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Translation - urea characteristic The urea is one kind of achromatic color, tasteless, the odourlessness acicular or the orthogonal prism build crystallizes, in the actual production is granulated for the white or the tint; The granularity may be possible to be small greatly according to enterprise's characteristic; When heats up to 132.7℃ starts to melt, the solid urea density is 1.335g/cm 3, dissolves in the water and the few organic reagents, the urea assumes the alkalescency, may live the salifying with the acid function, when the temperature surpasses 60℃, the urea in the acid, the alkalinity or the neutral solution has the hydrolisis.

问题补充:尿素是一种无色、无味、无臭的针形或正交棱柱体形结晶,实际生产中为白色或浅色颗粒状;粒度则根据企业的特点可大可小;当加热到132.7℃开始熔化,固体尿素密度为1.335g/cm 3,溶于水和少量的有机试剂,尿素呈微碱性,可与酸作用生成盐,当温度超过60℃时,尿素在酸、碱性或中性溶液中发生水解。

Analyzing the change of DH, PCL and active calcium, and selecting each of best method. The results:(1) Dealing with the bone under high pressure ①High content of protein in sheep bone or bone soup:0.05MPa, 2h, 1:2;②Low amino acids in bone powder:0.13MPa, 4h, 1:3; Low amino acids in bone soup: 0.10MPa, 3h, 1:4;(2) Hydrolysis the bone soup with enzymes ①High content of calcium: neutral enzyme, 1500u/L, 6h;②High DH: pancreatic enzyme, 1:100, 6h;③ Low PCL: Pancreatic enzyme, 1:125, 6h; High PCL: alkalescency enzyme,

结果表明:A、高压①骨粉及骨汤蛋白质含量最高:压力为0.05MPa,高压2.0h,骨水比为1:2;②骨粉中氨态氮最低:压力0.13MPa,高压4.0h,骨水比为1:3;骨汤中氨态氮最低:0.10MPa,3.0h,骨水比1:4;B、酶解①游离钙含量最高:中性蛋白酶,酶浓度1500u/L,酶解6h;②水解度最高:胰蛋白酶,酶浓度1:100,酶解6h;③PCL值最低:胰蛋白酶,酶浓度1:125,酶解6h;PCL值最高:碱性蛋白酶,酶浓度1500u/L,酶解8h。

The results:(1) Dealing with the bone under high pressure ① High content of protein in sheep bone or bone soup:0.05MPa, 2h, 1:2;② Low amino acids in bone powder:0.13MPa, 4h, 1:3; Low amino acids in bone soup: 0.10MPa, 3h, 1:4;(2) Hydrolysis the bone soup with enzymes ① High content of calcium: neutral enzyme, 1500u/L, 6h;② High DH: pancreatic enzyme, 1:100, 6h;③ Low PCL: Pancreatic enzyme, 1:125, 6h; High PCL: alkalescency enzyme,

结果表明: A 、高压①骨粉及骨汤蛋白质含量最高:压力为0.05MPa ,高压2.0h ,骨水比为1:2;②骨粉中氨态氮最低:压力0.13MPa ,高压4.0h ,骨水比为1:3;骨汤中氨态氮最低:0.10MPa ,3.0h ,骨水比1:4; B 、酶解①游离钙含量最高:中性蛋白酶,酶浓度1500u/L ,酶解6h ;②水解度最高:胰蛋白酶,酶浓度1:100,酶解6h ;③ PCL 值最低:胰蛋白酶,酶浓度1:125,酶解6h ; PCL 值最高:碱性蛋白酶,酶浓度1500u/L ,酶解8h 。

Avoid washing with strong alkaline and strong oxidizing chemical agents, such as alkaline, soda and bleaching powder, etc., as these strong electrolytes with the same utensils to certain ingredients from chemical reactions.

避免与强碱性和强氧化剂,如化学剂碱性,苏打水和漂白粉等,洗涤,与从化学反应的某些成分相同的器皿这些强大的电解质。

According to authigenetic mineral association and nowadays stratum geochemistry character, combining the diagenesis character of sandstone in coal measure strata, it is thought to the fluid of outcrop sandstones went through ealy acidity- acidity-alkality-surficial acidity 4 fluid phases, the fluid evolution of core sandstones is ealy acidity- acidity- nowadays alkality 3 fluid phases.

