The boiling Twente Taylor-Couette (BTTC) facility: Temperature controlled turbulent flow between independently rotating, coaxial cylinders

Abstract

A new Taylor-Couette system has been designed and constructed with precise temperature control. Two concentric independently rotating cylinders are able to rotate at maximum rates of fi = 20 Hz for the inner cylinder and fo = 10 Hz for the outer cylinder. The inner cylinder has an outside radius of ri = 75 mm, and the outer cylinder has an inside radius of ro = 105 mm, resulting in a gap of d=30 mm. The height of the gap L =549 mm, giving a volume of V=9.3l. The geometric parameters are η = ri/ro = 0.714 and = L/d = 18.3. With water as working fluid at room temperature the Reynolds numbers that can be achieved are Rei = ωi ri (ro-ri)/ = 2.8 × 105 and Reo = ωo ro (ro-ri)/ = 2 × 105, or a combined Reynolds number of up to Re = (ωi ri -ωo ro)(ro-ri)/ = 4.8 × 105. If the working fluid is changed to the fluorinated liquid FC-3284 with kinematic viscosity 0.42 cSt, the combined Reynolds number can reach Re = 1.1 × 106. The apparatus features precise temperature control of the outer and inner cylinder separately, and is fully optically accessible from the side and top. The new facility offers the possibility to accurately study the process of boiling inside a turbulent flow and its effect on the flow.