CAJ | 학술논문

　　为了揭示微波加热方式对棉杆热解过程的影响，该文采用气相色谱和质谱分析仪（GC-MS）、等温吸附仪（BET）以及傅立叶红外分析仪（FT-IR）分析了棉杆热解产物的理化特性。研究表明随着热解温度的上升，气体产率和液体产率变化趋势相反，且均在500℃附近出现极值，而焦炭产量逐渐降低。微波加热条加下棉杆热解液体产物组分复杂，以乙酸、左旋葡聚糖、苯酚类物质为主，其中乙酸和左旋葡聚糖含量随温度升高而逐渐降低，酚类物质在450℃含量最高，而后总体含量变化缓慢；随着温度的上升，焦炭的孔隙度先增加后降低，所含官能团逐渐减少，焦炭比表面积最大可达到400 m2/g。该文可为微波热解生物质用于产物品质提升的研究提供参考。
　　위료게시미파가열방식대면간열해과정적영향，해문채용기상색보화질보분석의（GC-MS）、등온흡부의（BET）이급부립협홍외분석의（FT-IR）분석료면간열해산물적이화특성。연구표명수착열해온도적상승，기체산솔화액체산솔변화추세상반，차균재500℃부근출현겁치，이초탄산량축점강저。미파가열조가하면간열해액체산물조분복잡，이을산、좌선포취당、분분류물질위주，기중을산화좌선포취당함량수온도승고이축점강저，분류물질재450℃함량최고，이후총체함량변화완만；수착온도적상승，초탄적공극도선증가후강저，소함관능단축점감소，초탄비표면적최대가체도400 m2/g。해문가위미파열해생물질용우산물품질제승적연구제공삼고。
The use of microwaves for heating is well established in society, and is being used in domestic and some industrial processes. However, it has the potential to be introduced and applied to many other industrial heating processes, which offers unique advantages not attained from conventional heating. In this sense, microwave technology was being explored as one method to assist in pyrolysis process of cotton stalk. A study was carried out on the effect of microwave on the liquid and solid products, then the physicochemical properties of pyrolysis products were analyzed by gas chromatography and mass spectrometry (GC-MS), isothermal adsorption analyzer (BET) and fourier transform infrared analyzer (FT-IR). The results showed that with the rising of the pyrolysis temperature, the yields of gas and liquid products had shown opposite trend, and the highest yield of bio-oil was around 500℃ (about 40%), however, the yield of char gradually decreased. Furthermore, within 550-650℃ the changing rate became weaker. The bio-oil had a complex composition, and major compounds in the liquid product were acetic acid, levoglucosan and phenolic substances. Besides the content of decreased acetic acid and levoglucosan with the increasing temperature, while acetic acid obtained by microwave heating was significantly lower comparing with conventional electric heating, which made the acidity of liquid products decrease, the high content of levoglucosan in the cotton stalk oil was discovered under microwave heating, which could go up to 19.86%. In addition, phenolic substances went up with the increasing temperature when below 450℃then multi-substituted phenolic substances had been declined but the content of phenol and hydroquinone increased when above 450℃, so it changed little in total phenolics. Conventionally pyrolysed char could not be used for further application since there persisted large and deep cracks due to the overheating of surfaces, which made them fragile and lost porous nature. Analysis of the product showed the adsorption loop type was L3. Moreover, microwave heating technique was conducive to the formation of the developed pore structure and the specific surface area and micro-pore surface area were first increased and then decreased as the temperature rose, the maximum of SBET and Smic reached 400.29 m2/g and 276.93 m2/g at 550℃, which was known as microwave heating and was highly effective in pyrolysing biomass, specifically the large size which otherwise if not possible but would had been difficult. The surface functional groups of char at 350℃ mainly included O-H (3 500-3 000 cm-1), C-Hn(2 970-2 860 cm-1), C=O(1 730-1 700 cm-1), C=C(1 632 cm-1), C-O-C(1 260 cm-1) and C-H(900-700 cm-1), then gradually decreased as temperature increased. Only small amount of aromatic structure peak (around 1 450-1 600 cm-1) could be detected at 650℃, which indicated the char had been close to completely pyrolysis. The comparative results showed that microwave pyrolysis had a very good prospect on the optimization of bio-oil, getting high value-added products such as levoglucosan, and also the preparation of activated char with high specific surface area.