Details

Autor(en) / Beteiligte

• Chen, Dai Di
• Li, Qingxin
• Wu, Jin Chuan

Titel

Efficient removal of purine compounds from solutions via biomass carbons derived from pomelo peel

Ist Teil von

• Journal of bioscience and bioengineering, 2023-11, Vol.136 (5), p.383-390

Ort / Verlag

Elsevier B.V

Erscheinungsjahr

2023

Beschreibungen/Notizen

• The high purine diet could result in the increase of the level of blood uric acid, causing serious health problems such as hyperuricemia, gout, nephropathy and cardiovascular diseases. To find out a safe, cheap and super adsorption material for removing purines in stomach or pretreating high-purine beverages, we used different tissues of pomelo peel to prepare biomass carbon by drying, chemical modification and carbonization and then applied it to remove purine compounds in strong acidic solution, beer and soybean milk. The characteristic analysis of pomelo-peel-derived carbons (PPCs) indicated that the preparation methods significantly affected the structures and adsorption capacities of PPCs. Compared with the biomass carbon derived from bamboo, PPCs exhibited higher adsorption capabilities for purine compounds in strong acidic solution (adsorption rates > 99% in 15 min) and soybean milk (adsorption rates > 56% in 30 min) but slightly lower adsorption capabilities in beer (adsorption rates > 52% in 30 min). In addition, the adsorption capabilities of PPCs for purine compounds in beer and soybean milk were not obviously affected by temperatures. Therefore, PPCs are promising absorbents for applications in removing purine compounds from beverages to produce low-purine, healthier products for treating hyperuricemia. The strong adsorption capabilities of PPCs on purine compounds in strong acidic environment also provides a possibility of using the PPCs as food additives for removing purines in stomach for healthcare applications such as gout prevention after confirming their biosafety. [Display omitted] •The structures of PPCs were significantly affected by the preparation methods.•PPCs showed superior ability for removing purines in strong acidic solution than EBBC.•PPCs showed higher adsorption ability for purines in high-purine beverages than EBBC.