今天是
 
      会员中心
用户名:
密  码:
新用户注册  忘记密码?
      产品列表
技术文档
 气体
 气体设备
 气体纯化、净化设备
 气体生产技术
 行业知识
 分子筛、催化剂
 气体设备说明书
 工业气体使用
 能源
 氢能
 仪表,阀门,压缩机
 气体设备顾问
 专利转让平台
 转摘
业内资讯
 气体行业
 气体、气体设备
 气体行业动向
 行业网站介绍
 行业新闻,转摘
 行业人才信息
 气体设备行业光荣榜
 气体展会,会议专题
 供应专区
 采购专区
 技术转让、攻关
 新能源及应用
 闲置气体设备
 客户交流
图书
 气体行业
 设备
 专业图书
 行业期刊
 国家标准
 氢氮氩设备发展应用
 氢能产业发展
 行业培训
展会
 气体、气体设备
 气体设备相关行业
 行业展会、行业会议
 能源行业展会
能源
 氢能
 太阳能
 风能
 生物能
 海洋能
 能源材料
 新能源
 电池
 燃料电池
 加氢站
气体
 氢气
 氧气
 氮气
 氩气、氦气
 二氧化碳
 焊接保护气体
 标准气体
 国家标准
 气站技术
 气体技术
气体使用行业
 冶金、粉末冶金
 热处理、光亮退火
 镀锌线、板材、管线
 石油、化工、橡胶
 生物、医疗医药、食品
 电力、电子、焊接
 玻璃、石英、灯泡
 科研单位、专科大学
 氢气与健康
气体行业知识
 钨钼、粉末冶金
 有色金属
 热处理、光亮退火
 工业气体循环处理
 催化加氢
 分子筛
 催化剂
气体设备材料
 气体仪表、压力、流量
 控制器、PLC、传感器
 阀门、执行机构、定位器
 压缩机、风机、泵
 气体设备附材
气体设备分类
 制氢设备
 制氮设备
 气体净化、纯化设备
 混合配气,标准气体
 气体回收设备
 制氧设备
合作单位
产品展示  
 设备 >> 水电解制氢设备 >> 电厂制氢站、Hydrogen Power Station
 
  
产品编号:
11910174816
产品名称:
电厂制氢站、Hydrogen Power Station
规  格:
5-10
产品备注:
制氢站,电厂氢站、水电解制氢、Hydrogen station, hydrogen power plant station, water electrolysi
产品类别:
设备
 
产品说明  

电厂制氢站、ydrogen Power Station
水电解装置以双极压滤式电解槽为主体,主要的附属设备置于气液处理器上,包括氢、氧分离器、碱液过滤器、循环泵,阻火器等。另外,同时配备的还有整流柜,控制柜,水箱,碱箱,加水泵,氢气贮罐等。
化学制氢站水电解装置以双极压滤式电解槽为主体,主要的附属设备置于气液处理器上,包括氢、氧分离器、碱液过滤器、循环泵,阻火器等。另外,同时配备的还有整流柜,控制柜,水箱,碱箱,加水泵,氢气贮罐等。
水电解装置以双极压滤式电解槽为主体,主要的附属设备置于气液处理器上,包括氢、氧分离器、碱液过滤器、循环泵,阻火器等。另外,同时配备的还有整流柜,控制柜,水箱,碱箱,加水泵,氢气贮罐。
一、开车前的准备
1.1主机清洗,制氢机在大修后投入生产前应进行除盐水清洗,以除去装置加工后存留在各部件内部的机械杂质。
1、使装置所有阀门均处于关闭状态。
2、打开水箱进除盐水阀,向水箱内注满纯水后关闭。
3、打开循环泵进水阀循环泵水循环换进碱阀,打开循环泵旁路排放门,启动循环泵,开启泵尾部排气门,逐渐关小旁路排放门,排完空气后关闭,打开碱液循环量调节阀,将水箱中的纯水打入电解槽,使纯水高度升至分离器液位1/4位置,停循环泵,关闭进碱阀。
4、打开过滤器排污阀,放弃气液处理器内的清洗水,打开电解槽排污阀,放掉电解槽内的清洗水,然后关闭排污阀
1.2气密性检查
         设备安装,检修完毕要对制氢机干燥装置及贮气。用气系统管路进行全面的气密检验。
