Natural Ester Dielectric Fluid Development

2005/2006 IEEE/PES Transmission and Distribution Conference and Exhibition Pub Date : 2006-05-21 DOI:10.1109/TDC.2006.1668445

C. Mcshane, J. Corkran, K. Rapp, J. Luksich

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引用次数: 55

Abstract

Since the early 1980s, Cooper Power Systems has been actively involved in exploring and developing ester-based dielectric fluids. Introduced in 1984, our first commercialized ester was a synthetic polyol ester, developed primarily as an environmentally acceptable Askarel substitute. Although its technical performance is very good, the cost is prohibitive for most applications. The desirable properties of the polyol ester spurred exploration into other, more cost-effective, ester chemistries. This led to the evaluation of a natural (vegetable oil) ester dielectric coolant having many of the same performance advantages of synthetic esters, but much more economical. The major disadvantages of the natural esters are their inherent susceptibility to oxidation and higher pour point. We undertook a massive natural ester research and development program beginning in the early 1990s. Significant improvement low temperature flow was achieved. Oxidation inhibitors together with proper method-of-use overcome the oxidation stability issues. In many ways the natural esters perform better than the less-flammable fluids they replace, and offer significant advantages for applications where naphthenic mineral oils are traditionally applied. Although initially developed for distribution transformers, application in medium and large power transformers is becoming more common. This paper summarizes our laboratory and field experience

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天然酯介质流体的发展

自20世纪80年代初以来，库柏电力系统一直积极参与探索和开发酯基介电流体。我们于1984年推出的第一个商业化酯是一种合成多元醇酯，主要是作为环保可接受的Askarel替代品而开发的。虽然它的技术性能非常好，但成本对于大多数应用来说是令人望而却步的。多元醇酯的理想性质促使人们探索其他更经济有效的酯类化学物质。这导致了一种天然(植物油)酯介电冷却剂的评价，它具有许多与合成酯相同的性能优势，但更经济。天然酯的主要缺点是其固有的易氧化性和较高的倾点。从20世纪90年代初开始，我们进行了大规模的天然酯研究和开发计划。低温流动得到显著改善。氧化抑制剂配合适当的使用方法克服了氧化稳定性问题。在许多方面，天然酯比它们所取代的不太易燃的液体性能更好，并且在传统上应用环烷矿物油的应用中提供了显着的优势。虽然最初是为配电变压器开发的，但在大中型电力变压器中的应用越来越普遍。本文总结了我们的实验室和现场经验

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2005/2006 IEEE/PES Transmission and Distribution Conference and Exhibition

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