MODEL FOR DETERMINING FLOW DIAMETER AND ECONOMIC VELOCITY IN WATER ELEVATING SYSTEMS

JOAO L. ZOCOLER; FRANCISCO C. BAGGIO FILHO; LUIS A. F. OLIVEIRA; FERNANDO B. T. HERNANDEZ

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MODEL FOR DETERMINING FLOW DIAMETER AND ECONOMIC VELOCITY IN WATER ELEVATING SYSTEMS

机译：排水系统中水流直径和经济速度的确定模型

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The purpose of this paper was to develop a model for calculating the economical flow diameter and velocity, by obtaining the economical diameter, using Swamee's friction factor equation, by minimizing the total annual cost. The application of the model to a regular supply condition showed that the diameter of the actual condition, 250 mm, compared with the diameter calculated by the mode, at the same tariff as that applied to the property (ground), 284.1 mm, involved the necessity to generate, transmit, and distribute extra electrical energy, due to the higher load loss caused by the original diameter, approximately 30800 kWh/year. This means that in one year, the consumer would spend R$2, 804.00 more on pumping cost alone.

机译：本文的目的是建立一个模型，通过使用Swamee的摩擦系数方程式，通过最小化年度总成本获得经济直径，来计算经济流动直径和速度。该模型在常规供应条件下的应用表明，与该模式计算的直径相比，实际条件的直径为250 mm，与用于物业（地面）的直径相同，其价格为284.1 mm。由于原始直径（约30800 kWh /年）导致更高的负载损耗，因此有必要产生，传输和分配额外的电能。这意味着，在一年内，消费者将仅在抽水成本上花费2雷亚尔，即多804.00雷亚尔。

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《Mathematical Problems in Engineering》 |2006年第7期|p.C1-C17|共17页
作者
JOAO L. ZOCOLER; FRANCISCO C. BAGGIO FILHO; LUIS A. F. OLIVEIRA; FERNANDO B. T. HERNANDEZ;
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Phytosanity Department, Rural and Soil Engineering, FEIS, Universidade Estadual Paulista (UNESP), 15385-000 Ilha Solteira, SP, Brazil;

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中图分类工程数学;
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MODEL FOR DETERMINING FLOW DIAMETER AND ECONOMIC VELOCITY IN WATER ELEVATING SYSTEMS

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