The specific reaction between glycine and nitroethane is not commonly discussed or reported in the available search results. Glycine is a nonpolar, neutral, aliphatic amino acid with the chemical formula C2H5NO2. Nitroethane, on the other hand, is an organic compound with the formula C2H5NO2.

While there may be potential reactions between glycine and nitroethane under specific conditions, such as in the presence of suitable catalysts or reactants, I could not find any specific information or examples of such reactions in the available search results.

If you have a specific context or purpose in mind for the reaction between glycine and nitroethane, it would be helpful to provide more details so that I can provide a more tailored response.

The recovery of nitroethane typically involves separation and purification processes. The specific methods used can depend on the desired purity level and the intended application of the nitroethane. Here are a few general approaches that can be employed:

1. Distillation: Distillation is a common method https://bbgate.com/tags/nitroethane/ used to separate and purify organic compounds based on their boiling points. Nitroethane has a boiling point of around 114-116°C, so distillation can be used to separate it from other components in a mixture.

2. Solvent Extraction: Nitroethane can be extracted from a mixture using suitable solvents. This process involves dissolving the mixture in a solvent that selectively extracts nitroethane, followed by separation and recovery of the solvent and nitroethane.

3. Crystallization: Crystallization can be employed to purify nitroethane by allowing it to form crystals while impurities remain in the liquid phase. The crystals can then be separated and further purified if necessary.

It is important to note that the specific recovery methods and conditions may vary depending on the specific situation and requirements. Additionally, it is crucial to follow proper safety protocols and regulations when handling and recovering nitroethane.