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C.I. 冰染重氮组分44 (C.I. 37000) 生产工艺 CAS号[95-51-2]
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<p class="MsoNormal"> <strong><u><span>C.I. </span></u></strong><strong><u>冰染重氮组分<span>44 (C.I. 37000) </span></u></strong><strong><u>生产工艺 </u><span> CAS</span></strong><strong>号<span>[95-51-2] </span></strong><strong>黄色基</strong><strong>GC</strong><strong>。</strong><strong></strong> <br /> <p class="MsoNormal"> <strong><u>CAS</u></strong><strong><u>名</u></strong><strong><u>:</u></strong><strong> Benzenamine, </strong>2-chloro-, <strong><u>参考文献</u></strong><strong><u>:</u></strong><strong> Beil. 12, </strong>597<strong>, E<sup>1</sup>, </strong>297<strong>, E<sup>2</sup>, </strong>315<strong>, E<sup>3</sup>, </strong>1281<strong>, E<sup>4</sup>, </strong>1115<strong>.</strong> <br /> <p class="MsoNormal"> <strong><u>发明者</u></strong><strong><u>:</u></strong> Winther, Laska, Zitscher 1911年。<strong><u>Colour Index:</u></strong> Echtgelb GC Base, Echtgelbsalz GC. <br /> <p class="MsoNormal"> <strong><u>用途</u></strong><strong><u>:</u></strong> C.I. 酸性黄41, 122。 C.I. 酸性蓝87。C.I. 直接绿10。C.I. 分散橙54。C.I. 颜料黄60, 180。C.I. 颜料橙19, 31。 <br /> <p class="MsoNormal"> C.I. 颜料红21。C.I. 荧光增白剂31。 <br /> <p class="MsoNormal"> <strong><u>生产工艺文献</u></strong><strong><u>:</u></strong> <br /> <p class="MsoNormal"> <strong><u>BIOS 986,</u></strong><u> 64-66. (=</u><u>胶卷</u><u>PB 77764) <strong>0-Chloroaniline </strong>(I.G. Griesheim) </u><strong><u>英国人译自德文。</u></strong><u>抄录如下。</u><u></u> <br /> <p class="MsoNormal"> <strong><u>反应式</u></strong><strong><u>:</u></strong><strong> </strong>本人有加注。<br /> <img src="http://www.陈忠源化学文库.cn//chenzhongyuan/Upload/ArticlePicture/QQ图片20170106092355.png" alt="" /> <br /> <p class="MsoNormal" style="text-indent:14.25pt;"> Prepared by the iron reduction of o-chloronitrobenzene (No. 53). Iron reduction type 1. <br /> <p class="MsoNormal" style="text-indent:14.25pt;"> Approx. <strong>100 kg. o-chloronitrobenzene, 15 kg. formic acid </strong>and <strong>1500 kg. iron borings </strong>are charged into <strong>2000 l. boiling water</strong> to start the reduction. <strong>4000 kg. o-chloronitrobenzene</strong> is then added slowly at the boil. After <strong><sup>1</sup>/<sub>2</sub> hr. (1000 kg.) </strong>of the o-chloronitrobenzene has been added a further <strong>1500 kg. iron borings</strong> is charged, together with <strong>15 kg. formic acid. </strong>When the reaction slackens a further <strong>1000 kg. iron borings </strong>is added. Time for nitro addition <strong>17-20 hrs.</strong> <br /> <p class="MsoNormal" style="text-indent:14.25pt;"> After completion of the reduction the batch is allowed to settle in the reducer and the crude amine layer is separated from the iron sludge and allowed to settle for a further period in settling cylinders, very nearly all the iron being removed in this way. o-Chloroaniline in the sludge left in the reducer (and in the settling cylinders) is recovered by means of steam distillation. Total occupation of reducer =<strong> 37-38 hr.