Ram-air kites are made of thin coated woven fabric and are attractive for the airborne wind energy industry due to their low weight and easy storage ability. The aerodynamic load is transferred from the top canopy through the ribs into the bridle system causing high stresses on the ribs. In order to spread the load as equally as possible, reinforcements are added on the ribs which also sustain the airfoil shape. The most common reinforcement strategy is to simply sewadditional fabric onto highly stressed locations of the ribs. For the kite designer one of the challenges is to find a balance between the right amount and orientation of reinforcements, and the extra weight added to the structure. In this study the layout of a rib reinforcement used in ramair kites is expressed as an optimization problem. The objective is to find an optimum reinforcement layout such that the deformation of the rib is minimized. Also, the force fromthe kite acting onthe tether is included into the expression and should be maximized, leading to a multidisciplinary optimization (MDO). For simplicity, the optimization is initially done in a twodimensional analysis of the flow and structure. To obtain the aerodynamic pressure acting on the rib the panel method software XFOIL [1] is utilized. The resultant deformations are computed with the finite elementmethod which takes the position of the reinforcements into account, augmenting the element’s stiffness based on [2]. Finally the optimum layout is found with a gradient based optimization method. The optimization is easily extendable to 3D which will eventually yield a more realistic load case acting on the rib structure due three-dimensional floweffects. Also the inflated kite structure in three dimensions behaves considerably different due to the curvature of the canopy.
Original languageEnglish
Pages141-141
Number of pages1
DOIs
Publication statusPublished - 2017
EventAirborne Wind Energy Conference 2017 - Freiburg, Germany
Duration: 5 Oct 20176 Oct 2017

Conference

ConferenceAirborne Wind Energy Conference 2017
Abbreviated titleAWEC 2017
CountryGermany
CityFreiburg
Period5/10/176/10/17

ID: 30640845