甲酰嗎啉（formylmorpholine,簡稱NFM）是一種重要的有機溶劑和精細化工原料。常溫下為無色透明液體。具有酰胺的化學性質，其水溶液在酸或堿存在的條件下易水解成嗎啉和甲酸，水溶液呈弱堿性。下面小編為您介紹一番：

Formylmorpholine (NFM) is an important organic solvent and fine chemical raw material. It is a colorless transparent liquid at room temperature. It has the chemical properties of amide, and its aqueous solution is easily hydrolyzed into morpholine and formic acid in the presence of acid or base. The aqueous solution is weakly alkaline. Below, the editor will introduce to you:

甲酰嗎啉不僅具有選擇性好、熱穩定性和化學穩定性好、無毒、無腐蝕性等優點，而且由于其結構的特殊性，能與脂肪族烴類、芳烴以及水等互溶，具有良好的溶解萃取性能。

Formylmorpholine not only has advantages such as good selectivity, thermal and chemical stability, non-toxicity, and non corrosiveness, but also has good solubility and extraction performance due to its unique structure, which can be miscible with aliphatic hydrocarbons, aromatics, and water.

同時由于甲酰嗎啉溶解芳烴后，能大大降低芳烴的揮發度，提高芳烴與非芳烴之間的分離系數，因此被廣泛應用于芳烴（如苯、甲苯、二甲苯等）與石蠟烴、丁烯、甲乙酮抽提等工藝中，可使精苯純度高達99.99%，甲苯純度達99.7%，二甲苯純度達99.0%，并且溶劑消耗少、不需添加pH調節劑，具有對設備無腐蝕、節能、環境污染小等突出的優點。

At the same time, due to the dissolution of aromatic hydrocarbons by formylmorpholine, the volatility of aromatic hydrocarbons can be greatly reduced, and the separation coefficient between aromatic and non aromatic hydrocarbons can be improved. Therefore, it is widely used in the extraction of aromatic hydrocarbons (such as benzene, toluene, xylene, etc.) and paraffin hydrocarbons, butene, methyl ethyl ketone, and other processes. It can achieve a purity of up to 99.99% for refined benzene, 99.7% for toluene, and 99.0% for xylene, with low solvent consumption and no need to add pH regulators, It has outstanding advantages such as no corrosion to equipment, energy conservation, and low environmental pollution.

另外，甲酰嗎啉可以在聚酯塑料的發泡工業中用作催化劑，在精細化工領域用作甲酰化試劑，在醫藥工業用作藥物合成反應的溶劑，并且都具有特別優良的性能，也是合成藥物中間體的重要原料。

In addition, formylmorpholine can be used as a catalyst in the foaming industry of polyester plastics, as a formylation reagent in the fine chemical industry, and as a solvent for drug synthesis reactions in the pharmaceutical industry. Both of them have excellent performance and are important raw materials for synthesizing drug intermediates.

生產方法

Production method

甲酰嗎啉的合成方法有多種，根據酰化劑不同一般可以分為甲酸法、甲酸甲酯法、甲酰氯法、羰基酰化法以及嗎啉烯胺氧化法等。

There are various methods for synthesizing formylmorpholine, which can be divided into formic acid method, methyl formate method, formyl chloride method, carbonyl acylation method, and morpholine enamine oxidation method according to different acylating agents.

甲酸法

Formic acid method

甲酸法因為副反應少，原料易得，是比較適合我國國情一種工業化生產路線。反應方程式如下：該反應為可逆放熱反應，為了使反應轉化率提高，通常采用移走反應體系中的水使平衡向右移動的方法，方法有兩種：一種為使用帶水劑脫除水分；另一種為反應過程中精餾分離水。

The formic acid method is a suitable industrial production route for China due to its low side reactions and easy availability of raw materials. The reaction equation is as follows: the reaction is a reversible Exothermic reaction. In order to improve the reaction conversion, the method of moving the water in the reaction system to make the balance move to the right is usually used. There are two methods: one is to use water carrying agent to remove water; Another method is to separate water through distillation during the reaction process.

