1.
The Heat-Work Conversion Analysis of Irreversible Carnot Cycle;
不可逆卡诺循环的热功转换特点分析
2.
Carnot Cycle of Imperfect Gas as Working Material;
非理想气体作为工作物质的卡诺循环
3.
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。
4.
For any irreversible process, the efficiency is less than that of the Carnot cycle.
任何不可逆过程中,效率是小于的卡诺循环。
5.
Derivation of Efficiency of Carnot Cycle with Arbitrary Gas Equation of State;
以任意气体为工作物质的卡诺循环效率的推导
6.
PROOF OF DIFFERENT WORKING MATTERS CARNOT CIRCULAR EFFICIENCY;
关于不同工作物质其卡诺循环效率的论证
7.
Calculation of Carnot Cycle Efficiency of Real Gas in Quasi-steady Process;
实际气体在准静态过程中卡诺循环效率的计算
8.
Interaction between a reversible engine( A) and a reversible ideal gas Carnot cycle( B).( Illustration courtesy of OCW.
可逆热机()理想气体可逆卡诺循环()相互作用。(片由开放式课程提供。
9.
Device of Inverse Carnot Cycle System
一种创新的逆卡诺循环系统三级独立余热回收装置
10.
Stability Analysis on the Performance of an Irreversible Carnot Cycle and the Performance Characteristics of Micro/nano Scaled Gas Cycle;
不可逆卡诺循环性能稳定性分析和微纳米尺度下气体循环性能特征
11.
Model of Feroeletric Heat Engine And Its Efficiency of Irreversible Carnot Cycle of Isothermany Isoeletric;
铁电体热机模型设计及其在等温等电压下不可逆卡诺循环效率的研究
12.
COMPARISON IN PERFORMANCES OF BRAYTON AND CARNOT THERMAL ENGINE CYCLES (Ⅰ) STEADY FLOW CYCLES WITH INFINITE RESERVOIRS
布雷顿和卡诺热机循环性能比较(Ⅰ)定常态流恒温热源循环
13.
COMPARISON IN PERFORMANCE OF BRAYTON AND CARNOT THERMAL ENGINE CYCLES(Ⅱ)STEADY FLOW CYCLES WITH FINITE RESERVOIRS
布雷顿和卡诺热机循环性能比较(Ⅱ)定常态流变温热源循环
14.
Performance Comparison forEndoreversible Carnot and Brayton Heat Pumps Ⅰ. Steady Flow Cycles with Infinite Reservoirs
内可逆卡诺和布雷顿热泵循环性能比较
15.
OPerformance Comparison for Endoreversible Carnot and Brayton Heat Pumps (Continued) Ⅱ. Steady Flow Cycles with Finite Reservoirs
内可逆卡诺和布雷顿热泵循环性能比较(续)Ⅱ定常态流变温热源循环
16.
Revolving Credit rate of Credit Card
信用卡循环信用利率
17.
Transmission of Norwalk virus is through the fecal-oral cycle.
诺瓦克病毒的传染是通过粪口循环。
18.
CLAMPING FORCE ANALYSIS FOR ON/OFF SLIP OF CONTINUOUS-CIRCULATION SYSTEM
钻井连续循环系统上卸扣卡瓦卡紧力分析