            用氮气钢瓶与过滤器充氮口连接,关闭制氢机与外部的所有阀门(关闭碱液小循环循环泵进碱阀,关氢、氧紧急排放阀,关闭氧气排放一次阀),打开氢气排放一次阀,打开干燥器进、出氢气阀、出气节流阀,关闭框架II进氢气阀。向系统内通气,使系统压力缓慢升至额定压力,用肥皂水检查气路、液路所有阀件接头、法兰连接及管路焊口有无漏气,如有漏气现象,排除后继续进行直至不漏为止。保压12小时,泄漏量平均每小时不得超过0.01MPa为密封良好。
1.3电解液的配置
           30%KOH碱溶液配制,电解槽与气液处理器以85升容积计算,碱箱内注入纯水70升(水位在水位计1/3刻度),打开碱液小循环碱出碱阀,循环泵小循环进碱阀,启动循环泵,打开循环泵的排气阀,排除泵内空气后关,打开碱液小循环循环泵出碱阀,边循环边加入约42kg分析纯KOH,直至完全溶解,再加入V2O5约250g,待溶解后关碱液小循环泵出碱阀打开碱液循环量调整阀,将碱液打至电解槽至分离液位计有显示(1/4处)停循环泵,关循环泵进碱阀。
1.4仪表、热工、电气的检查
1、通知化学仪表检修对氢氧分析仪进行调校。
2、通知热工检修检查各热工信号及气动部分动作是否正常。
3、通知电气检修检查整流部分各回路是否有短路故障、各熔断器是否正常。
1.5试车
1、合上控制柜总开关电源,指示灯应亮。然后分别启动各泵,看其转向是否正确,并观察相应指示是否亮。
2、检查电解槽各极极向,有无金属或电解液滴漏现象,发现后排除才允许开车。
3、用10%KOH溶液试车48小时,开、停车操作同正常操作。
5、试车完毕,将碱液排出制氢机,用纯水清洗槽体。拆洗过滤器处理完毕后将30%KOH溶液打入槽内至分离器液位最低处。
二、开车操作
2.1 控制柜操作
1、接通控制柜电源和仪表电源。
2、接通控制柜及气液处理器上的气源(接通前应进行吹管,排除进气管内杂质)。
3、将加水泵置 “手动”位置。
4、将氧液位调节切换开关放在“自动”位置。
5、将槽温、槽压记录仪置自动位置,并调好给定值。(刚开机时压力给定0.2~0.3MPa,温度比室温高10℃左右)。
2.2 充氮吹洗系统
            为了开机安全,制氢机首次开机,一般要求先充氮,防止分离器内形成爆炸混合气体。
            用氮气钢瓶与过滤器充氮口连接,关闭循环泵小循环进碱伐,关闭氢、氧紧急排放阀,关闭氧气排放一次阀,打开氢气排放一、二次阀,将氢液位调节切换开关放在手动位置旋转手操给定旋钮,使氢阀全打开,打开干燥器氢气进气阀、出气阀、出气节流阀、关柜架II进气阀。通过向系统内充氮气,压力到0.5MPa,打开干燥器出氢气母管氢气放空阀,排至压力到0.05MPa,再次充氮反复三次,最后将压力维持在0.3~0.4MPa,将氢液位切换开关放在自动位置。
2.3调节循环量
1、检查阀门,使其处于开车状态。
2、打开碱液泵和循环量调节阀
3、打开过滤器进碱阀。
4、打开氢气排放阀 氧气排放阀
5、接通氧中氢分析仪电源,预热30分钟。
6、开启氢、氧塔两侧气路积水器排水阀排除积水。
2.4 整流柜启动
1、打开整流柜冷却水进出水阀。
2、将电压给定、电流给定反时针旋到底。
3、接通主电源和控制柜电源。
4、按触发启动按钮。
5、将选择开关打到稳流档,缓慢顺时针方向转动电压给定电位器,在液位控制允许情况下,使电压到额定值。
2.5系统调节
1、当槽温小于50℃,系统压力控制在0.5MPa。
2、控制氧、氧两塔液位计量显示在1/4,尽量保持相平,当液位计低于最低液位时,打开氢塔加水阀(应常开),加水泵进水阀,启动加水泵,当液位到达1/4,停运加水泵。
3、当槽温大于50℃,将压力调节器给定值渐渐增加,使槽压稳定在1.6MP a。当碱温接近70℃,槽温给定值应缓慢增加,最后稳定在80℃。
4、当压力升到1.0MP a时,投氢中氧分析仪,打开氢中氧分析仪进气二次阀,同时也打开氢中氧分析仪取样一次阀,顺时针打开减压阀,打开分析仪进气二次阀。调整流量200ml/min,接通氢中氧分析仪电源,预热45分钟,就可以开始测量。(注意随着压力的增加随时调整分析仪的流量).