甲酸酯法

Formate method

甲酸酯法合成甲酰嗎啉的工藝簡單，無水生成，設備腐蝕性小，目前國內外研究也比較多，其中甲酸甲酯作為一種使用較早的酰化劑，研究成熟，反應物和生成物都不是酸性物質，避免了甲酸法產品呈酸性和對設備腐蝕問題，但該法收率比較低，副產物多，導致產品純度較低。

The process of synthesizing formylmorpholine by the Formate method is simple, anhydrous, and less corrosive to the equipment. At present, there are many studies at home and abroad. As an earlier used acylating agent, methyl formate is mature, and neither the reactant nor the product is acidic, which avoids the problem of the formic acid method product being acidic and corrosive to the equipment. However, this method has low yield and many by-products, leading to low product purity.

超臨界羰基化法

Supercritical carbonylation method

使用CO和超臨界CO2為酰化劑的羰基化法，是合成甲酰嗎啉的綠色環保工藝，價格低廉，污染小，但是該工藝要求較高，必須在高溫、高壓、過渡金屬或貴金屬作催化劑以及添加劑等共同作用下才能合成，對設備要求高，投資比較大，工藝較復雜，催化劑的價格昂貴，超臨界CO2的工藝目前實現大型工業化生產困難，應用較少。但隨超臨界CO2工藝研究的逐步成熟，以及超臨界CO2環保、安全、無毒的優點，超臨界CO2為酰化劑的羰基化法將得到廣泛應用。

The carbonylation method using CO and supercritical CO2 as acylating agents is a green and environmentally friendly process for synthesizing formylmorpholine, with low cost and low pollution. However, this process requires high temperature, high pressure, transition metal or precious metal catalysts, and additives to synthesize. It requires high equipment requirements, high investment, complex process, and expensive catalyst prices, The process of supercritical CO2 is currently difficult to achieve large-scale industrial production and has few applications. However, with the gradual maturity of research on supercritical CO2 technology and the advantages of environmental protection, safety, and non-toxicity of supercritical CO2, the carbonylation method using supercritical CO2 as an acylating agent will be widely applied.

嗎啉烯胺氧化法

Morpholine enamine oxidation method

嗎啉烯胺氧化法生產甲酰嗎啉在1978就有美國專利報道，該方法是將嗎啉與帶有α氫的醛以摩爾比1∶1.2溶解在嘧啶或二氯甲烷中，通入氧氣用500W的鎢燈照射40min，嗎啉與醛發生縮合反應，并脫水生成烯胺，再向反應中加入嗎啉的1.2倍氧氣，并加入血卟啉作為光敏劑，催化氧化反應，烯胺雙鍵斷裂生成甲酰嗎啉。

The oxidation method of morpholine enamine to produce formylmorpholine was reported in a US patent in 1978, which combines morpholine with α Aldehydes of hydrogen are dissolved in pyrimidine or dichloromethane in a molar ratio of 1 ∶ 1.2. Oxygen is introduced and irradiated with a 500W tungsten lamp for 40min. Morpholine and aldehyde undergo Condensation reaction and dehydrate to form enamines. Then 1.2 times oxygen of morpholine is added to the reaction, and hematoporphyrin is added as a photosensitizer to catalyze the oxidation reaction. The enamine double bond breaks to form formylmorpholine.

用于天然氣、合成氣、煙道氣、天然氣凝析油及汽油等的脫硫;[2]是石油芳烴裝置的佳抽提溶劑，可用萃取蒸餾回收芳烴，它具有選擇性好，熱穩定性和化學穩定性好，無毒害，無腐蝕。是目前廣泛應用的回收芳烴溶劑。您有需求可以隨時來聯系我們http://www.bofengdl.com！

Used for desulfurization of natural gas, synthetic gas, flue gas, natural gas condensate, and gasoline; [2] It is a good extraction solvent for petroleum aromatics unit, which can be recovered by Extractive distillation. It has good selectivity, thermal stability and chemical stability, no toxicity, and no corrosion. It is currently a widely used solvent for recovering aromatic hydrocarbons. You can contact us anytime if you have any needs http://www.bofengdl.com !