【专科医院污水处理设备】生产加工
| 产品名称 |
【专科医院污水处理设备】生产加工 |
| 公司名称 |
山东乐斌环保科技有限公司 |
| 价格 |
.00/套 |
| 规格参数 |
品牌:乐斌环保
型号:乐斌400
产地:山东 |
| 公司地址 |
临朐县安家河工业园 |
| 联系电话 |
0536-3468518 15621707227 |
产品详情
【专科医院污水处理设备】
公司(http://www.chemdrug.com/company/)理念
公司始终坚持“质量第一、服务至上”的原则,以质量求发展,并通过规范的管理制度创造出的产品质量,我公司为广大的城镇污水处理、农村连片整治、学校、小区、高速服务区,医院、宾馆酒店、工厂、、旅游景点风景区等以及各地环保公司提供优化的配置和高质量的水处理成套设备,及其相关的零部件耗材;其业务范围遍及全国各地。
适用范围
牙科 皮肤病疾病医学检验所健康管理中心小型诊所村镇卫生所
卫生所 康复中心内分泌代谢哮喘病糖尿病血液血管病
口腔门诊 心血管烧伤病废物中心冠心病邮电
村镇卫生院 五官科整形科结核卫生单位眼病防治工人
服务 乡镇卫生院美容美容外科整形外科仁爱老年
美容院美体 齿科交通肝胆肺科血管协和
血站血液 整形外科职工铁路机关研究所
美年大健康体检 手术室化验室养老老年公寓妇婴骨伤
城镇卫生服务 脑科牙防所地段防护眼科
社区门诊研究所疾控 老年护理卫生服务公费慈善
儿童妇产男子 中*附属妇幼
女子铁路社区卫生所 甲级大型肿瘤泌尿外科
眼科街道甲级宠物 五官科乡镇社区
手术室专科养老检验 综合肛肠整形
处理范围
牙科 城镇医疗卫生服务中心医院 乡镇医院整形医院社区医院 眼科
中医院 研究所美容医院宠物医院 妇幼医院眼科医院敬老院 实验室
社区门诊 齿科口腔医院牙科医院 社区卫生院小型卫生室 急救中心
乡镇卫生院 儿童医院肛肠科医院 美年大健康体检中心 病房卫生室
疗养院美容院 街道医院三甲医院 机关医院中心医院 美容医疗机构
手术室检验中心 研究所医疗门诊 附属医院门诊部 检验科工人医院
中心血站血液中心 结核病防治所 口腔牙科门诊 铁路医院地段医院
疾控中心儿童科医院 五官科医院 小区卫生院 微整形医院肿瘤医院
体检中心牙防医学医院 附属医院 综合医院 脑科医院口腔门诊医院
专科院综合医院社区医院 整形科 手术室 传染医院血管医院养老院
1医院污水处理设备 1医疗污水处理装置 1口腔医院污水处理设备 1牙科医疗污水处理设备 1体检中心污水处理设备 1诊所污水处理设备 1门诊污水处理设备 1齿科污水处理设备 1实验室污水处理设备 1化验室污水处理设备 1手术室废水处理设备 1医院手术室污水处理设备 1疗养院污水处理设备 1美容医疗污水处理设备 1检验中心污水处理设备 1中心血站污水处理设备 1血液中心污水处理设备 1疾控中心污水处理设备 1健康体检中心污水处理设备 1民营医院污水处理设备 1私立医院污水处理设备 1专科医院污水处理设备 1综合医院污水处理设备 1骨科医院污水处理设备 1传染病医院污水处理设备 1整形医院污水处理设备 1宠物医院污水处理设备 1乡镇医院污水处理设备 1乡镇卫生院污水处理设备 1社区医院污水处理设备 1社区门诊污水处理设备 1医疗服务中心污水处理设备 1小型医院污水处理设备
活性污泥法
活性污泥法是以悬浮生长的微生物在好氧条件下对污水中的有机物、氨氮等污染物进行降解的废水生物处理工艺。
1. 工艺特点
活性污泥工艺的优点是对不同性质的污水适应性强,建设费用较低。
活性污泥工艺的缺点是运行稳定性差,容易发生污泥膨胀和污泥流失,分离效果不够理想。
2. 设计参数
曝气池和二沉池设计遵循《室外排水设计规范》GBJ 14-87(1997)有关规定;
曝气池污泥负荷根据出水有机物和氨氮要求,需要时应满足硝化要求。
3.适用范围
传统活性污泥法适用于800床以上水量较大的医院污水处理工程。对于800床以下、水量较小的医院常采用活性污泥法的变形工艺——序批式活性污泥法(SBR)。
SBR工艺是活性污泥法的一种变型。SBR按周期循环运行,每个周期循环过程包括进水、反应(曝气)、沉淀、排放和待机五个工序。SBR单个周期的进水、反应、沉淀、排放和待机都是可以进行控制的。每个过程与特定的反应条件相联系(混合/静止,好氧/厌氧),这些反应条件促进污水物理和化学特性有选择的改变。
SBR工艺具有流程简单、管理方便、基建投资省、运行费用较低、处理效果好及设备国产化程度高等优点。
工艺单元操作规程
1、操作人员班前工作:
a、认真进行交接班工作,并做好交接班记录;
b、在控制室对运行各单元情况进行核对,特别查清运行不正常单元;
c、 结合班中巡检要求,对污水处理站进行一次系统检查,检查运转设备润滑油状况。特别注意水泵、风机润滑油位,严禁少油、无油运转,避免设备事故。
2、各设备运行操作规程及开关顺序
a、电控系统
每次上班前要先检查各设备按钮是否设置在手动状态,若不是则要先调置在手动状态,然后开启电控箱上的总开关,再将各个设备的电源按钮调置自动状态,待各个设备正常运行5min后方可离开。如出现紧急情况应立刻断开配电柜上的电源总开关。待问题解除后再闭合开关。
电控箱有工况故障显示时,故障应在8—24h内排除,防止无备泵连续运行情况的发生,以杜绝运行事故。
除专业电工以外,其他人员在开启电控柜时务必先切断电控柜总电源,如因特殊原因必须在总电源开启的状态下检查电路,则在电控柜打开后,不得手动触摸内部构件。
b、机械格栅
机械格栅的开启要根据栅前浮渣量的实际情况来控制,栅渣除完后应立刻关停格栅,每间隔3日,应清理一次栅渣,防止栅渣堵塞格栅,影响后续工序的正常运行。人工清理栅渣时应关闭格栅,以防危险发生。为此本工程的机械格栅采用手动控制,同时要求值班人员注意观察栅前浮渣量。
c、污水提升泵
污水提升泵主要是将调节池中的污水提升至水解酸化池中然后进行生化处理。对污水提升泵运行要求如下:
1.罗茨风机运行20分钟后污水提升泵自动开启进水1小时自动关闭根据进水水量调节潜水泵的开停时间。
2.水泵启动后应至少守机5分钟检查设备情况,如有不正常的振动、声音或出水情况等异常,应立即停机检查,绝不允许投入运行后随即离开设备,正常运行期间每隔20分钟巡检一次,如果发现流量计示数低于平均值应立即关停,待蓄水一段时间后再开启。
3.污水提升泵为一用一备,阀门调控,连续运行平均每间隔4小时转换另一台泵使用,转换时顺序操作:关闭当前泵电源→关闭其阀门,然后开启另一台泵阀门→开启电源(注意顺序)。
【专科医院污水处理设备】
我国依据地表水水域环境功能和保护目标,将水质级别划分为五类,每个级别的水从功能用途上区分较为明显。
I类。主要适用于源头水、国家自然保护区。这类水经简单处理消毒后可作为饮用水。典型I类水质湖泊为洱海、抚仙湖、泸沽湖、班公湖,而著名的千岛湖则是Ⅰ类水质重要水库。
