公开(公告)号：US07480544B2

公开(公告)日：2009-01-20

申请号：US11482805

申请日：2006-07-10

申请人： Chi-Yi Wang ,  Wen-Cheng Huang ,  Wu-Hsiung Fu

发明人： Chi-Yi Wang ,  Wen-Cheng Huang ,  Wu-Hsiung Fu

IPC分类号： G05D11/00

CPC分类号： G05D7/0641 ,  F04D15/029

摘要： The present invention discloses a system of energy-efficient and constant-pressure fluid-transport machines coupled in parallel, which can flexibly and massively provide gas and water to every fabrication unit. The system of the present invention comprises: variable-frequency centrifugal fluid-transport machines, pressure gauges, power meters, flow meters, and controllers. The performance curves of the abovementioned system of fluid-transport machines coupled in parallel and the system impedance curves of the loads are analyzed theoretically and built in the controllers together with the equal-efficiency curves provided by the manufacturer. When the system is operating, the data detected by the pressure gauges, power meters, and flow meters are compared with the built-in data to obtain the optimal energy-efficient conditions as the operational criteria of the system of the present invention.

摘要翻译： 本发明公开了一种并联连接的节能恒压流体输送机的系统，其能够灵活，大规模地为每个制造单元提供气体和水。 本发明的系统包括：变频离心流体输送机，压力计，功率计，流量计和控制器。 理论上分析上述并联耦合的流体输送机系统的性能曲线和负载的系统阻抗曲线，并与制造商提供的等效曲线一起内置在控制器中。 当系统运行时，将压力计，功率计和流量计检测到的数据与内置数据进行比较，以获得最佳能效条件作为本发明系统的操作标准。

公开(公告)号：US20070150113A1

公开(公告)日：2007-06-28

申请号：US11482805

申请日：2006-07-10

申请人： Chi-Yi Wang ,  Wen-Cheng Huang ,  Wu-Hsiung Fu

发明人： Chi-Yi Wang ,  Wen-Cheng Huang ,  Wu-Hsiung Fu

IPC分类号： G05D7/00

CPC分类号： G05D7/0641 ,  F04D15/029

摘要： The present invention discloses a system of energy-efficient and constant-pressure parallel-coupled fluid-transport machines, which can flexibly and massively provide gas and water to every fabrication unit. The system of the present invention comprises: variable-frequency centrifugal fluid-transport machines, pressure gauges, power meters, flow meters, and controllers. The performance curves of the abovementioned system of parallel-coupled fluid-transport machines and the system impedance curves of the loads are analyzed theoretically and built in the controllers together with the equal-efficiency curves provided by the manufacturer. When the system is operating, the data detected by the pressure gauges, power meters, and flow meters are compared with the built-in data to obtain the optimal energy-efficient conditions as the operational criteria of the system of the present invention.

摘要翻译： 本发明公开了一种节能恒压并联流体输送机的系统，其能够灵活，大规模地向每个制造单元提供气体和水。 本发明的系统包括：变频离心流体输送机，压力计，功率计，流量计和控制器。 理论上分析上述并联流体输送机系统的性能曲线和负载的系统阻抗曲线，并将其与制造商提供的等效曲线一起内置在控制器中。 当系统运行时，将压力计，功率计和流量计检测到的数据与内置数据进行比较，以获得最佳能效条件作为本发明系统的操作标准。

公开(公告)号：US06446448B1

公开(公告)日：2002-09-10

申请号：US09888550

申请日：2001-06-26

申请人： Chi-Yi Wang ,  Wen-Cheng Huang

发明人： Chi-Yi Wang ,  Wen-Cheng Huang

IPC分类号： F25B3904

CPC分类号： F28F27/003 ,  F24F5/0035

摘要： A cooling tower for automatically adjusting flow rates of cooling water and cooling air with variations of a load comprises a plurality of thermometers; a hygrometer; at least one controllers; a cooling water pump; and at least one cooling towers connected in parallel. The desired data, such as optimum allowance operating range, heat transferring property of cooling towers, outer gas bulb temperature, approach and relations therebetween are calculated numerically and then are built in the controller. As the cooling tower is operated, by the measuring of the thermometer, messages are transferred to the controller, the practical data and predetermined data are compared in the controller so as to acquire an optimum cooling water flow and cooling air flow. Then, the controllers are used to control the cooling fan in the cooling pump and cooling towers. Thus, an optimum flow rate is acquired. Therefore, the power is saved. The flow rate of the present invention is changed with the load of the ice water mainframe. Only the flow rate of the cooling air is adjusted, but also the flow rate of cooling water is adjusted. The power of the cooling towers is saved greatly.

摘要翻译： 用于利用负载变化自动调节冷却水和冷却空气的流量的冷却塔包括多个温度计; 湿度计 至少有一个控制器; 冷却水泵; 和至少一个并联连接的冷却塔。 数值计算出所需的数据，如最佳余量运行范围，冷却塔的传热性能，外部气泡温度，接近方式和关系。 当冷却塔运行时，通过测量温度计，将消息传送到控制器，在控制器中比较实际数据和预定数据，以获得最佳冷却水流量和冷却空气流量。 然后，控制器用于控制冷却泵和冷却塔中的冷却风扇。 因此，获得最佳流量。 因此，节电。 本发明的流量随着冰水主机的负荷而变化。 只有调节冷却空气的流量，而且调节冷却水的流量。 冷却塔的功率大大节省。