During a routine de-pressurisation of a gas storage system, 700 kg/hr of methane and 200 kg/hr of butane are released into a flare system, where these two components are completely burned using excess air. Given that reaction goes to completion, calculate the mass flow (kg/hr) of water and carbon dioxide produced. If accidentally insufficient air were fed to the flare system (thereby preventing complete combustion and causing a safety hazard) and, as a consequence, only 300 kg/hr of methane and 100 kg/hr of butane were actually burnt calculate the mass flow kg/hr of unburned methane and butane present in the product gas, also express the answer as a percentage based on: exin en a) Actual gas mass flow supplied. b) Mass of unreacted gas as percentage of reacted gas.

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3. During a routine de-pressurisation of a gas storage system, 700 kg/hr of methane and 200 kg/hr of butane are released into a flare system, where these two components are completely burned using excess air. Given that reaction goes to completion, calculate the mass flow (kg/hr) of water and carbon dioxide produced. If accidentally insufficient air were fed to the flare system (thereby preventing complete combustion and causing a safety hazard) and, as a consequence, only 300 kg/hr of methane and 100 kg/hr of butane were actually burnt calculate the mass flow kg/hr of unburned methane and butane present in the product gas, also express the answer as a percentage based on: bobbe oi te et exim en a) Actual gas mass flow supplied. b) Mass of unreacted gas as percentage of reacted gas.