1)formaldehyde gas甲醛气体
英文短句/例句
1.Performance Improvement of SnO_2 Formaldehyde Gas Sensor;SnO_2甲醛气体传感器性能改善
2.Nano SnO_2 Based Gas Sensor for Formaldehyde Gas Detection纳米SnO_2基气敏元件对甲醛气体的检测(英文)
3.Study of SnO_2 Formaldehyde Gas Sensor Based on IC Technology;基于IC工艺的二氧化锡甲醛气体传感器研究
4.Study on Degradation of Indoor Formaldehyde Gas by Photocatalytic Oxidation Processes;光催化氧化技术降解室内甲醛气体的研究
5.Fabrication of the Formaldehyde Gas Sensor and Study of the Sensing Properties;甲醛气体传感器的研制及其敏感性能研究
6.Application of Gold Hollow Nanospheres in Amperometric Formaldehyde Gas Sensor空心纳米金在甲醛气体传感器中的应用研究
7.Study and application of photocatalytic degradation of formaldehyde by Cu-TiO_2Cu-TiO_2光催化降解甲醛气体的研究及应用
8.Effect of Expanded Volume of Expanded Graphite on Adsorption of Formaldehyde膨胀石墨容积对甲醛气体吸附性能的影响
9.Theoretical and technical research on passive direct-reading detection of formaldehyde gas甲醛气体无动力直读检测理论与技术研究
10.The Experimental Research on the Degradation of Indoor Formaldehyde by Photocatalysis of La-doped TiO_2 Film掺镧光催化薄膜降解室内空气中甲醛气体的实验研究
11.Photodegradation of Formaldehyde by Carbon Doped TiO_2 Nanoparticles;纳米TiO_2薄膜光催化降解甲醛气体实验与理论研究
12.The Study of Nano-TiO_2 Photocatalytic Decomposition Formaldehyde;纳米TiO_2光催化降解气体甲醛的研究
13.Plasma-Catalytic Removal of Formaldehyde from Atmospheric Pressure Gas Streams at Low Temperatures;大气压下等离子体与催化协同低温脱除气相中甲醛研究
14.formaldehyde solutions(formalin)甲醛溶液(甲醛水)
15.Synthesis of Benzaldehyde Glycerol Acetals Catalyzed by MoO_3/SiO_2 Solid AcidMoO_3/SiO_2固体酸催化合成苯甲醛甘油缩醛
16.The Preparation of Modified Bentonite and Its Characteristic of Adsorption of Indoor Formaldehyde;改性膨润土的制备及其对室内污染气体甲醛吸附的研究
17.Study on Plasma Catalytic Removal of Formaldehyde from Indoor Air and Its Byproducts;等离子体催化脱除室内空气中甲醛及其副产物的研究
18.Treatment of Formaldehyde Using High-frequency Capacitively Coupled Plasma;高频电容耦合等离子体净化甲醛废气的实验研究
相关短句/例句
formaldehyde gas method甲醛气体降解法
1.The results showed that the photocatalytic activity evaluated by formaldehyde gas method was correlated to that obtained by dye method.用甲醛气体降解法和染料脱色法评价4种市面上出售的光触媒喷液产品的光催化活性,并对两种方法进行了比较,实验证明,两种评价手段的相关性良好。
3)formaldehyde waste gas甲醛废气
1.Bio-purification of formaldehyde waste gas in low concentration by using a gas-liquide phase combined bio-purification method;气液相组合生物法净化低浓度甲醛废气研究
2.Study on the kinetic model of bio-purifying formaldehyde waste gas in low concentration in a biofilm-packing tower;生物膜填料塔净化低浓度甲醛废气的动力学模型研究
4)gaseous formaldehyde气相甲醛
1.The photocatalytic activity for degradation of gaseous formaldehyde at different initial concentration were also studied and compared.分别以阳极氧化铝、玻璃纤维布、玻璃作载体采用溶胶-凝胶法制备Ti O2纳米线阵列膜(Ti O2/AAO)与Ti O2/玻璃、Ti O2/玻布光催化剂,用XRD、电子探针和比表面仪进行表征,并对比其光催化不同浓度气相甲醛的降解活性。
5)gaseous formaldehyde气态甲醛
1.Studies on genotoxicity of gaseous formaldehyde on human buccal cells.;气态甲醛对人体颊黏膜细胞遗传毒性的研究
2.To study the genotoxicity of gaseous formaldehyde(FA)on spiders,single cell gel electrophoresis(SCGE)and KCl-SDS assay were applied to detect DNA strand breaks(DSB),DNA-DNA crosslinks(DDC)and DNA-protein crosslinks(DPC) after Eriovixia cavaleriei were exposed to gaseous FA(0,0.为了研究气态甲醛对蜘蛛的遗传毒性,采用单细胞凝胶电泳实验及KCl-SDS沉淀法检测了卡氏毛园蛛(Eriovixia cavaleriei)暴露于气态甲醛(0、0。
3.In order to investigate whether the up-regulation of GSNO reductase(GSNOR)by gaseous formaldehyde is associated with the changes of GSH levels, the Kunming male mice were used as experimental materials in present study.为了研究气态甲醛对GSNO还原酶(GSNOR)的上调作用是否通过GSH途径,以昆明雄性小鼠为实验材料,采用动态吸入染毒方式,检测了0、3。
6)Paraformaldehyde[英][,p?r?f?:'m?ld?haid][美][,p?r?f?r'm?ld?ha?d]固体甲醛
延伸阅读
《关于在战争中使用潜水艇和有毒气体的条约》《关于在战争中使用潜水艇和有毒气体的条约》Treaty on the Use of Submarines and Poisonous Gases in War Guanyu zai Zhanzheng Zhong ShiyongQianshuiting he Youdu Qiti de Tiaoyue《关于在战争中使用潜水艇和有毒气体的条约》‘Treaty。。th。us。ofsubm。-ri”es and poisonoos Gases inw倪r)规定潜艇作战规则和禁比使用毒气的国际条约。由美国、英国、法国、意大利和日本于1922年2月6日在华盛顿会议上缔结,未生效。签署加人该约的还有澳大利亚、加拿大、印度、新西兰、南非和埃塞俄比亚。条约有序言和7条正文。主要内容是:①战时潜艇在拿捕一商船之前,应先命令其接受临检以确定其性质;除非商船接到警告后仍拒绝临检,或被拿捕后不遵守指定航线行驶,不得对其进行攻击;在将船员及旅客安置于安全地方之前,不得将该商船破坏。②任何人如违犯上述任何规定,一概被认为是对.线争法规的破坏,将按海盗行为受审和惩罚。③禁止将潜艇专门用于破坏通商。④战争中禁止使用窒息性、有毒和其他瓦斯以及一切类似的液体、物质或手段。该条约是针对第一次世界大战期间德国由于开展无限制潜艇战造成大量商船和人员损失而制定的,虽未生效,但其基本内容分别被1925年《日内瓦议定书》、1936年《关于潜般作战规则的议定书》和1937年《尼翁协定》所确认。 (张学义)