</strong> The crude product is worked up by vacuum distillation, the water present being distilled over first and then the o-chloroaniline. <br /> <p class="MsoNormal" style="text-indent:14.25pt;"> <strong><u>(Test for completion of reduction:</u></strong> after all the nitro body has been added and the reaction has died down, a sample of the reaction mixture is distilled in a flask: the distillate should be colourless if the reduction is complete. If the distillate has a yellow tinge agitation should be continued and, if necessary, a small amount of iron boring added<strong>).</strong> <br /> <p class="MsoNormal"> <strong><u>Yield data and materials consumption/ tone of o-chloroaniline:</u></strong> <br /> <p class="MsoNormal"> o-Chloronitrobenzene 1.3 tone <strong><u>Yield =</u> 95% theory.</strong> <br /> <p class="MsoNormal"> Iron borings 1.28 tone. Formic acid 0.01 tone. <br /> <p class="MsoNormal"> <strong><u>Service consymption /tone of product:</u></strong> Electricity 382 K.W.H. Steam 8.9 t.L.P. 2.1 t<sup>3</sup> H.P. <br /> <p class="MsoNormal"> Water 125 M<sup>3</sup>. Air 314 M<sup>3</sup> <br /> <p class="MsoNormal"> <strong><u>Plant required for output of 40 tone o-chloroaniline / month:</u></strong> (or 40 tone /month of different chloroaniline) <span style="text-indent:195pt;line-height:1.5;"> (See also 0-anisidine No.16) </span> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 1. 1 reducer, 10 M<sup>3</sup> C.I. brick-lined, robust agitator of silicon iron (impeller type, 55 r.p.m.) and reflux cooler with sight glass to assess the vigour of reaction, as judged by rate of reflux. <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 2. 2 settling cylinders 10 M<sup>3</sup> equipped with agitation. <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 3. 1 still, 10 M<sup>3</sup>, with empty column attached to vacuum receivers and pumps. <br /> <p class="MsoNormal" style="margin-left:15.05pt;text-indent:-15.05pt;"> <strong><u>Analytical data:</u></strong> o-chloronitrobenzene C.Pt. 31.6<sup>0</sup>C. o-chloroaniline C.Pt. -2<sup>0</sup>C. to -3<sup>0</sup>C. <br /> <p class="MsoNormal" style="margin-left:15.05pt;text-indent:-15.05pt;"> <strong><u>Production:</u></strong> 1937 60,000 kg. 1943 74,000 kg. <br /> <p class="MsoNormal" style="margin-left:15.05pt;text-indent:-15.05pt;"> <strong> <u>o-Chloroaniline hydrochloride. </u></strong><u>(I.G. Griesheim) </u> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> <strong>600 kg. o-chloroaniline</strong> and <strong>2500 l. 7-8% hydrochloric acid </strong>are heated to <strong>70<sup>0</sup>C. </strong>then add <strong>470 kg. hydrochloric acid 24<sup>0</sup>Be’</strong> and cool <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> to <strong>15-20<sup>0</sup>C. </strong>The product is filtered on a vacuum filter and then hydroextracted to further reduce the water content. Dry at <strong>70-75<sup>0</sup>C. </strong> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> (1-1.5 tones/24 hrs) and grind. The mother liquor can be reused for 6-7 batches before rejection. <br /> <p class="MsoNormal" style="margin-left:15.05pt;text-indent:-15.05pt;"> <strong><u>Materials