Barium promoted ruthenium catalysts deposited on the boron nitride supports were characterised (XRD, O-2 and CO chemisorption) and tested in NH3 synthesis. Prior to use, the raw BN materials marked as BNS (Starck, 96 m(2)/g) and HCV (Advanced Ceramics Corporation Cleveland USA, 40 m(2)/g) were heated in an ammonia stream at 700-800 degrees C for 120 h. As a result, the oxygen content was reduced from 7.0 at% (BNS) to 3.5 at% (BNSNH3) and from 3.8 to 2.7 at% (HCVNH3), as evidenced by XPS. The kinetic studies of NH3 synthesis (63 or 90 bar; H-2:N-2=3:1) revealed that the catalysts based on the modified supports were more active, respectively, than those derived from starting nitrides, the difference being especially pronounced in the case of BNS and BNSNH3. Studies of the catalysts activation have shown, in turn, that the stabilisation in a H-2:N-2=3:1 mixture at 1 bar is very slow, i.e. the reaction rate increases slowly versus time on stream even at a high temperature of 550-600 degrees C. Stabilisation is faster and the NH3 synthesis rates are higher when the activation is performed with an ammonia rich mixture (10% NH3 in H-2:N-2=3:1) flowing under high pressure of 90 bar. It is suggested that boron oxide (an impurity) acts as a deactivating agent for Ba-Ru/BN and that the reaction between NH3 and B2O3 (B2O3+2NH(3)=2BN+3H(2)O)is responsible for the activity increase. A poisoning mechanism of B2O3 is discussed.

• 出版日期2005-3