Electrochemical ammonia compression

Every year a large amount of ammonia is mechanically compressed with a low efficiency (similar to 65%) as an environmentally friendly chemical for fuel storage, transportation, food preservation and air conditioning. Electrochemical compression with a high efficiency (93%) offers an opportunity for substantial energy savings. But ammonia is never considered electrochemically compressible because of the known decomposition at high applied potentials. The concept of using a carrier gas to co-compress ammonia was proposed but never experimentally validated. Here for the first time, we realized electrochemical compression of ammonia by using a proton exchange membrane as an NH4+ conductor and hydrogen as a carrier to avoid decomposition. The ammonia transfer mechanism and kinetics in a Nafion membrane was investigated and verified using electro-analytical methods, and the continuous electrochemical ammonia compression at a constant voltage of 200 mV with a stable current density for 7 hours has been demonstrated. NH4+ transports in the Nafionmembrane by hopping and vehicularmechanisms with a high NH4+ conductivity of 4 x 10(-2) S cm(-1) at 50% RH and 70 degrees C, and a constant transfer ratio of 2 between NH3 and H-2 ensure a stable and high compression rate.