由聚乙烯改性制得共聚物粘接剂,不仅具有与熔结环氧经化学反应形成共价键(酯键)的能力,而且通过接枝改性,破坏了聚乙烯材料的电子偶极平衡,使熔结环氧与共聚物分子间范德华力增强,那么接下来,小编就来对水处理行业现状做个大致介绍,After hydrolysis and acidification, the wastewater enters oxygen-poor tank, contact oxidation tank and secondary sedimentation tank in order to circulate, so that the wastewater is in the environment of anoxic and oxygen-enriched cycle transformation, and the following transformation can be achieved.- Denitrification; converting organic nitrogen into ammonia nitrogen, transforming ammonia nitrogen into nitrite nitrogen and nitrate nitrogen through aerobic microbial nitrification bacteria, and then transforming nitrite nitrogen and nitrate nitrogen into nitrogen through anaerobic microbial denitrification bacteria, escaping from sewage- phosphorus removal; high phosphorus content sludge is formed by phosphorus accumulating bacteria releasing phosphorus in anoxic environment and absorbing excessive phosphorus in oxygen-rich environment.- Degrading organic matter thoroughly; On the basis of hydrolysis acidification, utilizing the characteristics of rapid propagation of aerobic microorganisms in oxygen-rich environment and rapid propagation of anaerobic microorganisms in anoxic environment, degrading organic matter in turn and transforming it into sludge(3) Disinfection of sewage to meet discharge standards(4) Regular removal of sludgeThe characteristics of sewage treatment methods in small and medium-sized hospitals are as follows: the volume of the oxygen-poor pool is much smaller than that of the contact oxidation pool. When the sewage circulates, the residence time in the oxygen-poor pool is very short, while the residence time in the contact oxidation pool is very long, so that the sludge produced by biochemical treatment is mainly deposited in the contact oxidation pool.The characteristics of sewage treatment methods in small and medium-sized hospitals are as follows: the oxygen-poor pool is composed of adjusting aeration pool and anoxic pool in series. The two pools are connected structure. By changing the aeration degree of the adjusting aeration pool, the sewage is fully mixed and the water quality is uniform.4. The sewage treatment method for small and medium-sized hospitals as described in claim 3 is characterized in that the sewage treatment station also includes a sludge concentration pond which is connected with a contact oxidation pond, and the sludge concentration pond is equipped with a reflux pipe.与调节曝气池连通,回流管路上配有回水泵,开启回水泵,将污泥浓缩池的上层污水泵回调节曝气池,使下层的污泥浓缩,也使接触氧化池中的污泥持续进入污泥浓缩池The characteristics of sewage treatment methods in small and medium-sized hospitals are as follows: chlorine dioxide is injected into the drainage pipe of secondary sedimentation tank; chlorine dioxide flow rate is accurately measured by metering pump to reduce residual chlorine residue; at the same time, water body is sufficiently mixed from the contact oxidation tank and aerated by blower to reduce dosage.6. The small and medium-sized hospital sewage treatment method described in Fig. 4 is characterized by that the sewage return flow R = 1:1, i.e. the sewage circulation flow: the treated discharge flow = 1:1.At present, the total number of medical units above county level (including industrial and mining