Escape inhibition of unsymmetrical dimethylhydrazine in aqueous solution by carboxyl-rich graphene oxide loaded with Fe3O4

Unsymmetrical dimethylhydrazine (UDMH) is a common liquid propellant. In order to reduce the losses caused by propellant leakage accidents, water spraying devices have been widely applied in UDMH storage sites. However, the UDMH pools are formed in the storage facilities due to this emergency measure, resulting in the generation of toxic UDMH gas. To solve this practical problem, a magnetically recoverable sorbent for UDMH leakage is designed and prepared in this work. The microstructure characteristics of the green recoverable inhibitor which meet the theoretical design requirements are verified, so environmental protection and recyclability can be achieved. The dynamic spray experiments under different leakage conditions show that the treatment of UDMH leakage accidents with this green recoverable agent helps reduce the maximum leakage of UDMH gas, saving valuable time for subsequent emergency rescue. Additionally, the environmental pollution caused by leakage accidents can be greatly reduced.

Automated summary

In order to reduce losses caused by propellant leakage accidents, water spraying devices have been applied in UDMH storage sites. However, this emergency measure results in the formation of toxic UDMH gas. To solve this problem, a magnetically recoverable sorbent for UDMH leakage is designed and prepared, which meets the requirements of environmental protection and recyclability. Dynamic spray experiments show that the use of this recoverable agent helps reduce UDMH gas leakage and environmental pollution caused by leakage accidents.