The effect of the relative hot-to-cold side volume-ratios on dynamic characteristics of a CBC (closed Brayton cycle) with sCO(2) (supercritical carbon-dioxide) as the working-fluid is investigated in this study. The analysis of the CBC is conducted in the context of power generation in a direct-heated (no thermal-oil loop) and dry-cooled parabolic-trough solar thermal power plant, using a control-oriented model of the CBC. Dynamic performance of the sCO(2) CBC with different relative volume-ratios between the hot and cold sides of the sCO(2) CBC is compared using simulations for conditions on a representative summer day. The CBC hot-to-cold side volume-ratio influences CO2 mass movement and hence power output Increasing the hot-to-cold side volume-ratio in the CBC results in a slower, more gradual dynamic response when there are fluctuations in solar heat input and ambient air temperatures. The dynamic response characteristics of a CBC with a hot-to-cold side volume-ratio less than one are shown to differ significantly from a CBC with a volume-ratio greater than or equal to one. (C) 2013 Elsevier Ltd. All rights reserved.