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甘油是一种可由生物资源生产、可持续的、可降解的平台化学品,是生物柴油、肥皂化工等工业生产过程中的主要副产物.催化甘油脱水反应生产丙烯醛,有望能替代丙烯等石油裂解产物合成丙烯醛的传统工业路线.丙烯醛是一种重要的化工中间体,被用于合成蛋氨酸、丙烯酸、3-甲基吡啶和1,3-丙二醇,并被广泛地应用于农药、医药、高分子材料等领域.随着全球可持续能源发展,生物柴油生产迅速发展,将产生大量的副产物甘油.利用甘油为原料,通过合适的催化剂的催化脱水反应生成丙烯醛,是近十多年来国内外工业催化的研究热点之一.用于催化甘油脱水合成丙烯醛的酸催化剂有杂多酸、金属氧化物、沸石与酸性粘土矿物等.钨磷杂多酸(H3PW12O40)负载的催化剂虽然具有较强的酸性,有利于催化甘油脱水,但容易导致结焦,而且热稳定差,容易失活.钨磷杂多酸负载于SiO2,TiO2,Al2O3,SiO2-Al2O3,K-10蒙脱石上表现出不同的催化活性,表明催化剂和载体的表面酸性和孔结构影响催化性能.近来研究发现,负载于ZrO2,Al2O3的钨氧化物(WOx)催化剂热稳定性好、酸性高,在甘油脱水反应生成丙烯醛中表现出良好的催化性能.但有关钨氧化物(WOx)结构、催化活性受载体组成、酸性影响的本质和规律一直不清楚.本文采用20 wt%的硫酸、盐酸、磷酸和乙酸对蒙脱石进行酸改性,并在磷酸改性的蒙脱石上负载W含量为4–16 wt%的WOx作为催化剂,用于甘油气相脱水反应.X-射线衍射(XRD)、热重-差热法(TG-DTG)、氨程序升温脱附(NH3-TPD)、红外光谱(FT-IR)和紫外漫反射可见光谱(DR UV-vis)等表征,探讨了酸改性和负载WOx的蒙脱石对催化剂催化性能的影响.蒙脱石经过20wt%的硫酸、盐酸、磷酸和乙酸的活化,酸性增加.四种酸改性的蒙脱石对甘油气相脱水反应均有催化活性,这是因为在蒙脱石酸活化过程中,H+经过阳离子交换反应进入蒙脱石层间,同时蒙脱石八面体中的部分Al3+被浸出,使层板上出现不饱和Al3+,为催化剂提供了L酸位,蒙脱石硅氧四面体上的Si?OH以及[AlO4]上吸附的H3O+提供了B酸位.XRD分析表明,负载WOx的蒙脱石表面存在WO2.72,WO2.9和WO3三种不同类型的WOx,当钨负载量从12 wt%增至16 wt%,孤立的单斜晶系WO3晶粒增多.NH3-TPD和DR UV-vis结果表明,WOx负载在蒙脱石表面以[WO5/WO6](B酸位)、[WO4]和单斜晶系WO3相(L酸位)形式存在.蒙脱石上负载WOx能够调节催化剂的酸强度、酸量和酸位.随着钨负载量从4 wt%增至12 wt%,丙烯醛收率从40.9%增加到67.3%;进一步增加钨负载量到16 wt%,丙烯醛收率降为50.7%.结果发现,随着钨负载量的增加,催化活性组分含量增加,[WO5/WO6](B酸位)增加,使催化活性增加;当W负载量达到16 wt%时,WOx分散性降低,且在催化剂表面形成孤立的单斜晶系WO3相(L酸位),不利于提高丙烯醛选择性.当反应温度为320 oC,甘油水溶液浓度为15 wt%时,磷酸活化蒙脱石负载12 wt%W的催化剂上甘油转化率为89.6%,丙烯醛收率达到73.3%.“,”The use of H2SO4-, HCl-, H3PO4-, and CH3COOH-activated montmorillonite (Mt) and WOx/H3PO4-activated Mt as catalysts for the gas-phase dehydration of glycerol was investigated. The WOx/H3PO4-activated Mt catalysts were prepared by an impregnation method using H3PO4-activated Mt (Mt-P) as the support. The catalysts were characterized using powder X-ray diffraction, Fourier-transform infrared spectroscopy, N2 adsorption-desorption, diffuse reflectance ultraviolet-visible spectroscopy, temperature-programmed desorption of NH3, and thermogravi-metric analysis. The acid activation of Mt and WOx loaded on Mt-P affected the strength and number of acid sites arising from H+ exchange, the leaching of octahedral Al3+ cations from Mt octahedral sheets, and the types of WOx (2.7 ≤x≤ 3) species (i.e., isolated WO4/WO6-containing clusters, two-dimensional [WO6] polytungstates, or three-dimensional WO3 crystals). The strong acid sites were weakened, and the weak and medium acid sites were strengthened when the W loading on Mt-P was 12 wt% (12%W/Mt-P). The 12%W/Mt-P catalyst showed the highest catalytic activity. It gave a glycerol conversion of 89.6% and an acrolein selectivity of 81.8% at 320 ℃. Coke deposition on the surface of the catalyst led to deactivation.