5、在额定电压情况下,已能输出额定电流、将稳压档切换到稳流档,切换时注意将电位器给定旋至零,电流给定顺时针调节到设备设计数值。。
6、当压力升在额定定值,系统稳定后,将液位调节系统切换到自动加水位置。
2.6投干燥器
1、当氢气纯度达到99.8%,氧气纯度达到99.2%以上,关氢气放空二次阀,投运氢气干燥器。
2、打开干燥器氢气进出口阀。
3、打开干燥器出氢气节流阀。
干燥器的切换操作
3.1氢气露点温度大于-30℃要进行切换干燥器,将已再生好的干燥器投入运行,失效的干燥器要进行再生。开启冷却系统进水阀,排水门应有水排出。确定工作系统和再生系统。
3.2打开再生好的干燥氢气进出口阀,关闭失效的干燥器氢气进出口阀。
3.3定期打开阀门排放气水分离器内的积水。
4、打开产品氢气排空阀,排除管道中的氮气后关闭此阀。
2.7 贮氢
1、待氢气湿度合格后,打开框架Ⅱ进氢气阀。
2、打开贮氢罐进氢气一次阀、二次阀。
3、开启积水器进行排水。
4、当贮氢罐压力为1.25MPa时,关贮氢罐进氢气一次阀,倒换另一氢罐。
三、停车操作
3.1正常情况下停车操作
1、将加水泵转换到手动加水位置,停加水泵运行。关闭干燥器氢气进出气阀,打开氢气排放阀。
2、将整流柜输出电位器(电压给定、电流给定)反时针旋到底,按触发停止按钮,再切断控制电源与主电源。
3、将温度给定调到零,使冷却水阀完全打开(保温停机时,应将记录仪给定针调到大于测量值,使冷却水阀关闭)。
4、待温度降到50℃以下,将压力给定逐渐调到零,使槽压降到0。切断循环泵电源,接着切断控制柜和气液处理器电源,再将控制柜上各仪表电源断开,最后切断控制柜总电源及仪表电源,关闭各冷却水阀。
5、槽压降到零后,应切断氢、氧分析仪电源,关闭各取样一次阀、二次阀、减压阀。
3.2保温保压停机操作
1、将加水泵转换到手动加水位置,停止加水泵运行。
2、将整流柜输出电位器反时针旋到底,按触发停止按钮再切断主电源与控制电源。
3、迅速关闭氢、氧排放一次阀。
4、切断氢氧分析仪电源,关闭取样一次阀、二次阀、减压阀。
5、将温度给定指针调到大于测量值,使冷却水阀关闭。
6、注意保持两边液位相平,然后停止循环泵。
7、切断控制柜电源及各仪表电源。
3.3紧急停机操作
1、立即按整流柜触发停止按钮,切断主电源。
2、将自动加水打到手动加水,停止加水泵运行。
3、打开氢、氧紧急排放阀,注意氢、氧液位有显示。
4、将温度记录仪给定指针调到零,使冷却水阀完全打开。
5、切断控制柜电源、气源,切断控制柜控制电源。
四、向发电机送氢操作
1、与发电机房联系,通知对方送氢气到机房。
2、打开贮氢缸出氢气一次伐。
3、打开向发电机送氢气一次伐、二次伐。
4发电机内常进行氢气与氮气、氮气与二氧化碳气体、二氧碳气体与空气的相互置换工作,应采用中间介质置换法或采用真空置换法。
4.1由空冷转换为氢冷(中间介质置换法)
4.2从发电机底部充入氮气或二氧化碳气体,从发电机上部排出气体、,维持发电机内气压在2.94×10-3~5.88×10-3Mpa,并从排出气体中取样分析,气体中含氧量小于3%、二氧化碳含量大于85%通知电气排死角,死角排完后即可停止置换。
4.3从发电机上部充入氢气,从发电机底部排出气体,维持发电机内氢气在2.94×10-3~5.88×10-3Mpa,并从排出气体中取样分析,当氢气纯度大于96%。含氧量小于2%,通知电气排死角,死角排完后,可投入氢气纯度计,当机内升压至0.294Mpa后,投入补氢自动阀门。
5.1由氢冷转换为空冷(中间介质法)
5.2从发电机底部充入二氧化碳气体,从排气管取样分析排出气体中含氢量小于3%时或二氧化碳含量大于95%时,通知电气排死角,死角排完后停止置换。
5.3从发电机上部充入压缩空气,从底部排出二氧化碳气体,从排出气体中取样分析,当二氧化碳含量小于10%时,转换为空冷。
 
五、正常运行管理
1在正常情况下,操作人员应经常观察设备运行情况,正确操作及时记录各参数和异常情况,每两小时记录一次,遇到异常情况及时停机处理。
2根据用氢量的需要情况,随时调节整流柜的电源,整流柜输出电位器的旋转不能过猛,以防产生过流故障。
