Research on the Decomposition Characteristics of Methane Hydrates Exploited by the NH 4 Cl/NaNO 2 System

Zhang, Jihong; Wan, Yi; Li, Ming; Wang, Yanan; Tan, Xinjian

Research on the Decomposition Characteristics of Methane Hydrates Exploited by the NH 4 Cl/NaNO 2 System

Jihong Zhang, Yi Wan (), Ming Li, Yanan Wang and Xinjian Tan
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Jihong Zhang: SanYa Offshore Oil and Gas Research Institute, Northeast Petroleum University, Sanya 572025, China
Yi Wan: The Key Laboratory of Enhanced Oil and Gas Recovery of Educational Ministry, Northeast Petroleum University, Daqing 163318, China
Ming Li: The Key Laboratory of Enhanced Oil and Gas Recovery of Educational Ministry, Northeast Petroleum University, Daqing 163318, China
Yanan Wang: SanYa Offshore Oil and Gas Research Institute, Northeast Petroleum University, Sanya 572025, China
Xinjian Tan: The Key Laboratory of Enhanced Oil and Gas Recovery of Educational Ministry, Northeast Petroleum University, Daqing 163318, China

Energies, 2025, vol. 18, issue 5, 1-11

Abstract: Considering the influence of the system conversion rate on hydrate decomposition kinetics and energy utilization during the decomposition process of pure methane hydrate in the NH 4 Cl/NaNO 2 system (an in situ chemical heat generation system), this study carried out hydrate decomposition experiments in the NH 4 Cl/NaNO 2 system under different decomposition conditions at low temperature and high pressure (3 °C, 8 MPa) and calculated the decomposition efficiency, reaction conversion rate, and methane energy efficiency. The results showed that, based on the differences in the kinetic behavior of hydrate decomposition, the decomposition process was divided into an unstable stage, a stable stage, and a decay stage. When the chemical reaction entered the stable stage, the hydrate decomposition process became stable, and it formed a stable dynamic response mode consisting of an exothermic chemical system and endothermic decomposition of hydrate. Four reactant concentrations (3 mol/L, 4 mol/L, 5 mol/L, and 6 mol/L) and three hydrochloric acid concentrations (0.0178 mol/L, 0.0225 mol/L, and 0.0356 mol/L) were designed. This proved that increases in the reactant concentration and H + concentration both improved the decomposition efficiency and energy efficiency of pure methane hydrate, but reactant concentrations up to 6 mol/L reduced the decomposition efficiency due to the formation of side reactions, and H + concentrations up to 0.0356 mol/L produced toxic reddish-brown nitrogen oxides. The overall decomposition efficiency of Cases 1–6 was up to 72.92%, the conversion rate was 25–45%, and the methane energy efficiency was higher than 3.5. The experiment proved the feasibility of exploiting pure methane hydrate in this self-generating heat system, which provides a new idea for the application of this system in hydrate exploitation.

Keywords: methane hydrate; NH 4 Cl/NaNO 2 system; conversion rate; reaction kinetics (search for similar items in EconPapers)
JEL-codes: Q Q0 Q4 Q40 Q41 Q42 Q43 Q47 Q48 Q49 (search for similar items in EconPapers)
Date: 2025
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