Title :
Relative properties of the new combustion-resist vegetable-oil-based dielectric coolants for distribution and power transformers
Author :
McShane, C. Patrick
Author_Institution :
Cooper Power Syst., Waukesha, WI, USA
Abstract :
Electrical distribution transformer insulation systems are being reevaluated based on their total life-cycle cost from economical, safety, and environmental perspectives. Due to the inherently higher efficiency design offered by liquid-cooled transformers, development has focused on fluids having improved environmental and health properties while maintaining the fire-resistant properties of “less-flammable” fluids. This paper reports our findings from several years of research and development on alternative dielectric systems using both natural and synthetic esters. Because esters have lower inherent resistance to oxidation than conventional mineral oil, a novel insulation system was developed to overcome this potential handicap. Single- and three-phase prototype field installations using these new dielectric coolants are discussed
Keywords :
cooling; life cycle costing; power transformer insulation; safety; transformer oil; combustion-resist vegetable-oil-based dielectric coolants; dielectric coolants; distribution transformer insulation systems; efficiency design; environmental properties; fire-resistant properties; health properties; insulation system; less-flammable fluids; liquid-cooled transformers; mineral oil; natural esters; oxidation; power transformers; research and development; single-phase field installations; synthetic esters; three-phase field installations; total life-cycle cost; Costs; Dielectrics and electrical insulation; Electrical safety; Environmental economics; Minerals; Oil insulation; Oxidation; Petroleum; Power transformer insulation; Research and development;
Journal_Title :
Industry Applications, IEEE Transactions on
