| 1. | Purification of gardenia yellow by macroporous adsorption resin
大孔吸附树脂精制栀子黄色素 |
| 2. | Food additive carthamin yellow
食品添加剂红花黄色素 |
| 3. | Technical investigation of an absorbent ab - 8 in refining of gardenia yellow pigment
8精制栀子黄色素的工艺研究 |
| 4. | Study on the chemistry stability of yellow pigment from oenothera biennis l . flower
月见草花黄色素的稳定性测定 |
| 5. | Experimental studies on bacterial endotoxin test of safflor injection
红花黄色素抑制血小板激活因子介导的血小板活化作用的研究 |
| 6. | Protective effects of safflow yellow on cerebral ischemia and reperfusion injury in mice
红花黄色素对小鼠脑缺血再灌注损伤的保护作用 |
| 7. | Inhibition of safflor yellow on rabbit platelet activation induced by p latelet activating factor
红花总黄色素体外抑制血小板激活因子受体结合作用的研究 |
| 8. | Verification tests showed that the established mathematical model could describe the extraction process of safflower yellow pigment well , so it could directed the production and the process planning of safflower yellow pigment
验证实验表明,所建立的数学模型能够较好地描述红花黄色素的浸提过程,对于红花黄色素的生产和工艺设计具有理论指导作用。 |
| 9. | ( 3 ) orange pigment could be oxidized with hydrogen peroxide to yellow pigment . concentration of h2o2 was proportional to creation of yellow pigment . the quantity of orange pigment was influenced by the nitrogen source of the culture medium
( 3 )对橙色素进行了初步研究,橙色素可以氧化为黄色素,且氧化剂的浓度越大,黄色素生成率越高;氮源是影响橙色素产量的一个主要因素,以nh _ 4cl为氮源,确定其最适添加量为0 . 01 。 |
| 10. | On the basis of the equation of mass equilibrium , the important kinetics and thermodynamics parameters in the extraction process of safflower yellow pigment were obtained by experimental determination , the mathematical model for the extraction process of safflower yellow pigment was established
摘要以质量平衡方程式为基础,通过实验刚定,求得了红花黄色素浸提过程中重要的动力学和热力学参数,建立了红花黄色素浸提过程的数学模型。 |
