DEVELOPMENT OF SMART CONTROLLER MODEL FOR DUAL FUEL GENERATOR SYSTEMS

IF 1.2 4区农林科学 Q2 AGRICULTURE, MULTIDISCIPLINARY

Journal of Agricultural Science and Technology Pub Date : 2014-10-24 DOI:10.4314/JAGST.V16I2

N. Muchiri, P. Hinga, S. N. Kahiu, S. Wanjii

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引用次数: 1

Abstract

Application of dual fuel powered electric generators such as one of diesel and biogas has gained popularity locally both as emergency power supply units and in distributed power systems. Dual fuel generators use two fuel types simultaneously in their operations. This is however faced with challenges in control and fuel regulation since their operation must be economically feasible and convenient. To achieve this, an intelligent controller that regulates generator operations is necessary. This research work, set to determine operation characteristic of these generators and fuel‐load relationship of the dual fuel engines in order to design a control system for a dual fuel power generator system. Generator characteristics such as fuel consumption on various loads were obtained through experiments; it was found that injection of biogas in diesel engine saves diesel consumption by approximately 30% on low load and 60% on high load. The presented model switches the generator when needed and adjusts biogas inlet in steps proportional to the load. It works by monitoring load, injecting a small volume of biogas for loads below 10% and increasing it as the load increases to maximum possible volume for load above 80%. The model was tested through simulation of the obtained data on a Siemens ™ micro Logic controller demonstrating a solution to control challenges. This model logic for control and offers advanced logic electronic control for local applications. It is essential in providing a versatile solution for a middle sized diesel biogas dual fuel power generator control.

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双燃料发电系统智能控制器模型的开发

柴油-沼气双燃料发电机组作为应急供电机组和分布式电力系统的应用已经得到了广泛的应用。双燃料发电机在运行时同时使用两种燃料。然而，由于它们的运行必须在经济上可行和方便，因此在控制和燃料调节方面面临挑战。为了实现这一点，需要一个智能控制器来调节发电机的运行。本研究工作旨在确定这些发电机的运行特性和双燃料发动机的燃料负荷关系，以便设计双燃料发电系统的控制系统。通过实验获得了发电机在不同负荷下的油耗等特性;结果表明，在柴油机低负荷工况下，注入沼气可节省约30%的柴油消耗，在高负荷工况下可节省约60%的柴油消耗。该模型在需要时切换发电机，并根据负荷的大小按步调整沼气进口。它的工作原理是监测负荷，在负荷低于10%时注入少量沼气，当负荷高于80%时，随着负荷的增加而增加沼气，以达到最大可能的体积。该模型通过在西门子™微逻辑控制器上模拟获得的数据进行测试，展示了控制挑战的解决方案。该模型逻辑控制，并提供先进的逻辑电子控制本地应用。为中型柴油沼气双燃料发电机组的控制提供一个通用的解决方案是必不可少的。

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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来源期刊

Journal of Agricultural Science and Technology AGRICULTURE, MULTIDISCIPLINARY-

CiteScore

1.90

自引率

8.30%

发文量

审稿时长

4.5 months

期刊介绍： Journal of Agricultural Science and Technology is one of the TMU Press journals that is published by the responsibility of its Editor-in-Chief and Editorial Board in the determined scopes. Journal of Agricultural Science and Technology (JAST) is an international research journal published bimonthly for the purpose of advancing the scientific studies. The subjects covered by JAST include all aspects of agriculture and natural resources (see Areas Covered). The journal will consider submissions from all over the world, on research works not being published or submitted for publication towards publication as full paper, review article and research note. The Papers are published in English with an extra abstract in Persian.