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The first group (M68,F31;age 58a±s8a) was treated withaddition of potassiummagnesiumaspartate 40-60mL plus 10%potassium chloride 10mL;and second group (M126,F 45;age 53a±8a) was treated with theaddition of 25%magnesium sulfate 5-10mL plus 10%potassium chlor ide 10-15mL,both in 5%glucose injection 500mL,iv,drip,qd×10d.
门冬联用组99例在常规治疗基础上加用门冬氨酸钾镁40-60mL联合10%氯化钾10mL 治疗;硫酸镁联用组171例加用25%硫酸镁5-10mL联合10%氯化钾10-15mL治疗;2组药物均分别溶于5%葡萄糖注射液500mL中静脉滴注,qd,疗程均为10 d。
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The RE of TP, COD and turbidity except NH4+-N in the aeration process by adding AS and PAM for enhanced chemical phosphorus removal increased by 7.3~59.2%, 5.0~20.3% and 10.9~34.7%, respectively. Given enough dissolved oxygen, the nitrification was not affected by adding AS and PAM in the dosage range of the study. The RE of TP, COD and turbidity by postpose coagulation were better than by simultaneous coagulation, however, coagulation and sedimentation equipments were needed in postpose coagulation process. Therefore simultaneous coagulation was more suitable for transformation of AB process for chemically enhanced phosphorus removal.
曝气过程中投加AS和PAM复配化学强化除磷,总磷、COD、浊度去除率分别提高了7.3~59.2%、5.0~20.3%、10.9~34.7%,但不能提高氨氮的去除率;在溶解氧足够时,本研究投加量范围的AS和PAM的加入对硝化作用无影响;后置混凝对TP、COD、浊度的去除效果优于同步混凝,但需增加混凝沉淀设备,因此同步混凝更适合于于AB工艺的化学强化除磷改造。
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Methods Eighteen Wistar rats were randomized into 3 groups, namely the CLP group (n=6) in which the rats were subjected to cecal ligation plus puncture to induce severe abdominal infection, L-Arg group (n=6) where the rats received 300 mg/kg peritoneal L-Arg injection following CLP establishment, and the control group (n=6) where the rats underwent ventrotomy only.
18只Wistar大鼠随机分为CLP组(n=6)、ARG组(n=6)和对照组(n=6),CLP组和ARG组均采用大鼠盲肠结扎加穿孔制作严重腹腔感染模型;ARG组术后于腹腔注射L-精氨酸(300 mg/kgd),CLP组术后注射等量生理盐水,对照组仅行剖腹术。
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METHODS: The cultured human hepatic cells were divided into three groups, the potassium-magnesium aspartate injection group, mixture of MgSO 4 and KCl solution group, and buffer solution group.
对培养的人肝细胞L 02株分为 3组,分别于培养基中加入门冬氨酸钾镁复盐溶液,硫酸镁与氯化钾的混合液及空白对照。
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ammonification:加氨
ammoniation 氨合作用 | ammonification 加氨 | ammonify 加氨于
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ammonify:加氨于
ammonification 加氨 | ammonify 加氨于 | ammonite 菊石
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ammonify:加氨于, 使氨化
ammonifiers | 氨化菌 | ammonify | 加氨于, 使氨化 | ammonifying | 生氨(的), 加氨(的)
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ammonifying:生氨(的), 加氨(的)
ammonify || 加氨于, 使氨化 | ammonifying || 生氨(的), 加氨(的) | ammonioborite || 水铵硼石
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cadmium sulfide:硫化镉
硫化镉(cadmium sulfide)分子式CdS,分子量144.46,微毒,无放射性,微溶于水和乙醇,溶于酸,极易溶于氨. 硫化镉光导体,突出的优点是静电潜像电位差大,复印出的图像反差大. 因表层加有绝缘膜,使光导体的耐磨性好. 由于对光的灵敏度高,