| 1. | Research on heat transfer inevitable exergy loss in heat engine cycle
热力循环温差传热不可避免损失研究 |
| 2. | Ecological optimization for universal endoreversible heat engine cycle
普适内可逆热机循环模型及其生态学优化 |
| 3. | Performance analysis for irreversible combined heat engine cycle with supplemental combustion
补燃型不可逆联合循环热机的性能分析 |
| 4. | The thermal efficiecy of traditional heat engine cycle with the low temperature is very low
从热力学原理看,传统中低温热源模式热力循环的热功转换率很低。 |
| 5. | The carnot cycle can be thought of as the most efficient heat engine cycle allowed by physical laws
该卡诺循环可以被看作是最有效的热力循环所允许的物理规律。 |
| 6. | Performance analysis for a combined carnot and rankine heat engine cycle with heat resistance , heat leakage and supplemental combustion
热漏和补燃的卡诺和朗肯联合热机循环性能分析 |
| 7. | The most efficient heat engine cycle is the carnot cycle , consisting of two isothermal processes and two adiabatic processes
最有效的热力循环是卡诺循环,由两个等温过程和两个绝热过程。 |
| 8. | In order to approach the carnot efficiency , the processes involved in the heat engine cycle must be reversible and involve no change in entropy
为了接近卡诺效率,所涉及的过程,在热机循环必须可逆且涉及没有改变熵。 |
