The plate reformer consisting of combustion chamber and reforming chamber, which can be integrated in the MCFC fuel cell system, has been prepared and the performance test was carried out. In order to study the effect of initial temperature and space velocity on the performance of reformer, the temperature profiles were measured and the conversion of hydrogen and methane and the composition of products were analyzed. Upon the operating condition based on fuel cell stack having fuel utilization of 80%, the reformer was able to generate hydrogen for several kW fuel cell stack, maintaining the hydrogen conversion of above 99% and methane conversion of 98%. The temperature profile recorded during the test showed the endotherm representing the operating state of reformer.