丁醛

研究了以TiO2半导体为催化剂，光催化降解丁醛废水的可行性。

The feasibility of photocatalytic degradation of butyraldehyde wastewater was studied by using TiO_2 semiconductor as catalyst .

TiO2/AC复合光催化剂对苯和丁醛的气相光催化降解机理

Reaction Mechanisms for Gas-Phase Photocatalytic Degradation of Benzene and Butyraldehyde over TiO_2 / AC Composite Photocatalyst

以单质碘为催化剂，通过丁醛和乙二醇反应合成了丁醛乙二醇缩醛。

Butyraldehyde glycol acetal was synthesized from butyraldehyde and glycol by using iodine as catalyst .

格氏反应合成4-（N，N-二甲胺基）丁醛缩二乙醇

Synthesis of 4 - ( N , N-Dimethylamino ) butanal Diethyl Acetal by Grignard Reaction

[目的]探讨4-（N，N-二甲胺基）丁醛缩二乙醇的合成路线。

To develop a synthetic route of 4 ( N , N dimethylamino ) butanal diethyl acetal .

V2O5催化甲醇与乙醇合成异丁醛对氯苯甲醛的合成

V_2O_5 catalyst for synthesis of isobutyraldehyde from methanol and ethanol

La2O3对合成异丁醛催化剂V2O5的催化性能的影响

Effect of La_2O_3 on V_2O_5 Catalyst for Isobutyraldehyde Synthesis

用水杨醛作催化剂时，由L-组氨酸不对称转换得到的D-组氨酸·（R）-酒石酸的结晶度远大于用正丁醛作催化剂。

The rate of epimerization of the D-histidine bitartrate by using of Salicylaldehyde as the catalyst was larger than that by butanal .

异丁醛还原Pu（Ⅳ）的动力学研究

Kinetics of Pu (ⅳ) Reduction by Isobutyraldehyde

甲醇与乙醇一步合成异丁醛用CuO-ZnO/Al2O3催化剂

CuO zno / al 2O 3 catalysts for one step synthesis of isobutyraldehyde from methanol and ethanol

正丁醛还原Np（Ⅵ）的动力学及机理研究

The study of kinetics and mechanism of the reduction of neptunium ( ⅵ ) by n-butyraldehyde

建立了2,2二羟甲基丁醛氧化液中反应物以及产物的高效液相色谱（HPLC）分析方法。

A HPLC method separating the reactants and products in the oxidation of 2,2 bis ( hydroxymethyl ) butyric aldehyde was experimentally investigated .

将异丁醛与1,4丁烯二醇缩合得到产物二氧七环，对产物进行了元素分析和IR分析。

The condensation compound was synthesized by 2 butene 1,4 diol and iso butyric aldehyde , and was characterized by elemental analysis and IR .

异丁醛（IBA）的合成异丁醛异构为甲乙酮的研究（I）

Studies on the isomerization of isobutyraldehyde to methyl ethyl ketone (ⅱ)

因而在生产原料正丁醛的地区开发TMP的生产具有重要的经济意义。

Thus , it is urgent and important to develop the manufacture of TMP in the butanal-produced region .

用BunteSalts法合成正丁醛二正丁硫醇缩醛的研究

Study on Bunte Salts Synthesis of Butyl Aldehyde Dibutyl Mercaptal

同时发现，碱性金属氧化物作助剂可以增强助剂与活性组分之间的协同作用，提高异丁醛的选择性和收率，较适宜的助剂是CaO。

Alkali metal oxides improve the synergistic effect between active component and promoters , and increase selectivity and yield of isobutyraldehyde . The optimum promoter is CaO .

不同反荷离子的Keggin结构钼磷酸盐的热稳定性及其对异丁醛催化氧化活性的影响

Thermal Stability and Activity of Catalytic Oxidation of Isobutyraldehyde of Molybdophosphoric Salt with Keggin Structure Containing Different Equilibrium Cations

PVB树脂生产废水，有机物浓度高，pH值低，其所含的正丁醛具有一定毒性，易挥发，不能以生化法直接处理。

PVB wastewater , high concentration of organic matter , pH value is low , the contained n-butyl aldehyde has toxicity , volatile , no directly treatment methods with biochemical method .

