本文提出了一种基于最小化空调系统（包括制冷机、泵和风机）总能量输入的控制新风省煤器和能量回收系统的方法。该方法利用系统部件的性能特征以及室外和室内空气条件来确定设定点和操作条件的最佳集合。通过详细的模拟和典型的设备特性，对一系列环境条件下的一些典型系统演示了该方法。提出并讨论了由于改进控制算法而带来的潜在节能。本文还总结了建筑节能器和能量/焓回收系统改进设计和优化的意义。引用:德克萨斯州达拉斯ASHRAE会议论文。

This paper presents an approach for controlling outdoor air economizer and energy recovery systems based on minimizing total energy input to the HVAC system including, chiller, pumps and fans. The method utilizes the performance characteristics of the system components along with the outdoor and indoor air conditions to determine the optimum collection of setpoints and operating conditions. The method is demonstrated for some typical systems over a range of environmental conditions using detailed simulations and representative equipment characteristics. Potential energy savings due to improved control algorithms are presented and discussed. Implications on improved design and optimization of building economizer and energy/enthalpy recovery systems are also summarized.