Abstract: A method of treating acute kidney injury in a patient is provided, including administering to the patient a 5-HT3-targeting drug, the 5-HT3A-targeting drug, or the pharmaceutically-acceptable salt or solvate of a 5-HT3-targeting drug or a 5-HT3A-targeting drug, in an amount effective to treat acute kidney injury in the patient.

Abstract: The present invention provides an edible blended vegetable oil for reducing blood lipids and cholesterol. The trace elements in the edible blended vegetable oil include 15-300 mg/kg of polyphenols, 290-1700 mg/kg of ?-sitosterol, 260-1500 mg/kg of campesterol, 150-1000 mg/kg of stigmasterol, 140-600 mg/kg of squalene, 50-160 mg/kg of parkerol, 40-120 mg/kg of ?-tocotrienol. The prepared edible blended vegetable oil of the present invention can achieve the effect of reducing blood lipids and cholesterol through a synergistic effect within the trace elements and a reasonable ratio within fatty acids. It is suitable for people with different health needs and has a broad market prospect and application value.

Abstract: The present invention provides an edible blended vegetable oil for reducing blood lipids and cholesterol. The trace elements in the edible blended vegetable oil include 15-300 mg/kg of polyphenols, 290-1700 mg/kg of ?-sitosterol, 260-1500 mg/kg of campesterol, 150-1000 mg/kg of stigmasterol, 140-600 mg/kg of squalene, 50-160 mg/kg of parkerol, 40-120 mg/kg of ?-tocotrienol. The prepared edible blended vegetable oil of the present invention can achieve the effect of reducing blood lipids and cholesterol through a synergistic effect within the trace elements and a reasonable ratio within fatty acids. It is suitable for people with different health needs and has a broad market prospect and application value.

Abstract: The present disclosure discloses a method for synchronously recovering metal and elemental sulfur, particularly to a method for synchronously recovering metal and elemental sulfur in sulfide ore tailings, and belongs to the technical field of waste recycling. According to the present disclosure, metal and sulfur element are transferred from a solid phase to a liquid phase in the form of ions respectively by leaching the sulfide ore tailings in an anode chamber, then metal ions are recovered in the form of hydroxide precipitate in a first cathode chamber, and sulfate ions are recovered in the form of elemental sulfur precipitate in a second cathode chamber. The method of the present disclosure can synchronously realize the recovery of metal and elemental sulfur in sulfide ore tailings, such that a metal recovery rate is up to 89.4%, and an elemental sulfur recovery rate is up to 45.

Abstract: The present disclosure discloses a method for synchronously recovering metal and elemental sulfur, particularly to a method for synchronously recovering metal and elemental sulfur in sulfide ore tailings, and belongs to the technical field of waste recycling. According to the present disclosure, metal and sulfur element are transferred from a solid phase to a liquid phase in the form of ions respectively by leaching the sulfide ore tailings in an anode chamber, then metal ions are recovered in the form of hydroxide precipitate in a first cathode chamber, and sulfate ions are recovered in the form of elemental sulfur precipitate in a second cathode chamber. The method of the present disclosure can synchronously realize the recovery of metal and elemental sulfur in sulfide ore tailings, such that a metal recovery rate is up to 89.4%, and an elemental sulfur recovery rate is up to 45.

Abstract: The present invention relates to a comprehensive evaluation method for the performance of contaminated flat membranes, which relates to the field of sewage and waste resource technology. The present invention firstly analyzed the composition of the surface elements of the contaminated membrane by EDX to determine the type of membrane contamination, and then designed different cleaning schemes for organic or inorganic pollution to obtain a sample membrane. When the tensile strength of the contaminated membrane decreased more than 50% than that of the control membrane, it is a waste membrane; when the tensile strength decreased less than 50% and the membrane flux reduced more than 30%, it is a waste membrane; when tensile strength decreased less than 50%, membrane flux reduced less than 30% and the carbon footprint was more than 188 g, it is a waste membrane; otherwise was a old membrane.

Abstract: The present invention relates to a comprehensive evaluation method for the performance of contaminated flat membranes, which relates to the field of sewage and waste resource technology. The present invention firstly analyzed the composition of the surface elements of the contaminated membrane by EDX to determine the type of membrane contamination, and then designed different cleaning schemes for organic or inorganic pollution to obtain a sample membrane. When the tensile strength of the contaminated membrane decreased more than 50% than that of the control membrane, it is a waste membrane; when the tensile strength decreased less than 50% and the membrane flux reduced more than 30%, it is a waste membrane; when tensile strength decreased less than 50%, membrane flux reduced less than 30% and the carbon footprint was more than 188 g, it is a waste membrane; otherwise was a old membrane.

Abstract: The invention relates to a method for determining the amount of oat flour addition in compound flours and noodles, and it belongs to the field of food detection technology. Based on the similarity of the fatty acid composition between oat and wheat, the quantitative analysis index used for measuring the oat flour addition was determined. Based on the differences of fatty acid contents in oat and wheat, the relationship between the changing trend of fatty acid composition and oat flour content in compound powders or noodles is employed to quantitatively determine the amount of oat added to these compound flours or noodles. The invention provides a highly sensitive and feasible method for safety monitoring and quality control of oat flours and oat noodles.