Using a two-dimensional LDA-System, measurements in an atmospheric boundary layer wind tunnel have been made in the intermediate field of double-arranged, mound-mounted shelterbelts. The porosity of the shelterbelts ranged from 0% to 52%. For each porosity, seven different distances of the two windbreaks between 5 and 25 times the windbreak height were investigated. The efficiency of the windbreak systems is assessed by means of protection parameters considering the change of horizontal momentum on bodies immersed in the flow, of pedestrian comfort conditions and of momentum exchange in vertical direction. Furthermore recirculation zones and the change of kinetic energy are shown. The measurement results are given in the form of contour plots indicating flow quantities and protection volumes between the two windbreaks. The shelter efficiency of the investigated windbreak systems is compared to that of adequate single line windbreaks. It is shown that for certain windbreak configurations the wind-protected area in the intermediate field of consecutively arranged windbreaks becomes larger in comparison to a single windbreak.