本文以硅藻土、分子筛、KOH、NaOH作为吸附剂，获得了脱除工业级粗四氢呋喃（THF）中丁醛的最佳温度为48℃。

By using diatomaceous earth , molecular sieve , KOH , NaOH as adsorbent we have determined that the optimum temperature to eliminate butanal from commercial crude THF is 48 ℃ .

在AZ91D镁合金表面涂覆含有铝粉的缩丁醛有机涂层，并对涂层表面进行机械力表面改性。

A kind of aluminium-containing poly-butyraldehyde organic coatings was prepared on AZ91D magnesium alloys , and the coating surface was modified by mechanical force .

丁醇在分离提取的大鼠肝微粒体中，与微粒体中的细胞色素P450ⅡE1酶及加入的还原性辅酶Ⅱ（NADPH）在特定的温度下作用一定时间后，转化为丁醛。

Analysis of butyraldehyde obtained by the interaction of butanol with cytochrome P450 ⅱ E1 in rat liver microsomes prepared by centrifugation and with the NADPH added is described in this paper .

研究了十多种不同稀土有机化合物对丁醛Aldol-Tishchenko反应的催化活性。

Aldol-Tishchenko reaction of butanal catalyzed by various lanthanide complexes was studied .

较佳反应条件为：第一步反应中，甲醛、异丁醛、三乙胺的用量分别是2.9,2.7,0.07mol，反应时间6h，反应温度70℃；

The optimum reaction conditions were : in the first stage , amount of formaldehyde , isobutyl aldehyde , and triethylamine respectively 2.9,2.7 , and 0.07 mol , reaction time 6 h , reaction temperature 70 ℃;

受原料异丁醛来源的限制，我国NPG生产厂家均在北方，南方大部分NPG市场仍要依赖进口。

Restricted by sources of raw material isobutyl aldehyde , China 's NPG manufacturers are all located in north , so the southern NPG market demand depends on imports also .

以丙二酸和异丁醛为起始原料，通过Knoevenagel缩合，再经异构化和内酯化反应合成了γ-甲基-1,4-戊内酯，总收率53%

Methyl 1,4 valerolactone , an important intermediate of semi synthetic harringtonine was synthesized from malonic acid and isobutyraldehyde by Knoevenagel condensation , followed by isomerization and lactonization in 53 % overall yield .

用氧化镁或氧化钙负载氢氧化钠（NaOH）固体碱作缩合催化剂，钯/炭（Pd/C）作为加氢催化剂，由丁醛和丙酮经交叉酮醛缩合、脱水、催化加氢制得2-庚酮。

The solid base of NaOH adsorbed on MgO or CaO was used as condensation catalyst , and Pd / C was used as hydrogenation catalyst . 2 - Heptanone was synthesized from n - butyl aldehyde and propanone via cross al-dol condensation , dehydration , catalyzed hydrogenation .

本论文探讨了以DMK（丙酮）与BD（丁醛）为原料，经交叉缩合、酸性脱水和催化加氢制备绿色环保型溶剂MAK（2-庚酮）的合成路线。

This article studies the preparation of greenness environment solvent , 2-heptanone , with DMK ( propanone ) and BD ( n-butyl aldehyde ), via cross aldol condensation , dehydration with acid and catalyzed hydrogenation .

在正丁醛50mL、氧气流量为90mL/min、反应时间6h、催化剂为0.6g、反应温度50℃的条件下，正丁酸的收率可达95.8%。

Under the condition of the butyraldehyde 50 mL , the oxygen flow 90 mL / min , reaction time 6 h , catalyst 0.6 g , reaction temperature 50 ℃ . The yield of butanoic acid was 95.8 % .

通过对吉化公司异丁醛加氢装置中一台薄管板换热器（E103）多工况的应力测试，得到了它的应力状态。

By the thin-tubesheet heat exchanger ( E103 ) many working loads stress test of the isobutyraldehyde hydrogenate plant of Jilin Chemical Industry Co. its stress state is obtained .