consumption/tone of o-chloroaniline hydrochloride:</u></strong> o-Chloroaniline 0.775 t. Yield = 100% theory. (C.P. -2 to -3<sup>0</sup>C.) <br /> <p class="MsoNormal" style="margin-left:15.05pt;text-indent:-15.05pt;"> <strong><u>Plant for 25 tons/month all hydrochloride of amines:</u></strong> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 1. Solution and precipitation vessel 1 x 4 M<sup>3</sup> brick-lined tank, Lead coil Homogeneously lead-covered agitator. <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 2. Vacuum filter 3 M<sup>3</sup> stoneware. 2a. Vacuum receiver 1 M<sup>3</sup> stoneware. <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 3. Centrifuge. Lead 90 kg. 750 r.p.m. rubber-lined. 4. Dryer. 5. 2 x 3 M<sup>3</sup> Ceramic storage vessels. <br /> <p class="MsoNormal" style="margin-left:15.05pt;text-indent:-15.05pt;"> <strong><u>Analytical data:</u></strong> o-chloroaniline C.Pt. -2 to -3<sup>0</sup>C. <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> <u>日文<strong>摘</strong>译文。细田豊。<strong>《理论制造染料化学》</strong></u><strong><u>1957</u></strong><strong><u>年。</u></strong><u>P. 480 </u><u>译自</u><u>PB 77764. </u><u>抄录如下。</u><u></u> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> <u>2-</u><u>クロルアニリン</u><u> </u><u>( </u><u>フアストエロ</u><u>- G</u><u>ヘ</u><u><sup>”</sup></u><u>-</u><u>ス</u><u>)</u> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 10 m<sup>3</sup>铸铁还原釜に0-ニトロヘ<sup>”</sup>ンセ<sup>“</sup>ン100 kg,義酸15 kg, 铁粉1.5 tを煮沸水2 m<sup>3</sup>に装入して还原を始め,o-ニトロクロ <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> ルヘ<sup>”</sup>ンセ<sup>”</sup>ン4 tを17-20 hて<sup>”</sup>加える。その间<sup>1</sup>/<sub>4</sub> h後ニトロ1 tを加えた顷铁粉1.5 t と義酸15 kgを追加し,また反应か<sup>”</sup>にふ<sup>”</sup> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> れは<sup>”</sup>铁粉1 tを加える。还原终れは<sup>”</sup>, 静置してアミン层を分けてさらに静置槽て<sup>”</sup>铁さ沉降させる。酸化铁残渣は水蒸汽蒸馏 <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> によつてアミンを回收する。粗制品は真空蒸馏する。3160 kg,收率95%。 <span>Cp. -2 - -3<sup>0</sup></span> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> <u>中文<strong>摘</strong>译文。</u><u>张澍声。<strong>《精细化工中间体工业生产技术》</strong></u><strong><u>1996</u></strong><strong><u>年。</u></strong><u>p. 71. </u><u>译自</u><u>BIOS 986. </u><u>抄录如下。</u><u></u> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 在10000 L 砖衬还原釜中,加入100 kg邻氯硝基苯,15 kg甲酸,1500 kg铁屑和2000 L沸水,开始还原。然后在沸腾下缓 <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 缓加入4000 kg邻氯硝基苯。 <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 15分钟后,已经加入1000 kg邻氯硝基苯时,再加入1000 kg铁屑。硝化物加入时间为17-20小时。 <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 还原反应完毕,反应物在还原器中静置,粗胺层于铁泥分离,再静置并分离。还原器中铁泥内的邻氯苯胺水蒸汽蒸馏回收。 <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 还原器总占据时间37-38小时。粗产品经真空蒸馏,首先蒸出存在的水,然后蒸馏出邻氯苯胺。 <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 还原反应完成的检验 <span>– </span>当所有硝基物加完,并且反应趋于停滞,取反应混合物样品放入烧瓶中蒸馏。如果反应完成,馏出 <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 物应是无色的;如果馏出物呈黄色,应继续搅拌,必要时加入少量铁屑。邻氯苯胺熔点 -3 - -2<sup>0</sup>C, 收率95%。 <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 每售出1吨邻氯苯胺消耗:邻氯硝基苯1300 kg, 铁屑1280 kg, 甲酸 10 kg。 <br /> <p class="MsoNormal" style="margin-left:15.05pt;text-indent:-15.05pt;"> <strong><u>邻氯苯胺盐酸盐:</u></strong><strong><u></u></strong> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 600 kg邻氯苯胺和2500 L 7-8%盐酸加热至70<sup>0</sup>C, 然后加470 kg 40% 盐酸,冷却到15-20<sup>0</sup>C,抽滤,脱水器脱水以降低水含量, <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> 70-75<sup>0</sup>C干燥并研磨。母液在弃去前可重复使用6-7次。 <br /> <p class="MsoNormal" style="margin-left:15.05pt;text-indent:-15.05pt;"> <strong><u>PB 70422,</u></strong><u> 2002-2008. <strong>Fast Yellow Salt GC. </strong> By Keller. <strong>1937</strong></u><strong><u>年</u></strong><strong><u>12</u></strong><strong><u>月</u></strong><strong><u>13</u></strong><strong><u>日。</u></strong><u>德文。共</u><u>7</u><u>页。</u><strong><u>这是重氮盐。</u></strong><u>未抄录。</u><u></u> <br /> <p class="MsoNormal" style="margin-left:15.05pt;text-indent:-15.05pt;"> <strong><u>PB 70423,</u></strong><u> 2806-2812. Echtgelbsalz GC. </u><strong><u>这是重氮盐生产工艺。</u></strong><strong><u> </u></strong><u>年份未抄录。</u><u>未抄录。</u><u></u> <br /> <p class="MsoNormal" style="margin-left:18.05pt;text-indent:-18.05pt;"> <strong><u>国内研究动态</u></strong><strong><u>:</u></strong> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> <u>荆学荣</u><u> </u><strong><u>气相色谱对邻氯苯胺及杂质的分离和含量测定</u></strong><strong><u> [J] </u></strong><strong><u>染料工业。</u></strong><strong><u>1992.4. 23-5. </u></strong> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> <u>宋东明</u><u> </u><u>李树德</u><u> </u><u>等</u><u> </u><u>(大工)</u><u> </u><strong><u>液相加氢制备邻氯苯胺</u></strong><strong><u> [J] </u></strong><strong><u>染料工业。</u></strong><u>1994,4, 19-21.</u> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> <u>陈</u><u> </u><u>丹</u><u> </u><u>李树德 </u><u>(大工)</u><u> </u><strong><u>兰尼镍催化加氢制备邻氯苯胺</u></strong><strong><u> [J] </u></strong><strong><u>染料工业,</u></strong><strong><u> </u></strong><u>1997, 5, 31-33.</u> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> <u>胡拖平</u><u> </u><u>陈宏博 </u><u>(大工)</u><u> </u><strong><u>单氯代硝基苯加氢还原时脱氯规律的研究</u></strong><strong><u> [J] </u></strong><strong><u>染料工业,</u></strong><strong><u> </u></strong><u>2000, 6. 11-12.</u> <br /> <p class="MsoNormal" style="margin-left:15.0pt;text-indent:-15.0pt;"> <u>孙</u><u> </u><u>昱</u><u> </u><u>吴秋洁</u><u> </u><u>等</u><u>(南大)</u><u> <strong><span>Ni-B / SiO<sub>2</sub> </span></strong></u><strong><u>非晶态合金催化加氢制备邻氯苯胺</u></strong><strong><u>[J]</u></strong><strong><u>染料与染色,</u></strong><u>2005, 6, 32-34.</u> <br /> <p class="MsoNormal" style="margin-left:18.05pt;text-indent:-18.05pt;"> <strong><u>加注:</u></strong> <br /> <p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;"> 1. 抄录不同译文,说明译者不同,理解会不同,所以最好看原件。当然读者能看懂外文。 <br /> <p class="MsoNormal" style="margin-left:18.0pt;text-indent:-18.0pt;"> 2. 国内期刊这里不再抄录,请看原期刊。 <br /> <p class="MsoNormal" style="margin-left:18.05pt;text-indent:-18.05pt;"> <strong>陈忠源</strong><strong> </strong>2017年1月5日 于 无锡 明辉国际。 <br /><br /><br />本文地址:<a href="http://www.陈忠源化学文库.cn/Article.asp?ID=10000329" target="_blank">http://www.陈忠源化学文库.cn/Article.asp?ID=10000329</a>
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