过增元等[1,2]从二维层流边界层能量方程出发,引入源强化的概念,提出“场协同原理”(Field Synergy Principle):对流换热的物理机制是有内热源的导热问题,热源强度决定了对流换热
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4. Pointing to the disadvantage of the Field Synergy Principle when it is applied in the practice. The theory of Entropy Generation can make it becoming better.
4. 分析了场协同理论在指导强化换热时存在的不足,提出应用熵产可以弥补这方面的不足,二者的结合使强化换热措施更符合实践的要求。
参考来源 - 场协同理论指导下的强化换热Finally, the field synergy principle is introduced to heat radiation problem for the first time.
最后,本文首次将场协同原理推广应用到热辐射传输过程之中。
参考来源 - 热传输过程中的场协同机制与应用研究·2,447,543篇论文数据,部分数据来源于NoteExpress
The results show that the Field Synergy Principle can be applied not only to parabolic flow, but also to complex elliptic flow and heat transfer with recirculation.
结果表明,场协同理论不仅适合于抛物型流动,亦适合于复杂的有回流的椭圆型流动。
Field synergy principle is based on the steady state laminar thermal boundary layer integral equations and has been validated by the experimental data and numerical simulations.
场协同原理是基于稳态时层流热边界层的积分方程得到的,其正确性已得到了实验及数值验证。
A extension of field synergy principle to classical and modern physics by examples shows that field synergy is a generalized principle for enhancing processes of energy transfer and conversion.
将场协同原理扩展到经典物理学与近代物理学中,并以实例说明场协同原理是强化能量传递与转换过程的一般原理。
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