3在运行中整流柜选择开关不可任意变换位置,否则会发生故障。如要改变整流柜运行状态,则必须把输出电位器置于零,才能转换开关的位置。
4每次开机时测量一次碱液比重,如浓度低于20%。则应补充碱液。补碱应在停机时补充。补充方法:打开碱箱出碱阀6A,打开碱液小循环泵进碱伐8A,启动循环泵,打开循环泵排气阀,排出空气后关闭.打开碱液循环量调整阀7A,将碱打入电解槽,碱液打完后,停循环泵,关碱液小循环泵进碱阀8A,碱箱出碱阀6A.
5经常观察水箱内有无除盐水及冷却水流量是否正常。
.6经常观察氢、氧分析仪一次仪表的气体流量和干燥剂是否变色,及时调节流量和更换干燥剂和硼酸片。
7经常清洗过滤器,一般首次开机时每星期清洗一次,三个月后每一个月清洗一次,清洗过滤器应在停机时进行,首先关闭过滤器进、出口门,折下过滤器盖,取出一滤芯,用除盐水冲干净,再装入过滤器,装好法兰盖,确认不漏后即可使用。
8注意碱液循环量不能过大或过小,通过碱液循环调整阀来调节循环量。
9每隔月对设备各报警和保护装置进行一次试验,开机前进行信号试验,每隔一年应对全套设备进行检修和仪表校验。
(试验项目有氧液上、下限;氢液上、下限;槽压上限;氢压上限;气源下限;槽温上限;碱循环量下限等报警。氢侧、氧侧、冷却水薄膜调节阀开关试验。槽压过高、槽温过高、循环量下限、控制柜等联锁。)
10电解槽每5 年大修一次,大修时更换所有的石棉隔膜和密封垫片。
11整流柜在运行中如出现故障,应在故障排除后将电流、电压、给定反时针旋到底,按复位键,再重新启动。
12 每周对制氢机积水器、干燥器气液分离器排污一次。
13 每两小时分析氢气纯度一次,每小时抄氢气湿度表一次,每四小时人工分析氢气湿度一次,并将结果填在报表上。
14每月白班更换奥氏气体分析仪所用药品。
15每周二分析各贮氢罐内的氢气纯度(≥99.5%),周三分析各贮氢罐内的氢气湿度(≤-25℃),若不合格,应报告班长,并通知发电部进行排水和换氢直至合格。
16零班对各贮氢罐排水一次。
17 排氢工作事关重大,氢站人员取样化验要认真、仔细,确保准确,最后一次样品要分析三遍,并核对无误,方为合格。

Water electrolysis device with a bipolar filter press-type electrolytic cell as the main body, the main ancillary equipment placed on the gas-liquid processors, including hydrogen, oxygen separator, lye filters, circulating pumps, fire retardant and so on. In addition, there is also equipped with a rectifier cabinet, control cabinet, water tank, alkali tank, water pump, hydrogen storage tanks.
Hydrogen production station water electrolysis device with a bipolar filter press-type electrolytic cell as the main body, the main ancillary equipment placed on the gas-liquid processors, including hydrogen, oxygen separator, lye filters, circulating pumps, fire retardant and so on. In addition, there is also equipped with a rectifier cabinet, control cabinet, water tank, alkali tank, water pump, hydrogen storage tanks.
