When dealing with a compressible gas system, heat transfer and thermal effects are very important to account for. When a gas is flowing down a pipeline, it will cool down as the gas expands due to the frictional pressure drop. Many would say that adiabatic or isothermal conditions will bracket the potential flow rates that are possible for a constant pressure drop in a pipe. However, this is not the case. If a gas is cooled or heated as it flows down the pipeline, the flow rates that can result for a given pressure drop can actually be outside the “bounds”...