Investigation of the insulation performance of a new gas mixture with extremely low GWP

• Published in: Electrical Insulation Conference and Electrical Manufacturing Expo pp. 469 - 473
• Main Authors: Mantilla, J. D., Gariboldi, N., Grob, S., Claessens, M.
• Format: Conference Proceeding
• Language: English
• Published: IEEE 01.06.2014
• Subjects: breakdown voltage; Dielectric breakdown; dielectric strength; Dielectrics; Filling; Gases; multicomponent mixtures; perfluorinated ketones; Sulfur hexafluoride
• ISBN: 9781479927876; 1479927872
• ISSN: 2334-0975
• DOI: 10.1109/EIC.2014.6869432

Since several decades SF 6 plays a dominant role for insulation and switching in transmission and distribution equipment due to its superior insulation and arc quenching capabilities. Leakage rates of modern SF 6 switchgear are extremely low and careful handling processes ensure minimum SF 6 emissions during operation. In the past several attempts have been made with different gases and gas mixtures to find alternatives with lower global warming potential, all of them showing severe drawbacks that restricted their implementation. This paper presents a new gas mixture for insulation with limitations within an acceptable range. Composed of perfluorinated ketones with technical air or CO 2 it shows a comparable insulation capability to SF 6 , where this mixture has a very short atmospheric lifetime with a global warming potential of approximately one and zero ozone depletion potential. Measurements of the dielectric strength of the new mixtures and reference gases are done in a principle test device under homogeneous electrical field conditions over a wide pressure range. Synergistic effects similar to SF 6 /N 2 mixtures are observed between the perfluorinated ketones and background gases used. It is found, that the AC and lightning impulse performance of the investigated mixtures can approach SF 6 values at increased total filling pressures.