Water electrolysis device with a bipolar filter press-type electrolytic cell as the main body, the main ancillary equipment placed on the gas-liquid processors, including hydrogen, oxygen separator, lye filters, circulating pumps, fire retardant and so on. In addition, there is also equipped with a rectifier cabinet, control cabinet, water tank, alkali tank, water pump, the hydrogen tank.
First, before driving preparation
1.1 Host washing machine after overhaul hydrogen production should be carried out before the demineralized water washed to remove remaining after the processing means within the various components of mechanical impurities.
1, so that means that all valves are closed.
2, open the tank inlet valve desalination, water into the water tank filled after closing.
3, open the inlet valve circulation pump circulation pump water circulation change into the base valve, open the bypass circulation pump discharge gate, start circulating pump, turn the pump on the tail of the exhaust valve, gradually turn down the bypass discharge door after you close the exhaust air, open lye circulating flow valve, the tank of water into the cell, so that the height of water level rose splitter 1/4 position, stop the circulation pump, close the inlet valve base.
4, open the filter drain valve, the gas-liquid abandon the washing water within the processor, open the drain valve cell, let go of the washing water within the cell, and then close the drain valve
1.2 Seal Check
         Equipment installation, maintenance to complete drying apparatus for hydrogen production and gas storage unit. To conduct a comprehensive inspection airtight gas pipeline system.
            Nitrogen gas cylinder connected with the filter nitrogen port, close all valves hydrogen generator with an external (off small cycles lye circulation pump inlet valve base, off hydrogen, oxygen, emergency discharge valve, close the valve once the oxygen emission), a hydrogen discharge opening a valve, open the dryer inlet, the hydrogen valve, outlet throttle valve closes the frame II into hydrogen. Into the ventilation system, the system pressure was slowly increased to the rated pressure, with soapy water to check gas line, all the way liquid valve fittings, flanges and weld pipe without leakage, if any leakage phenomenon, the exclusion continues proceed until no leakage so far. Packing 12 hours, the amount of leakage per hour shall not exceed 0.01MPa to seal well.
1.3 electrolyte configuration
           30% KOH alkali solution preparation, and gas-liquid cell processor to calculate the volume of 85 liters, 70 liters of pure water injected into the base tank (water level in the water level gauge 1/3 scale), open the base valve alkali lye small cycles, cycles small circulation pump inlet valve base, start the circulating pump, circulating pump discharge valve open, rule out the air pump off, open the alkali lye small circulation pump circulation valve, while circulating adding about 42kg of analytical grade KOH, until complete dissolution , then add V2O5 about 250g, to be dissolved off the alkali lye small circulation pump valve to open the valve to adjust the amount of circulating lye, lye will fight to the cell to the separation level gauge with a display (1/4) to stop the circulation pump , off the circulation pump inlet valve base.
1.4 meters, thermal, electrical inspection
1, notification of chemical instrumentation maintenance hydroxide analyzer calibration.
2, check the maintenance notification thermal thermal signal and pneumatic part of the action is normal.
3, electrical maintenance inspection notification rectifying portions of the circuit if a short circuit fault, each fuse is normal.
1.5 Commissioning
1, switching power supply control cabinet always closed, the light should be bright. The pumps were then start to see its rotation is correct, and observe whether the corresponding indication light.
2, check each cell pole to pole, with or without metal or electrolyte leakage phenomenon, found to exclude only allowed to drive.
3, with 10% KOH solution test 48 hours, open, with the normal operation of the parking operation.
5, the test is completed, the hydrogen discharge machine lye, washed with pure water tank. After washable filter disposed of 30% KOH solution into the separator tank to the lowest level.
Second, the driving operation
2.1 Operating control cabinet
1, connected to the control cabinet power supply and instrumentation.
2, connected to the control cabinet and gas liquid gas source processor (should be turned on before the blowpipe, exclusion of impurities into the trachea).
3, the water pump is set to "manual" position.
4, the oxygen level adjustment switch on "auto" position.
5, the tank temperature, tank pressure logger is set to automatically position and adjusted the given value. (Just-machine a given pressure 0.2 ~ 0.3MPa, higher than room temperature about 10 ℃).
