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    • 1. 发明授权
    • Method for evaluating and optimizing performance of chiller system
    • 冷却器系统性能评估与优化方法
    • US07567888B2
    • 2009-07-28
    • US11987883
    • 2007-12-05
    • Wen-Yao ChangTzxy-Chui WangWu-Hsiung FuMan Tzou
    • Wen-Yao ChangTzxy-Chui WangWu-Hsiung FuMan Tzou
    • G06F11/30
    • G06F17/50F24F11/30F25B2400/06G06F2217/80
    • A method of evaluating and optimizing performance of a chiller system includes the following steps. Determine a number of activated chillers, a number of activated cooling towers, and the lowest outlet temperature of cooling water of a cooling tower as an operating settings. By developing evaluating models, sequentially determine a temperature of the cooling water entering the chillers, a total power consumption of chillers, a total power consumption of the cooling towers, and a total power consumption of pumping cooling water. Then, determine a total power consumption of the system by the sum of the total power consumption of the chillers, the total power consumption of the cooling towers, and the total power consumption of pumping cooling water. Through the above method, the system total power consumptions under different operating settings are evaluated, so as to determine an optimized operating setting to optimize the performance of the system.
    • 评估和优化冷水机组性能的方法包括以下步骤。 确定一些激活的冷却器,多个激活的冷却塔,以及冷却塔的冷却水出口温度的最低值作为操作设置。 通过开发评估模型,依次确定进入冷却器的冷却水的温度,冷却器的总功率消耗,冷却塔的总功耗以及泵送冷却水的总功率消耗。 然后,通过冷却器的总功耗,冷却塔的总功率消耗和泵送冷却水的总功率之和来确定系统的总功率消耗。 通过上述方法,对不同运行设置下的系统总功耗进行评估,确定优化的运行设置,优化系统性能。
    • 2. 发明申请
    • Method for evaluating and optimizing performance of chiller system
    • 冷却器系统性能评估与优化方法
    • US20080162077A1
    • 2008-07-03
    • US11987883
    • 2007-12-05
    • Wen-Yao ChangTzxy-Chui WangWu-Hsiung FuMan Tzou
    • Wen-Yao ChangTzxy-Chui WangWu-Hsiung FuMan Tzou
    • G06F17/00
    • G06F17/50F24F11/30F25B2400/06G06F2217/80
    • A method of evaluating and optimizing performance of a chiller system includes the following steps. Determine a number of activated chillers, a number of activated cooling towers, and the lowest outlet temperature of cooling water of a cooling tower as an operating settings. By developing evaluating models, sequentially determine a temperature of the cooling water entering the chillers, a total power consumption of chillers, a total power consumption of the cooling towers, and a total power consumption of pumping cooling water. Then, determine a total power consumption of the system by the sum of the total power consumption of the chillers, the total power consumption of the cooling towers, and the total power consumption of pumping cooling water. Through the above method, the system total power consumptions under different operating settings are evaluated, so as to determine an optimized operating setting to optimize the performance of the system.
    • 评估和优化冷水机组性能的方法包括以下步骤。 确定一些激活的冷却器,一些激活的冷却塔,以及冷却塔的冷却水出口温度的最低值作为操作设置。 通过开发评估模型,依次确定进入冷却器的冷却水的温度,冷却器的总功率消耗,冷却塔的总功耗以及泵送冷却水的总功率消耗。 然后,通过冷却器的总功耗,冷却塔的总功率消耗和泵送冷却水的总功率之和来确定系统的总功率消耗。 通过上述方法,对不同运行设置下的系统总功耗进行评估,确定优化的运行设置,优化系统性能。