According to the main design parameters of the process, through reasonable determine the processing unit of the structure design calculations, while drawing the design process, but also the need for wastewater treatment plants and elevation plane for a reasonable layout and calculation. Waste water thereby removing the grille which macromolecules pollutants into the conditioning tank waste water of pH adjustment, and then by anaerobic hydrolysis acidification process easier part of degradable organic contaminant removal, while more difficult to degrade decomposition of organic macromolecules relatively simple small organic molecules, the following entry aerated biological fluidized bed, making wastewater organics and ammonia in sewage in contact with the filler can remove most, go through precipitation of secondary sedimentation tank makes wastewater suspended and dissolved organic matter can be removed, and finally in the chlorine dioxide disinfection of Escherichia coli in wastewater removal, thus achieving the wastewater discharge standards.
Treated wastewater indicators have reached the "Integrated Wastewater Discharge labeled" The (GB8978-1996) Ⅰ grade standards, COD, BOD, SS, NH3-N, the number of total coliform removal rate can reach 67%, respectively, 87%, 42%, 70%. 99%, that, a pH of 6.0 ~ 9.0, COD ≤ 100 mg / L, BOD5 ≤ 20 mg / L, SS ≤ 70 mg / L, NH¬3-N ≤ 15 mg / L, coliform count ≤ 100 num / L .
After a project budget calculations can get the plant's construction costs, the cost of the overall cost of up to XXXX million. T processing cost of $ 3.
This process has a strong impact resistance, small footprint, high efficiency, stable operation. Our emissions cuts through a lot of pollution concentration, making the quality of the water quality improvement play a positive and effective role.
Keywords: hospital waste; E. Coli; Hydrolysis Acidification - Biological Fluidized Bed - ClO2 disinfection process.
目 录
1、绪论 1
1.1 医院废水的现状 1
1.2医院废水的来源 1
1.3医院废水的特点 1
1.4医院废水的危害 1
1.5处理医院废水的意义和处理难点 2
1.6医院废水的处理方法 2
1.6.1物化处理 3
1.6.2生化处理 4
1.6.3消毒处理 5
1.6.4新型处理 7
2、设计方案 8
2.1设计依据、原则及范围 8
2.2设计水量水质的要求 9
2.3设计方案的选择 9
2.4工艺流程 10
3、 处理效果预测 11
4、各单元构筑物计算 12
4.1 格栅 12
4.2调节池 14
4.3水解酸化池 15
4.4曝气生物流化床 17
4.5二沉池 19
4.6接触消毒池 22
4.7清水池 23
4.8污泥浓缩池 24
4.9集水井 27
5、 厂区总体布置 28
5.1 平面布置及总平面图 28
5.1.1平面布置的一般原则 28
5.1.2厂区平面布置形式 28
5.1.3厂区平面布置的具体内容 28
5.2厂区高程布置 28
5.2.1厂区高程布置应考虑事项 29
5.2.2高程计算水头损失计算 29
6、 主要构筑物、设备及材料 32
6.1主要构筑物 32
6.2主要设备 32
6.2.1泵 32
6.2.2风机 32
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