制药废水的处理工艺设计+CAD图纸(2)
According to the identified process, through the design of the grid, adjust the pool, upflow anaerobic reactor, A / O bioreactor, membrane bioreactor (MBR), nanofiltration and reverse osmosis devices and sludge concentration pool The design calculation of the main dimensions of the structure, the calculation of the hydraulic loss and the calculation of the pipeline, complete the design specification, the process flow chart (including the high-level arrangement), the layout plan and the main structure of the monomer map, and the pharmaceutical wastewater treatment plant plane and elevation Made a reasonable arrangement.
The design is technically feasible and economically sound. Investment costs of 6.4746 million yuan, operating costs of about 394.75 million / year, the average cost per ton of wastewater treatment is 21.63 yuan.
The design of the process is stable, small footprint, good handling effect, less secondary pollution. Using the current more mature treatment process, the sewage after treatment, Is expected to be able to reach the "pharmaceutical industry pollutant discharge standard mixed preparation category" (GB 21908-2008) emission standards. The actual effluent quality is roughly as follows: COD=100mg/L; BOD5=20mg/L;SS=70mg/L;NH3-N=15mg/L;SO42-=1.0mg/L;TP=0.5mg/L;PH=6-9. To achieve the purpose of eliminating pollution, realizing environmental protection and benefiting mankind.
Key words: Pharmaceutical wastewater treatment; UASB;A/O process;MBR;Nanofiltration ;reverse osmosis.
目 录
1 绪论 1
1.1 设计背景 1
1.2 设计依据与原则 1
1.2.1设计依据 1
1.2.2设计原则 1
1.3设计规模和目标 2
2 废水处理工艺的选择 2
2.1制药废水处理的基本方法 2
2.1.1制药废水处理方法的基本原理 2
2.1.2废水处理程度分级 2
2.2废水处理工艺流程的比较 3
2.2.1传统活性污泥法处理工艺 3
2.2.2生物接触氧化法处理工艺 4
2.2.3 A/O法处理工艺 5
2.2.4厌氧——缺氧——好氧生物脱氮除磷工艺(A2/O) 6
2.2.5氧化沟废水处理工艺 6
2.3设计方案的确定 7
2.4预计处理效果 9
3 设计说明 10
3.1 工艺说明 10
3.1.1混凝沉淀池 10
3.1.2调节池 10
3.1.3 UASB池 10
3.1.4 A1/O生物反应池 10
3.1.5 膜生物反应器(MBR) 11
3.1.6 反渗透 11
3.1.7污泥浓缩池 11
3.1.8 主要构筑物 12
3.2 设计计算 12
3.2.1混凝沉淀池设计 12
3.2.2调节池的设计 13
3.2.3 UASB的设计 14