MECS® SolvR™ TECHNOLOGY FOR REGENERATIVE SO₂ RECOVERY
MECS® SolvR™ technology allows for the regenerative recovery of SO2 in single absorption sulfuric acid plant tail gas, Claus SRU tail gas SO2 recovery/recycling and in other applications where it is not possible to recover SO2 directly as sulfur or sulfuric acid.
An Energy Efficient SO2 Absorption Process with nearly Zero SO2 Emissions
SolvR™ Technology employs an absorption solvent that is readily available, environmentally friendly and lower in cost than solvents used in other SO2 absorption processes. The technology can be integrated into new sulfuric acid plant designs to achieve ultra low SO2 emissions and high energy recovery.
The SO2 recovered can either be liquefied, converted into sulfuric acid or converted into sulfur – all commercial grade products. The resultant cleaned gas has guaranteed SO2 levels of 20 ppm or less. In addition, the largest operating expense, steam, can be significantly reduced by using SolvR™ energy recovery techniques.
NO OBJECTIONABLE WASTE MEANS LOWER COST AND ENVIRONMENTAL COMPATIBILITY
In all regenerative systems, oxygen reacts with the SO2 dissolved in the solvent to form sulfuric acid. The sulfuric acid in turn reacts with solvent constituents, degrading the performance and requiring occasional regeneration.
With some technologies, the sulfuric acid reacts directly with the solvent, creating an undesirable waste and costly solvent losses. In contrast, MECS® SolvR™ Technology uses an eco-friendly solvent that does not react with the sulfuric acid. Instead, sodium ions in the solvent react with sulfuric acid to form aqueous sodium sulfate (Na2SO4), which is readily separated from the solvent. The aqueous sodium sulfate can then be discharged to the plant sewer or dried and transported as a solid waste to a municipal landfill.

Benefits for MECS® SOLVR™Technology
- Uses readily available, lower cost solvent
- Eco-friendly solvent
- Solvent does not react with sulfuric acid
- Produces aqueous sodium sulfate which can be readily separated
- Guaranteed SO2 emissions at 20 ppmv or less
- Lower operating costs due to low steam usage
- Simple, reliable operation over a wide range of SO2 concentrations

In some cases, the SO2-rich feed gas to the SolvR™ plant may need additional conditioning and cooling prior to entering the absorber tower. In these cases, a DynaWave® reverse jet scrubber and gas cooling tower with Brink® mist eliminators can be installed upstream of the SolvR™ plant.