enterprises hospitals, military hospitals, private hospitals and Sino-foreign joint venture hospitals, etc.) in our country (except Hong Kong Special Administrative Region, Macao Special Administrative Region and Taiwan region) is about 21,000, of which 1041 are tertiary first-class hospitals, accounting for about 5% of the total number of hospitals, 90% of which are small and medium-sized hospitals below secondary level, relatively speaking, large hospitals. All of them have more standardized wastewater treatment systems, and are equipped with professional maintenance and management. However, due to the reasons of fund, operation cost and personnel quality, a large number of small and medium-sized medical institutions are weak in the construction of medical wastewater treatment facilities, and their operation is not completely normal, which is a difficult and important point in current pollution control.The sewage discharged by hospitals consists of two parts, one is domestic wastewater, the pollutants are mainly organic matter, the other is medical wastewater, the pollutants are mainly nitrogen, phosphorus and so on. At present, most of the small and medium-sized medical institutions in our country generally adopt the first-level intensified treatment. The typical process is as follows.The characteristic of the first-level intensification process is that it can effectively control pathogens through disinfection process, but the removal effect of COD and BOD is not good and can not meet the requirements of environmental protection.In recent years, with the progress of social economy and the improvement of people"s awareness of environmental protection, more and more small and medium-sized medical institutions have built a number of secondary biochemical treatment facilities. The processes adopted include A/O, SBR, oxidation ditch and contact oxidation.As can be seen from Table 1, three biological treatment methods, A/O, SBR and oxidation ditch, all have good treatment effect.However, for small and medium-sized medical institutions, due to the lack of funds and managers, there may be insufficient funds in the actual implementation process, or there may be inadequate management and excessive discharge.Relatively speaking, contact oxidation method is more suitable for sewage treatment in small and medium-sized medical institutions, but contact oxidation method lacks oxygen-deficient stage, so the ability of denitrification is weak. Nitrogen in effluent is basically converted to nitrate, ammonia nitrogen may reach the standard, and the essence of total nitrogen has not been removed.The purpose is to overcome the shortcomings of the above-mentioned treatment methods and provide a more suitable treatment method for sewage treatment in small and medium-sized hospitals. The treatment process of this method is simple, occupies less land, has low construction investment and operation cost. It can not only meet the sewage treatment standards, but also is easy to operate and manage, and has low requirements for the quality of operators.
