Balance of plant issues for the current baseline EU near-term demonstration power plant design (DEMO) have been assessed for the first time by exploratory power cycle modeling considering both Rankine (water/steam-based) and Brayton (helium-based) cycles, together with examination of the technology readiness, precedence and risk for components within each power cycle option. Fixed primary circuit designs were considered for DEMO with the assumption of near-term, ITER-like components with operational temperatures dictated by material performance. Cycle simulations indicate Rankine cycles are able to meet the required net plant efficiency target of 25% via incorporation of the divertor heat in the cycle with reheat and feed heating. By contrast, for the operational temperatures proposed, Brayton cycles offer very low plant efficiencies and cannot meet the electrical output target. A technology assessment demonstrates that the required water/steam-based plant for the Rankine cycle offers substantial operational precedence and low levels of technical risk for key components. Helium-based plant instead presents increased risk and limited component precedence, at these powers, for both the primary blanket circuit and any secondary Brayton cycle applications.