Hydrogen gas is a very useful reagent with many uses in the petroleum, food, and chemical industries. Most hydrogen exists in covalently bonded molecules, and atmospheric air contains less than 1 ppm of diatomic hydrogen. Therefore, hydrogen gas is produced on a large scale for these uses, where steam reforming with methane and electrolysis of water are two of the primary methods. The more economic reaction of steam reforming is the reverse of the reaction depicted in Carbon Monoxide and Hydrogen - Sample 1 in the Simulation. Hydrogen has also been considered as an alternative fuel for vehicles designed to combust hydrogen and oxygen, which produces water as a product. However, concerns were raised because methane is typically used on a large scale to produce hydrogen gas. Assume that a gallon of gasoline contains 2400 g of carbon. If a gasoline engine achieves 30 miles per gallon, each mile consumes 80 g of carbon (about 107 g of methane contains 80 g of carbon). Alternatively, a hydrogen engine can achieve 80 miles per kilogram of hydrogen gas. What is the mass of methane (CH4) needed to produce enough hydrogen gas (H2) to drive one mile using the theoretical hydrogen engine? Express the mass in grams to two significant digits.
We have to calculate mass of methane to produce hydrogen gas to drive one mile and its depends on the method which we are using to extract the hydrogen one process reaction between methane and water and its produces carbon monoxide and hydrogen gas.
Another process is reaction between carbon monoxide and water and it produces carbon dioxide and hydrogen gas.
We are assuming 100% hydrogen is extracted
CH4 → C + 2H2
Amount of methane needed = (1000g of H2 / 180miles) / (2.01588 * 1g H2 / mol) * (1mol of CH4 2mol of H2) * (16.0425 g of CH4 /mol)
Get Answers For Free
Most questions answered within 1 hours.