Abstract:

Unlike conventional fossil fuels，such as coal，petroleum and natural gas，natural gas hydrate is a solid deposit present in deep and porous formation. Consequently the production of natural gas from natural gas hydrate is more difficult than that of conventional fossil fuels due to in situ decomposition of the hydrate，which requires energy input not only for the decomposition but also for temperature increase of the hydrate and the porous formation. These energy requirements inevitably reduce the effective energy obtainable from the hydrate and increase CO₂ emission intensity. Based on thermodynamic calculations and field data reported in the literature，this study analyzes energy consumption required in the production of nature gas from natural gas hydrate under various deposit conditions and compares its CO₂ emission intensity with that of conventional fossil fuels. It was found that natural gas production from natural gas hydrate has higher CO₂ emission intensity than that of petroleum and coal under different deposit conditions.