2.2 nitrogen purge system
            In order to secure power, hydrogen power machine for the first time, the general requirements to nitrogen, to prevent the explosion gas mixture formed in the separator.
            Nitrogen gas cylinder connected with the filter nitrogen port, closed the circulation pump into the base cutting small cycles, closed hydrogen, oxygen, emergency discharge valve, a discharge valve closed oxygen, hydrogen discharge opening a secondary valve, the hydrogen level adjustment switch position of the rotation of the manual operation of the hand given the knob, the hydrogen valve is fully open, open the dryer hydrogen inlet valve, the valve, the outlet throttle, the intake valve closed cabinet II. Through to the system filled with nitrogen, the pressure to 0.5MPa, open the dryer hydrogen gas main pipes hydrogen vent valve to discharge pressure to 0.05MPa, nitrogen again repeated three times, and finally the pressure was maintained at 0.3 ~ 0.4MPa, the hydrogen level switch in the automatic position.
2.3 regulating the circulation amount
1, check valves, it is in driving state.
2, open the lye pump and the circulation volume control valve
3, open the filter inlet valve base.
4. Open the drain valve oxygen hydrogen discharge valve
5, connected to an oxygen supply hydrogen analyzer, warm up for 30 minutes.
6, open hydrogen and oxygen gas path on both sides of the tower water draining valve drain the water.
2.4 Line Modules start
1. Open the rectifier cabinet and out of the cooling water valve.
2, for a given voltage, current setpoint counter-clockwise rotation in the end.
3, connected to the main power supply and control cabinet.
4. Press the start button is triggered.
5, the selection switch to the steady flow profile, slow clockwise rotation voltage given potentiometer, under level control allows the case to the rated voltage.
2.5 System Regulation
1, when the tank temperature is lower than 50 ℃, the system pressure is controlled at 0.5MPa.
2, control of oxygen, the oxygen level gauging show two towers in the quarter, try to keep the flat phase, when the gauge is below the minimum level, Taga open hydrogen valve (should normally open), water pump inlet valve, start water pump, when the level reaches 1/4 outage water pump.
3, when the tank temperature higher than 50 ℃, the pressure regulator setpoint gradually increased, the cell voltage stabilized at 1.6MP a. When the base temperature approaching 70 ℃, bath temperature setpoint should be increased slowly, finally stabilizing at 80 ℃.
4, when the pressure rises 1.0MP a, vote hydrogen oxygen analyzer, oxygen analyzer open hydrogen secondary intake valve, but also open hydrogen oxygen analyzer sampling the primary valve clockwise to open the valve, open analyzer intake secondary valve. Adjust the flow 200ml / min, turning hydrogen oxygen analyzer power on, warm 45 minutes, you can start measuring. (Note that with increasing pressure at any time to adjust the flow analyzer).
5, at rated voltage, the output current rating has been able to, will switch to a steady flow regulator files file, note the potentiometer given a spin to zero when switching current is adjusted to a given clockwise equipment design value. .
6, when the pressure rise in the nominal value, the system is stable, the level adjustment system is switched to automatic water position.
2.6 Investment dryer
1, when the hydrogen purity of 99.8%, more than 99.2% purity oxygen, hydrogen vent off the secondary valve, commissioning hydrogen drier.
2, open the dryer and export hydrogen valve.
3, open the throttle hydrogen gas dryer.
The switching operation of the dryer
3.1 hydrogen dew point temperature is greater than -30 ℃ to switch the dryer, the dryer had been regenerated into operation, failure to carry out the regeneration of the dryer. Open cooling systems inlet valve, drain water discharge door should be. Determine the working system and regeneration system.
3.2 Open regeneration good dry hydrogen valve import and export, import and export hydrogen drier closed valve failure.
3.3 periodically open water discharge valve of the gas-water separator.
4. Open the drain valve product hydrogen, nitrogen after the exclusion of the pipeline close the valve.
2.7 Hydrogen Storage
1, until the hydrogen humidity qualified, open framework Ⅱ into hydrogen valve.
2, open the hydrogen storage tank of hydrogen gas into the primary valve, secondary valve.
3, open water is drained.
4, when the hydrogen storage tank pressure is 1.25MPa, the hydrogen storage tank into the hydrogen off a valve, switching to another hydrogen tank.
