1)hydrogenation furnaces氢化炉
2)reformer furnace tube制氢转化炉炉管
1.When a reformer furnace tube locally failed, the whole furnace tube service life will be extended by replacing the failed furnace tube.当制氢转化炉炉管发生局部失效时,采用局部更换炉管方法可延长整根炉管的使用寿命。
3)hydrogen manufacturing converted furnace制氢转化炉
1.Design and strength calculation of the down-tail tube in the hydrogen manufacturing converted furnace;制氢转化炉下猪尾管设计与强度计算
2.The reinforced connector of the down tail tube in hydrogen manufacturing converted furnace was intergranular crack.制氢转化炉下尾管加强接头发生沿晶开裂,对接头的化学成分、断口形貌、显微组织等进行了检测与分析。
英文短句/例句
1.The Whole Process of Project Cost Management in the Dalian Petrochemical Hydrogen Furnace Refractory Project大连石化制氢转化炉筑炉项目全过程成本管理
2.Technical Reformation for Upper Clip Shaped Pipe System for Hydrogen Making Reformer in Ammonia Synthesis Plant合成氨装置制氢转化炉上猪尾管系技术改造
3.THE CAUSE OF FLUE GAS OVERHEATING OF REFORMER IN HYDROGEN PLANT AND COUNTERMEASURES制氢转化炉排烟温度高的原因分析与解决措施
4.Realization of Combustion Control System for Reformer of Hydrogen Plant制氢装置转化炉燃烧控制系统的实现
5.EFFECT OF THE VARIATION OF FEED ON THE TEMPERATURE OF REFORMER TUBES AND COUNTERMEASURES制氢原料变化对转化炉炉管温度的影响及对策
6.Study on Nickel-based Catalysts for Catalytic Conversion of Coke Oven Gas to Hydrogen焦炉煤气催化转化制氢镍基催化剂的研究
7.Application of highly reflective coating on the reformer in hydrogeneration plant高反射率涂料在制氢装置转化炉的应用
8.Application of two-step coal gasification technology in hydrogen fluoride reaction converter and powder baker两段式煤气化技术在氟化氢反应转炉和烘粉炉上的应用
9.Corrosion Control for Hydrogen Chloride Synthesis Furnace Steel in Polysilicon Industry多晶硅行业钢制氯化氢合成炉的腐蚀控制
10.OPTIMIZING THE STEAM REFoRMING PROCESS OF HYDRoCARBoNS FOR REDUCING HYDROGEN PRODUCTION COST优化烃类蒸汽转化制氢工艺 降低氢气生产成本
11.Hydrogen Production from Ethanol over CoFe_2O_4 Nanocatalyst纳米CoFe_2O_4催化剂催化转化乙醇制氢
12.Studies on the Catalytic Conversion of Alkanes to Hydrogen/Syngas;烷烃催化转化制氢气/合成气的研究
13.Variations of hydrogen content in molten heavy rail steel from LD tapping to mould at Baotou iron and steel group包钢重轨钢从转炉出钢到结晶器过程中氢含量变化
14.The Shanghai Boiler Plant undertook to make this ammonia converter.上海锅炉厂负责制造这种氨转化器。
15.Application of Converter Waste Gas Recovery Automatic Control System转炉煤气回收自动化控制系统的应用
16.Study on Catalyst and Catalytic Technology for Hydrogen Production from the Adiabatic Conversion of Natural Gas;天然气绝热转化制氢催化剂及催化工艺研究
17.NaOH was added to iron blast furnace slag (BFS)/hydrated lime (HL) slurries to prepare sorbents for semidry and dry flue gas desulfurization (FGD) processes.本研究于炉石/氢氧化钙泥浆中添加氢氧化钠以制备烟道气除硫吸收剂。
18.Study of Online Optimal Control in Annealing Process and Evaluation and Diagnosis of Annealing Performance for High Performance Hydrogen Bell-type Annealers全氢炉退火过程在线优化控制及退火性能评估诊断策略研究
相关短句/例句
reformer furnace tube制氢转化炉炉管
