Fuzzy Method Applied at Energetic and Economic Rehabilitation of Pumping Station

Volume 2: Fluid Applications and Systems; Fluid Measurement and Instrumentation Pub Date : 2021-08-10 DOI:10.1115/fedsm2021-65616

V. Radulescu

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Abstract

Many pumping stations require an urgent rehabilitation from hydraulic, energetic, and economic point of view, being older than 30 years. Some urban stations for the water supply are nowadays under-dimensioned compared with the necessary consumption. Such an example is the pumping station of the Buzau City, realized in 1986. Its population has grown in the last decades by about 30% due to industrial development and its water pumping station from the treatment plant is currently totally insufficient. The hydraulic losses through the control discharge valve have become too high. This pumping station ensures the water supply for the south and east part of the city. Firstly, some characteristics of the pumping station equipped with pumps 12NDS- Normal-Double spiral casing-Single-layer of 160kW and 18NDS of 400kW and 500 kW, all from domestic production, are presented. Modernization of the pumping station has started few years ago and being realized in steps, so as not interrupt the city’s water supply. To establish the optimal operating point some algorithms are presented, developed based on the experimental data and using functions with one or two independent variables. Firstly, the interpolation function is determined, followed by its numerical calculation. To establish the characteristics’ equations H = f(Q), P = f(Q), and η = f(Q) starting from experimental results obtained by direct measurements, a polynomial approximation was chosen by the method of the least squares, using the polynomials Lagrange and Bezier. For optimization, the fuzzy technique is adopted regarding the flow fusing, intervals between start and stop following some policies concerning the aggregates’ starting. For a year, the energy saved between these intervals was calculated. Finally, the obtained yields of about 90% proved that the pumps modernization adopting new functioning techniques is more advantageous in some situations than the purchase of new equipment.

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模糊方法在泵站节能经济修复中的应用

许多已使用超过30年的泵站，从水力、能源和经济的角度来看，迫切需要修复。目前，一些城市供水站的尺寸与必要的消耗量相比不足。1986年建成的布祖市泵站就是这样一个例子。在过去的几十年里，由于工业的发展，它的人口增长了大约30%，而它的污水处理厂的抽水站目前完全不足。通过控制排放阀的液压损失过高。这个泵站保证了城市南部和东部的供水。首先介绍了国产12NDS-普通-双螺旋套管-单层泵(160kW)和18NDS (400kW和500kw)泵站的一些特点。泵站的现代化改造在几年前就开始了，并且正在逐步实现，这样就不会中断城市的供水。为了确定最优工作点，提出了一些基于实验数据和使用一个或两个自变量函数的算法。首先确定插值函数，然后进行数值计算。为了从直接测量得到的实验结果出发，建立特征方程H = f(Q)、P = f(Q)和η = f(Q)，采用拉格朗日多项式和贝塞尔多项式，采用最小二乘法选择多项式近似。为了优化，在流量融合、启动和停止间隔方面采用模糊技术，并遵循一些关于聚合体启动的策略。在一年的时间里，计算了这些间隔之间节省的能源。最后，获得的产量约为90%，证明在某些情况下，采用新的功能技术对泵进行现代化改造比购买新设备更有利。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Volume 2: Fluid Applications and Systems; Fluid Measurement and Instrumentation

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