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    • 48. 发明授权
    • Autocycle control of cooling water systems
    • 自动循环控制冷却水系统
    • US06280635B1
    • 2001-08-28
    • US09562603
    • 2000-05-01
    • Barbara E. MoriartyDennis P. BakalikRonald V. DavisJohn E. HootsRobert W. Shiely
    • Barbara E. MoriartyDennis P. BakalikRonald V. DavisJohn E. HootsRobert W. Shiely
    • C02F100
    • G01N17/008C02F1/008C02F5/08C02F2103/023C02F2209/40C02F2303/08C02F2303/20G01N33/18G01N33/1853G01N33/1866Y10T137/0329
    • An autocycle method to control a cooling water system comprising the steps of: a) adding a treatment product to said cooling water system, with said treatment product comprising inert tracer and tagged treatment polymer in a set proportion; b) providing a sufficient number of fluorometers, c) using said sufficient number of fluorometers to measure the fluorescent signal of said inert tracer and the fluorescent signal of said tagged treatment polymer in the water from the cooling water system; d) using these measured fluorescent signals from step c) to determine the amount of said tagged treatment polymer present in said cooling water system; e) comparing the amount of said tagged treatment polymer present to the amount of tagged treatment polymer being fed into the system to determine the consumption of said tagged treatment polymer; and f) using said consumption of said tagged treatment polymer to control the concentration cycles of said cooling water system, with the proviso that said control is implemented by linking any or all of the following parameters i) the flowrate of the make-up water to the cooling water system; ii) the flowrate of the treatment product comprising inert tracer and tagged treatment polymer, iii) frequency and amount of blowdown flowrate from the cooling water system; iv) overall water flowrate through the cooling tower; v) overall volume of water in the cooling tower; and vi) composition of makeup water; to the consumption of said tagged treatment polymer, with the provisos that: &agr;) the minimum flowrate of treatment product comprising inert tracer and tagged treatment polymer must be sufficient to supply the cooling water system with the requisite amount of tagged treatment product; and &bgr;) when control is implemented by linking flowrates, the flowrates are balanced.
    • 一种用于控制冷却水系统的自动循环方法,包括以下步骤:a)向所述冷却水系统中加入处理产物,所述处理产物包含惰性示踪剂和标记处理聚合物,其设定比例; b)提供足够数量的荧光计 c)使用所述足够数量的荧光计测量来自冷却水系统的所述惰性示踪剂的荧光信号和所述标记的处理聚合物的荧光信号; d)使用来自步骤c)的这些测量的荧光信号来确定 存在于所述冷却水体系中的所述标记的处理聚合物的量; e)将所述标记的处理聚合物的存在量与进料到系统中的标记处理聚合物的量进行比较,以确定所述标记的处理聚合物的消耗; 以及f)使用所述标记的处理聚合物的所述消耗来控制所述冷却水系统的浓缩循环,条件是通过将补充水的流量与冷却水的任何或全部连接来实现所述控制 水系统; ii)包含惰性示踪剂和标记处理聚合物的处理产品的流量,iii)来自冷却水系统的排放流量的频率和量; iv)通过冷却塔的总体水流量; v)总体积的水 冷却塔; 和)维生素水的组成;对所述标记的处理聚合物的消耗,条件是:α)包含惰性示踪剂和带标签的处理聚合物的处理产物的最小流速必须足以向冷却水系统提供必需量的 标记治疗产品; andbeta)当通过连接流量来实现控制时,流量平衡。
    • 50. 发明授权
    • Leak detection and responsive treatment in industrial water processes
    • 工业水处理中的泄漏检测和响应处理
    • US5416323A
    • 1995-05-16
    • US146705
    • 1993-11-01
    • John E. HootsLuciano E. SavorgnanGlenn J. St. Amant
    • John E. HootsLuciano E. SavorgnanGlenn J. St. Amant
    • G01M3/04G01M3/20G01M3/22G01N21/90
    • G01M3/228
    • Leakage is detected between a process fluid and a temper fluid, or from a process fluid to a temperature-conditioning fluid, wherein one but not both of said A and said B fluids is an industrial process fluid and wherein at least one of said A and said B fluids is a gaseous stream, in an industrial process. The industrial process includes an A and a B fluid, and one of the A and B fluids receives heat from or transfer heat to the other of the A and the B fluids by an indirect contact method, and one but not both of the A and the B fluids is an industrial process fluid. In particular, the A fluid is a temperature-conditioning fluid that receives heat from a process fluid, for instance wherein the A fluid is the water of a waste-heat boiler and the B fluid is a gaseous process stream.
    • 在处理流体和回火流体之间或从工艺流体到温度调节流体之间检测到泄漏,其中所述A和所述B流体中的一个但不是两者都是工业过程流体,并且其中所述A和 在工业过程中,B液是一种气态物流。 工业过程包括A和B流体,A和B流体中的一个通过间接接触方法从A或B流体中接收热量或将热量传递到另一个A和B流体,而A和B两者之一 B液是工业过程流体。 特别地,A流体是从工艺流体接收热量的温度调节流体,例如其中A流体是废热锅炉的水,B流体是气态工艺流。