Third, the parking operation
3.1 Under normal circumstances, the parking operation
1, the water pump switch to manual water position, water pump stops running. Close the valve and out of the dryer hydrogen, the hydrogen discharge valve opens.
2, the output rectifier cabinet potentiometer (for a given voltage, current setpoint) counter-clockwise rotation in the end, press the stop button is triggered, then cut off the main power and control power.
3, the temperature was given to zero, so that the cooling water valve is fully open (while holding down, the recorder should be transferred to a given pin is greater than the measured value, the cooling valve is closed).
4, when the temperature drops below 50 ℃, the pressure was gradually given to zero, the groove drop to zero. Cut off the circulation pump power supply, then cut off the gas and liquid control cabinet and processor power, control cabinet and then disconnect all power to the instrument, and finally cut off the main power control cabinet and instrumentation power, turn off the respective cooling valve.
5, grooves drop to zero, should cut off the hydrogen and oxygen analyzer power off for each sampling time valve, secondary valve, pressure reducing valve.
3.2 Operating pressure and temperature shutdown
1, the water pump switch to manual water position, water pump stops running.
2, the output rectifier cabinet potentiometer counterclockwise rotation in the end, press the stop button and then trigger off the main power and control power.
3, quickly close the hydrogen, oxygen discharge valve once.
4, cutting off power to the analyzer hydroxide, once close the sampling valve, secondary valve, pressure reducing valve.
5, the temperature was adjusted to a given pointer is greater than the measured value, the cooling valve is closed.
6 to keep the sides level is flat, then stop the circulation pump.
7, cutting off power supply to control cabinet and various power meter.
3.3 emergency stop operation
1, immediately press the stop button to trigger rectifier cabinet, cut off the main power supply.
2, the automatic water hit the manual water, water pump stops running.
3, open hydrogen and oxygen emergency discharge valve, pay attention to hydrogen, oxygen level showing.
4, the temperature recorder given pointers to zero, so that the cooling water valve is fully open.
5, cut off the power supply control cabinet, gas supply, cut off the power supply control cabinet control.
Fourth, the hydrogen feed to the generator operation
1, the generator room and informing the other party to send hydrogen to the engine room.
2. Open a hydrogen storage cylinder hydrogen gas cutting.
3, open to the hydrogen generator to send a cutting, the second cutting.
Often work for mutual displacement of hydrogen and nitrogen, carbon dioxide and nitrogen gas, carbon dioxide gas and air within four generators, medium replacement method should be used in the middle or vacuum replacement method.
4.1 air-cooled by the cold is converted to hydrogen (intermediate medium displacement method)
4.2 from the bottom of the generator filled with nitrogen or carbon dioxide gas, the exhaust gas from the upper part of the generator ,, maintain pressure within the generator at 2.94 × 10-3 ~ 5.88 × 10-3Mpa, and is discharged from the gas sampling and analysis, gas less than 3% oxygen content, carbon dioxide content greater than 85% of the electrical discharge notice dead, dead after row to stop replacement.
4.3 from the upper part of the generator filled with hydrogen, the exhaust gas from the bottom of the generator to maintain the power generator hydrogen 2.94 × 10-3 ~ 5.88 × 10-3Mpa, sampling and analysis from the exhaust gas, when the hydrogen purity greater than 96%. Oxygen content of less than 2%, the electrical discharge notice dead, dead after row, can be put into hydrogen purity meter, when the machine is raised to 0.294Mpa after fill hydrogen into automatic valves.
5.1 is converted to hydrogen-cooled by the air-cooled (intermediate medium method)
5.2 from the bottom of the generator filled with carbon dioxide gas, when analyzing exhaust gas or hydrogen content of less than 3% of the carbon dioxide content greater than 95%, the electrical discharge notice from the exhaust pipe sample dead, dead stop after row replacement.
5.3 from the upper part of the generator filled with compressed air, carbon dioxide gas is discharged from the bottom, from the exhaust gas sampling and analysis, when the carbon dioxide content of less than 10% is converted to air cooling.

Fifth, the normal operation and management
1 Under normal circumstances, the operator should always observe the operation of equipment, proper operation and timely recording parameters and exceptions, every two hours recording time, faced unusual circumstances promptly shut down processing.
2 according to the amount of hydrogen required by the situation, at any time adjust the power rectifier cabinet, rotary potentiometer output rectifier cabinet can not be too fast, to prevent over-current fault.
