Phosphorus flow in production of soy protein concentrate and isolate from defatted soybean flour

Implications of excess phosphorus (P) in waste streams obtained from soy-based protein preparation processes on the environment and their potential utilization as P-source are two significant understudied areas. Soybean-based protein ingredients for food products retain comparatively enhanced functional properties and are cheaper than other plant-based proteins. Soybean protein can be extracted and utilized as a food ingredient primarily by preparing soy protein concentrates (SPC) and soy protein isolates (SPI) from soybean meal/defatted soy flour (DSF). In a typical soybean processing facility, along with the soy products and soy-protein preparations, the recovery of phosphorus as a coproduct will enhance the economic feasibility of the overall process as the recovered P can be used as fertilizer. In this study, the SPC and SPI were prepared from the DSF following widely used conventional protocols and P flow in these processes was tracked. In SPC production, similar to 59% of the total P was retained with SPC and similar to 34% was in the aqueous waste streams. For SPI process similar to 24% of total P was retained with SPI and similar to 59% went in the waste solid residue (similar to 40%) and aqueous streams (similar to 19%). About 80%-89% P removal from the waste aqueous streams was achieved by Ca-phytate precipitation. This work demonstrated that in the process of SPC and SPI preparation the phosphorus from the waste aqueous streams can be precipitated out to avoid subsequent eutrophication and the waste solid residue with similar to 40% P can be reused as a P-fertilizer as other applications of this residue are unspecified.

Automated summary

The implications of excess phosphorus in waste streams from soy-based protein preparation processes on the environment and their potential utilization as a phosphorus source are understudied. Soy-based protein ingredients have enhanced functional properties and are cost-effective. In this study, soy protein concentrates (SPC) and soy protein isolates (SPI) were prepared from soybean meal/defatted soy flour (DSF), and the phosphorus flow in these processes was tracked. The results showed that phosphorus from the waste streams can be precipitated out to avoid eutrophication, and the waste solid residue with phosphorus can be reused as a fertilizer.