水煤漿燃燒技術(shù)用于造紙黑液處理的研究

燃燒科學(xué)與技術(shù)第8卷(2002)第1期JOURNAL OF COMBUSTION SCIENCE AND TECHNOLOG YVol.8(2002)No.1Research on Application of Coal-Water Slurry Techniquesto Disposal of Wheat Straw Pulping black liquorYUANChEn Li-fang, WU Cheng-kang(Institute of Mechanics, Chinese Academy of Sciences, Beijing 100080. China)Abstract: A pilot test on disposal of wheat straw pulping black liquor by Coal-Water Slurry (CWS) combustiontechnology as an alternative of traditional alkali recovery technique has been performed. Experimental studycombustion feature of several kinds of Coal-Blackliquor Slurry (CBS) was carried out in a 6. 5 t/h chain-grate boier In the test flue gas, slag and dust were analyzed and the boiler's thermal efficiency was measured. The resultsdemonstrate that the co-combustion of CBS with granular coal increases the boiler's thermal efficiency and decreases poisonous emission. The successful combustion of CBs demonstrates its promise as a key technique in a noveleasure of comprehensive disposal of wheat straw black liquorKeywords: coal-water slurry i coal-blackliquor slurry wheat straw black liquor水煤漿燃燒技術(shù)用于造紙黑液處理的研究原鯤,陳麗芳,吳承康(中國科學(xué)院力學(xué)研究所,北京100080)摘要:對水煤漿燃燒技術(shù)用于造紙黑液處理進(jìn)行了中試研究。多種不同組成的黑液煤漿在改造過(guò)的6.5t/h的鏈條爐上進(jìn)行了燃燒試驗。對黑液燃燒產(chǎn)物如煙氣、煙塵及灰渣進(jìn)行了成分測試,對鍋爐混燒水煤漿前后的效率進(jìn)行了分析比較。結果表明,黑液煤漿與層燃煤混燒提高了鍋爐效率并降低了污染。水煤漿燃燒技術(shù)在該領(lǐng)域的成功應用為造紙黑液的處理提供了新的思路關(guān)鍵詞:水煤漿;黑液煤漿;黑液中圖分類(lèi)號:X793文獻標識碼:A文章編號:1006-8740(2002)01-0013-04The impact of continuous development of the paof wheat straw black liquor utilizing CWS technologyper industry on the environment is getting serious in as well as the effects of secondary pollution are invesChina. The conventional alkali recovery system, how- tigated in this study CWS arose as an alternative ofever,works far less than satisfactorily in handling fuel oil in the crucial oil crisis in 1970s. During theTheat straw black liquor due to its inherent drawpast two decades, CWs technology has maturedbacks that lead to failure in the aspects of black terms of preparation, trans portation, atomization andliquor extraction, evaporation, combustion and causti- combustion. As a substituent of the conventional discization. But pollution caused by the paper industry中國煤化工or, the CWS technolomust be solved urgentlCNMHGes. Direct combustionTo overcome the difficulties, viability of disposal of black liquor assisted by coal may naturally avoid收稿巳兩芳數據21作者簡(jiǎn)介:原鯤(1972—),男,博士,中國科學(xué)院工程熱物理所博士后。E-mail:kyuan@iech.ac.cn。燃燒堯科學(xué)與技術(shù)第8卷第1期some difficulties met in the conventional alkali recovery process1 Experimental爹多The system diagram for CBS preparation, storage, transportation and combustion is shown in Fig1.a double cone disc extruder was used to obtainblack liquor with a concentration up to around 21%Subsequently the black liquor was diluted to certainFig 3 Diagram of CBS nozzleconcentrations demanded by the test Coal was pulerized and mixed with black liquor as well as addiContrary to the conventional CwS which, typi-tive in a vibrating ball millcally made up of about 70% coal, 30% water and 1%additive, was prepared aiming at a maximum coal cotent, CBS was prepared with a minimum coal contentin order to increase the disposal output of blackliquor. On the other hand. the apparent viscosity ofblack liquor, much higher than that of water, increasing significantly with a higher solid concentrationadds to difficulties in preparation of cBs. The rheologic characteristics of typical CBS is shown in Fig. 4torboiler 56. air blower 7. CRS tank8. pulp 9. fiber 10. coal Il additive 12. black liquor 13. CBSFig 1 Diagram of systemThe self-stabilizing type CBS precombustor witheccentric jet is based on the method of flame sta bilization by use of nonsymmetrical jets. The structure ofthe Eccentric Jet Burner and the inner recirculationzoneLl. 2, induced by interaction bet ween the primaryFig 4 CBS rheologic characteristicsair & CBS jet and ash-blowing jet, is shown schematcally in Fig. 2. Atomized CBS droplets get ignited in 2 Results and Discussionthe precombustor, forming a stable flame at the exit 2. 