3 in the operation selector switch rectifier cabinet can not be arbitrarily changing positions, otherwise a fault will occur. To change the rectifying cabinet running, it must output potentiometer set to zero, in order to convert the position of the switch.
4 measured once each boot lye proportion, such as concentrations of less than 20%. It should supplement lye. Up base should be added at the time of shutdown. Complementary approaches: an open base box base valve 6A, open lye small circulation pump into the base cutting 8A, start circulating pump, circulating pump to open the exhaust valve, the exhaust air after closing open lye circulating regulation valve 7A, the base hit. into the cell, after lye finished, stop the circulation pump, shut alkali lye small circulation pump inlet valve 8A, the base tank base valve 6A.
5 Have the tank frequently observed demineralized water and the cooling water flow is normal.
.6 Frequently observed hydrogen, oxygen analyzer and a gas flow meter desiccant discoloration, the timely replacement of the desiccant and adjusting the flow rate and boric acid tablets.
7 regularly clean the filter, first turn when general cleaning once a week, three months after each cleaned once a month, clean the filter should be carried out at the time of shutdown, first turn off the filter inlet and outlet doors, folding under the filter cover, remove a filter with demineralized water will clean, and then loaded into the filter, installed flange cover, it can be used after confirmation does not leak.
8 Note lye circulation amount can not be too large or too small, to regulate the amount of circulating through the lye circulation regulating valve.
9 every month for each alarm equipment and protection equipment to conduct a test signal test before starting every year to deal with a full set of equipment for repair and instrument calibration.
On (pilot projects aerobic liquid limit; on liquid hydrogen, lower limit; upper trough pressure; hydrogen pressure limit; lower limit of the gas source; bath temperature limit; lower limit of the amount of alkali circulation and other alarm hydrogen side, the oxygen side, the cooling water control valve film. switch test groove pressure is too high, the bath temperature is too high, the lower limit of the amount of circulation, control cabinet interlock.)
10 cell overhaul, replace all asbestos diaphragm and gasket overhaul every five years.
11 rectifier cabinet as a failure in the operation, should be excluded after fault current, voltage, given counterclockwise rotation in the end, press the reset button, and then restart.
12 weekly water hydrogen machine, a dryer gas-liquid separator sewage once.
13 Analysis of hydrogen purity once every two hours, copy hydrogen hygrometer hourly, every four hours once a manual analysis of hydrogen humidity and the results to fill in the report.
14 monthly daytime replace Austria's gas analyzer used drugs.
15 Tuesdays analysis of the hydrogen storage tank of hydrogen purity (≥99.5%), Wednesday analysis of the hydrogen storage tank of hydrogen gas humidity (≤-25 ℃), if failed, the report shall monitor and inform the Ministry of drainage and electricity In other hydrogen until qualified.
16 Zero class of each hydrogen storage tank drain again.
17 rows of work at stake hydrogen, hydrogen Point sampling was conducted to carefully, carefully, to ensure accurate, and the last three times the sample to be analyzed, and verified correct, in order to pass.

 

点击数:7405  录入时间:2013/11/9 【打印此页】 【关闭
·上个产品:电厂制氢电解槽、Hydrogen cell power plant
·下个产品:天然气制氢、Natural gas, hydrogen
 氢简史 |  中国氯碱网 |  气体产业网 |  开封创新测控仪表有限公司 |  中国火力发电网 |  大连化物所 |  氯碱产业网 |  氢能专利转让平台 |  2020广州国际氢能与燃料电池汽车及加氢 |  硅钼棒、硅碳棒、电热元件 |
  | 关于我们  | 人才招聘联系我们 | 会员中心  | 更多链接>> | 收藏本站 |

版权所有:文章版权归气体设备网所有,没有本网书面授权,严禁转摘、镜像 信息产业部备案序号:豫ICP备17021983号-1
(顾问团队有气体设备设计、生产、调试、维修等服务经验)微信:13812683169 技术专线:13812683169 抖音;A13812683169 微视;13812683169 E-mail:cn1229
江苏省苏州吴中开发区、倡导行业正气之风,推动厂家技术创新.为提高气体设备,能源行业整体水平继续努力) 服务:QQ:1063837863、 13812683169@163.com