This study investigates the feasibility of scaling-up to industrial scale the production of washing fines – hemp composite. In previous studies (Mazhoud, 2017), (Mazhoud et al., 2017), such composites were developed with a high control of formulation. The washing mud were fully dried, and then milled. The washing fine – hemp composites were prepared from stabilized washing fine and hemp. This study aims to reduce the mud conditioning process in order to save energy and time. In a first time, the methodology for the conditioning of washing mud is detailed. Composite are then prepared considering unstabilized matrix and stabilized matrix with three stabilizer to fine mass ratios (5, 10 and 20 %). The apparent density increases with stabilizer to fine mass ratios according a degree two polynomial law. The mechanical compressive strength increases linearly with apparent density and the performance allows the studied composites to be used as wall formulation regarding the French national rules for hemp concrete. The thermal conductivity values range from 0.107 to 0.123 W/(m.K) at (23°C; 50%RH) reached from production point, this corresponds to a mass water content about 6%. Like for mechanical compressive strength, the thermal conductivity is mainly induced by apparent density. These thermal conductivity values make studied composite suitable for use as distributed insulation or thermal corrector. On hygric point of view, the Moisture Buffer Values classify all formulations as excellent hygric regulators. Finally, this paper shows the feasibility of scaling-up and that multi-physical properties of produced composites make them suitable for use in building envelop. The HSC-10 formulation seems to be the most promising regarding MBV results and considering that it would be possible to reduce thermal conductivity by acting on implementation in order to reduce apparent density.