1.When a reformer furnace tube locally failed, the whole furnace tube service life will be extended by replacing the failed furnace tube.当制氢转化炉炉管发生局部失效时,采用局部更换炉管方法可延长整根炉管的使用寿命。
3)hydrogen manufacturing converted furnace制氢转化炉
1.Design and strength calculation of the down-tail tube in the hydrogen manufacturing converted furnace;制氢转化炉下猪尾管设计与强度计算
2.The reinforced connector of the down tail tube in hydrogen manufacturing converted furnace was intergranular crack.制氢转化炉下尾管加强接头发生沿晶开裂,对接头的化学成分、断口形貌、显微组织等进行了检测与分析。
4)synthetic furnace of hydrogen chloride氯化氢合成炉
1.Analysis on the failure of steel synthetic furnace of hydrogen chloride;钢制氯化氢合成炉失效分析
2.The utilization of waste heat fromiron synthetic furnace of hydrogen chloride;概述了几种氯化氢合成炉的优、缺点 ,并以内蒙古三联化工股份有限公司为例 ,对氯化氢合成炉余热利用的价值进行了分析。
5)hydrogen chloride synthesizer氯化氢合成炉
1.The optimization design of steel manufactured water jacket hydrogen chloride synthesizer with Visual Basic 5.0;应用Visual Basic 5.0进行钢制水夹套氯化氢合成炉优化设计
2.This paper provides synthesizer's heat exchanger area design method of additive mothballing wall temperature bondage condition in analysed corrosion mechanism of hydrogen chloride synthesizer. 文章在分析水夹套式氯化氢合成炉腐蚀机理基础上提出防腐壁温约束条件的合成炉换热面积设计方法。
3.This paper analyzes the cause and mechanism of corrosion in hydrogen chloride synthesizer with steel-made water jacket in PVC production and determines the restriction conditions and designing countermeasures for wall temperature in the synthesizer.分析了PVC生产中钢制水夹套氯化氢合成炉腐蚀原因和腐蚀机理,确定了合成炉设计的壁温约束条件和设计对策。
6)Fabricating hydrogen reformer tube制氢转化炉管
延伸阅读
甲氢化苯,四氢化苯国标编号 32022 CAS号 110-83-8 分子式 C6H10;CHCH(CH2)4分子量 82.15无色液体,有特殊刺激性气味;蒸汽压:21.33kPa/38℃;闪点:<-20℃;熔点-103.7℃;沸点83.0℃;溶解性:不溶于水,溶于乙醇、醚;密度:相对密度(水=1)0.81;相对密度(空气=1)2.8;稳定性;稳定;危险标记:7(中闪点易燃液体);主要用途:用于有机合成、油类萃取及用作溶剂2.对环境的影响:一、健康危害侵入途径:吸入、食入、经皮吸收。健康危害:本品有麻醉作用,吸入后引起恶心、呕吐、头痛和神志丧失。对眼和皮肤有刺激性。二、毒理学资料及环境行为急性毒性:小鼠吸入45~50g/m3×2小时,血压下降,严重者死亡。亚急性和慢性毒性:大鼠豚鼠吸入0.25g/m3,6小时/天,每周5天,引起碱性磷酸酶增加。危险特性:易燃,其蒸气与空气可形成爆炸性混合物。遇明火、高热极易燃烧爆炸。与氧化剂能发生强烈反应,引起燃烧或爆炸。长期储存,可生成具有潜在爆炸危险性的过氧化物。其蒸气比空气重,能在较低处扩散到相当远的地方,遇明火会引着回燃。燃烧(分解)产物:一氧化碳、二氧化碳。3.现场应急监测方法: 4.实验室监测方法:气相色谱法《空气中有害物质的测定方法》(第二版)杭士平主编5.环境标准: 前苏联 车间空气中有害物质的最高容许浓度 50mg/m3 前苏联(1975) 水体中有害物质最高允许浓度 0.02mg/L 前苏联(1975) 污水排放标准 0.1mg/L 6.应急处理处置方法:一、泄漏应急处理迅速撤离泄漏污染区人员至安全区,并进行隔离,严格限制出入。切断火源。建议应急处理人员戴自给正压式呼吸器,穿消防防护服。不要直接接触泄漏物。尽可能切断泄漏源。防止进入下水道、排洪沟等限制性空间。小量泄漏:用砂土、蛭石或其它惰性材料吸收。也可以用不燃性分散剂制成的乳液刷洗,洗液稀释后放入废水系统。大量泄漏:构筑围堤或挖坑收容;用泡沫覆盖,降低蒸气灾害。用防爆泵转移至槽车或专用收集器内,回收或运至废物处理场所处置。二、防护措施呼吸系统防护:空气中浓度超标时,应该佩戴自吸过滤式防毒面具(半面罩)。眼睛防护:戴化学安全防护眼镜。身体防护:穿防静电工作服。手防护:戴乳胶手套。其它:工作现场严禁吸烟。避免长期反复接触。三、急救措施皮肤接触:脱去被污染的衣着,用肥皂水和清水彻底冲洗皮肤。眼睛接触:提起眼睑,用流动清水或生理盐水冲洗。就医。吸入:迅速脱离现场至空气新鲜处。保持呼吸道通畅。如呼吸困难,给输氧。如呼吸停止,立即进行人工呼吸。就医。食入:饮足量温水,催吐,就医。灭火方法:喷水冷却容器,可能的话将容器从火场移至空旷处。处在火场中的容器若已变色或从安全泄压装置中产生声音,必须马上撤离。灭火剂:泡沫、干粉、二氧化碳、砂土。用水灭火无效。
