Colver GM, Chin ST
Industrial & Engineering Chemistry Research, 42(4), 860, 2003 |