1 Boiler efficiencyof the precombustor and then burn out in the boilerThe degree to which CBS combustion is viablesynchronously with granular coal on the chain. A was determined in the test. The solute concentrationkind of low-pressure, multistage CWS nozzle (Fig 3) in black liquor varied between 3%20%,and thewas applied in the test 4coal concentration in CBS varied between 35%51%in the中國煤化工 I ultimate analysis ofthe coCNMHGOugh CBS had a lowerheattent, the result turned out that CBS meeting such cr<2000mPFig 2 Diagram of precombustorburn successfully and form stable flame jet at the exi2002年2月原鯤等:水煤漿燃燒技術(shù)用于造紙黑液處理·15·of the precombustor. The efficiency of a typical chain- rate and simultaneous decrease of the feeding rate ofgrate boiler burning granular coal is relatively low. granular coal to maintain the stable boiler steam outHowever, the setting of the precombustor enabled the put, the NO content in the gas decreased due primanCBS flame jet to flow toward the head of the chain to ily to the low-emission characteristics of combustionincrease the temperature there and thus help the ignithe eccentric jet burner. But with further increasetion of granular coal ahead, favorable for enhance- of CBS feeding rate after that of granular coal havingment of the granular coal burn-out rate. On the other been decreased to a lower limit to maintain stablehand, the high-temperature environment caused by combustion on the chain, NO, content increased as achain combustion compensated for the deficit of the result of the increase of overall fuel nitrogen. The lowboiler inner space needed for burnout of CBS. The NO, emssion characteristics of the eccentric jet burnsynergistic interaction between granular coal and CBs er originate from its particular designation of reactionworked effectively. With proper operation, 1 ton of zones responsible for both efficient combustion andCBS with a heat value of 10.8 MJ/kg could supplant low NO emission Certain study shows that 3, in the0.8 t of coal with a heat value of 20. 2 MJ/ kg to upper part of the upstream portion of the combustormaintain the stable boiler steam output. The boiler is a zone of high temperature and vigorous combusefficiency increased from 63. 3% to 66.4%ion, whereas in the upper part of the downstreamportion is a reducing zone where NO formed in comTab.I Proximate and ultimate analysis of coalbustion can be converted to n6.286.8931.790.4280.593.641.5415.242 SO, and H,S emission characteristics of CBSWith the increase of solid content of wheat strawblack liquor in CBS, emisson of SO, measured at therear port of the boiler decreased drastically, as shown50和50in Fig. 5, due to its neutralization reaction with ionHS mass feeding rele/ (kg.h")zed alkali which originated from the solid content ofblack liquor. The same reason caused the h,s contentFig 6 NO emission characteristicsin the gas to become negligible.2. 4 Temperature distribution in the precombustorFig. 7 presents the positions where thermal ceples were mounted. Thermal couples were placed inprotecting cannulas and then inserted into holes A, Brespectively. When cannulas move horizontally alongthe hole, the temperature distributions on the track ofthe thermal couple were measured. The results arepresented in Fig. 8. The R axis denotes the distance0000.050.100.150.200中國煤化工 nd the central axis ofFig 5 SO, emission characteristicsthe preCNMH Gture on the central ax2. 3 NO emission characteristics of the eccentric jet ration of the CBs droplet in the central jet. The tem-burnerperature on the inner boundary of the precombustorThe另為數搜 ent in the air vs. CBS feeding rate is also low due to heat transfer. The highest temperas shown in Fig. 6. With the increase of CBs input ture happens at about the edge of the cbs jet where燃燒堯科學(xué)與技術(shù)第8卷第1期has taken place. But even the highemeasured value is about 150 C less than that of combustion oferized coal at the same point2 witthe same burner, more favorable to diminished production of thermal nitrogenAsh-blowing jet3 Conclusions1) Introduction of CBs combustion system to a6.5 t/h chain-grate boiler can enhance the overallcombustion intensity and thus causes increase of boilCannulaer efficiency.2) The emissions of both nitrogen oxides andThermalsulfur oxides conform to the environmental regula3)Successful combustion of CBs may introducea novel viable and economic measure to the disposaof wheat straw pulping black liquorFig. 7 Placement of thermal couples[I Wu Chengkang. Chen Lifang, Li Jun et al. The use of nonsymmetD-Aical jets for the stabilization of low grade coal flames[R]. 22ndl000Symposium (Int )on Combustion. USA, 1988[2 Chen Lifang Zhang Huanqing. Sun Wenchao et al. An experimen-al study on CWs combustion in a industrial boiler designed spe-cially for burning CWS[R]. 3rd Asian-Pacific Symposium (Inton Combustion and Energy Utilization, Hongkong, 1997[3] Qin Feng. Experimental study and analysis on generation of NOin nonsymmetrical coal precombustor [D]. Beijing: InstituteR/mmhanics, Chinese academy of Science, 1991[4] Yuan Kun, Chen Lifang, Wu Chengkang. A study on the characteristics of CWS(coal-water slurry )air-blast atomization[R]14th Annual Pittsburgh Coal Conference ( Int on Clean Coal8 Temperature distribution in the precombustorTechnology and Coal Utilization, Taiyuan 1997. 23中國煤化工CNMHG