由自生矿物组合以及现今地层水地球化学特征,结合煤系地层砂岩成岩作用特征,认为露头砂岩的流体经历了早期酸性-酸性-碱性-地表酸性4个流体阶段,岩芯砂岩的流体演化为早期酸性-酸性-现今碱性3个流体阶段。

The tuffaceous volcanic reservoir s of Xing'anling group in Hailaer Basin, Daqing Oilfield, includes andesite-rhyolite tuffaceous, andesite tuffaceous and trachy-rhyolite tuffaceous volcanic rocks.

针对这些特点,通过岩石水理特性实验和岩石力学特征研究,提出了以下解决措施:①凝灰质火山岩储层粘土含量高时,应提高压裂液的防膨胀性能,大排量施工,增加裂缝净压力;②碱性和偏碱性凝灰质储层,应研究使用低滤失压裂液,降低滤失量,同时提高压裂液的防膨胀性能;③凝灰质储层塑性较强时,应尽量提高施工排量。

The desulfurizing absorption tail liquid treated by microbe is basic, and it can return directly to the desulfurizing absorption unit and be reused as a basic absorption liquid; the chemical oxidant is oxygenized by microbe to revive.

脱硫吸收尾液经微生物处理出水为碱性,可直接返回脱硫吸收单元作为碱性吸收液循环利用;化学氧化剂通过微生物氧化实现再生。

Serious corrosion and destroy by the alkalescent waste water from ammonia soda producing process occurred on water treatment buildings in Jiaozuo Xin'an Chemical Factory.

纯碱工艺中碱性废液对混凝土结构水处理构筑物产生较严重的腐蚀和破坏。在其腐蚀破坏过程中,溶解性化学腐蚀、膨胀性结晶化学破坏和强碱腐蚀作用等几种腐蚀同时存在,并相互影响,起作用的影响因子有镁离子、氯离子、硫酸根离子和废液的强碱性等

The extracts of water and alcohol were separated by ion exchange resin. The eluates of neutral solution were the most effective against hydroxyl radicals and the highest rate of inhibiting hydroxyl radicals was 81%. The eluates of basic solution were also effective, the inhibit rate of which was 60%.

将发酵灵芝粉的水和醇提取物上离子交换树脂柱,依次用酸性、中性、碱性淋洗液洗脱分组,发现中性洗脱部分对羟基自由基抑制作用最强,抑制率最高可达81%;碱性洗脱部分亦具有抑制羟基自由基的效果;酸性洗脱部分抑制羟基自由基的作用不强,且占很少比例。

The emulsion quartz stone material protective agent's solute has certain active multi-compositions and so on of functionality siloxanes and fluorine silicon hydride, this kind groups with the active ingredient carry alcoholysis reaction the ion condition water on quartz stone material surface, thus causes the siloxanes and the fluorine siloxanes has chemistry keying connection with the quartz stone surface, from outside to inside of the quartz stone surface and stone inside pore surface forms a kind of complex network structure, this kind of network structure is extremely dense, it may filter polar and carbon dioxide, slows down the speed that water molecules go in and out the quartz stone pore, so the quartz stone will not be soaked by the water molecules, meanwhile to be a barrier to stop alkaline compounds and salt to infiltrate from an interface to another, also can have the very good physical enhancement effect.

乳液型石材防护剂的溶质是具有一定活性的多官能度的硅氧烷和氟硅烷等组成,这种带有活性成份的基团与石材表层离子态水进行醇解反应,从而使硅氧烷和氟硅氧烷与石材表面进行化学键连接,由外向内在石材表面和石材内部毛的表层形成一种结构复杂的网状结构,此种网状结构极其密实,它可将极性水分子和二氧化碳进行过滤,减缓水分子进出石材毛孔的速度,不会被水分子浸湿,同时还有阻隔石材不同界面的碱性化合物和盐份向另外一个界面渗透,同时还能起到很好的物理增强效果。

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Finally, according to market conditions and market products this article paper analyzes the trends in the development of camera technology, and designs a color night vision camera.

最后根据市场情况和市面上产品的情况分析了摄像机技术的发展趋势,并设计了一款彩色夜视摄像机。

Only person height weeds and the fierce looks stone idles were there.

只有半人深的荒草和龇牙咧嘴的神像。

This dramatic range, steeper than the Himalayas, is the upturned rim of the eastern edge of Tibet, a plateau that has risen to 5 km in response to the slow but un stoppable collision of India with Asia that began about 55 million years ago and which continues unabated today.

这一引人注目的地域范围,比喜马拉雅山更加陡峭,是处于西藏东部边缘的朝上翻的边框地带。响应启始于约5500万年前的、缓慢的但却不可阻挡的印度与亚洲地壳板块碰撞,高原已上升至五千米,这种碰撞持续至今,毫无衰退。