喷雾-喷动床半干法烟气脱硫实验研究

实验采用 Ca( OH) 2 做脱硫剂 ,考察了 n( Ca)∶ n( S)、入口 SO2 质量浓度、进气温度、绝热饱和温差、表观气速、静床层高度、喷动粒子直径等对脱硫率的影响。结果表明 ,脱硫率随着 n( Ca)∶ n( S)、入口 SO2 质量浓度、静床层高度的增大而增大 ;随进气温度、绝热饱和温差、表观气速、喷动粒子直径的增大而减小。当 n( a)∶n( S) >1.0 0 ,绝热饱和温差为 7℃时 ,脱硫效率可高达 90 %以上。此脱硫技术具有流态化性能好 ,传热传质效率高 ,脱硫效果好等优点 ,特别适合于中小型燃煤锅炉的烟气脱硫     

湿法烟气脱硫反应过程的实验研究

在石灰石/石膏湿法烟气脱硫中试台上,系统开展了浆液pH值、飞灰浓度、液气比、入口SO2浓度、烟气速度和氧化方式等对脱硫反应过程影响的实验研究。实验表明,脱硫效率随着石膏浆液pH值、液气比的升高而增加,且入口SO2浓度越高,液气比越低,影响效应越明显;脱硫效率随着烟气速度、烟气温度和入口SO2浓度的增加而下降;石膏浆液中飞灰含量对系统脱硫效率具有一定的促进作用:pH值>5.6,飞灰浸出液中Fe3+含量相对较低,Fe3+对脱硫反应过渡态催化氧化影响程度较轻,不同工况脱硫效率差别不大。pH值<5.6,飞灰浸出液中Fe3+含量随pH值降低而增大,增效效果逐渐显著;氧化方式对脱硫反应过程有明显的影响,强制氧化工艺的脱硫效率比自然氧化的高5%左右。     

氧化镁烟气脱硫反应特性研究

利用实验室规模的鼓泡式反应装置,对比了碳酸钙、氧化镁和氧化镁/硫酸镁脱硫剂的反应活性,证实脱硫液中高浓度硫酸镁的存在是保证镁法脱硫效率高于钙法的重要因素,并考察了硫酸镁浓度、脱硫剂(氧化镁)浓度、烟气量、SO2浓度和吸收液温度等因素对脱硫效率的影响。结果表明,脱硫反应可以根据pH分为2个不同阶段;反应过程中脱硫效率随着硫酸镁浓度的增加而显著升高;烟气量增加将会导致脱硫效率有所下降;入口SO2浓度升高,脱硫效率下降;氧化镁浓度、温度对脱硫效率影响不显著。结合实验现象进行推断,氧化镁脱硫的反应过程受SO2在气液两相界面的传质扩散和其水解产物在液相的扩散控制。     

散堆填料对海水脱硫吸收系统性能影响的实验研究

在海水烟气脱硫中试实验台上进行了填料形式、填料高度变化对脱硫效率和系统压降影响规律的实验研究;研究中将喷淋空塔和分别填装A型、B型、C型3种填料的吸收塔进行了综合性能对比,并进行了填料高度分别为0.6、1.2和1.8 m的对比实验。结果表明,填料塔的脱硫效率高于喷淋空塔;当空塔气速为3 m/s时,填装C型填料的吸收塔的综合性能最优;当空塔气速小于2.5 m/s时,填装A型填料的吸收塔的综合性能最优;在满足相同脱硫效率的指标下,虽然增加填料高度降低了海水喷淋量,并且系统压降出现一定比例下降,但是在工程设计中必须综合考虑塔高、填料支架载荷等因素选择合适的填料堆积高度。     

湿式逆流喷淋脱硫塔中SO_2吸收特性的研究

根据双模吸收理论及SO2在溶液中电离特性,建立了逆流喷淋塔的SO2吸收模型,在考虑浆液飞溅到塔壁的影响后,模拟结果与实验值吻合较好。根据吸收模型,对塔内液气比和浆液的含固率等因素进行了分析。研究表明:减少浆液飞溅到塔壁可提高浆液利用率及脱硫装置性能;根据烟气中SO2的初始浓度及最终脱硫效率,可合理选择液气比及吸收时间(塔的高度);浆液中的含固率直接影响到SO2的吸收速率、循环浆液量、脱硫效率及浆液中SO2浓度等,在液气比较小时,含固率对脱硫效率的影响尤其明显。     

密相塔烟气脱硫技术试验研究

建立了密相塔烟气脱硫试验装置,并对烧结烟气进行了脱硫试验研究,验证了该工艺的可行性,并研究了主要因素对脱硫效率的影响.结果表明,钙硫比和近绝热饱和温度(approach to adiabatic saturation temperature,AAST)是影响脱硫效率的显著因素,循环灰浓度是保证系统脱硫效率的关键因素.在Ca/S比为1.2、密相塔出口烟气AAST=15℃、循环灰浓度为400g/m3条件下,系统能连续稳定运行,脱硫效率达92.5%以上,系统出口烟气中SO2浓度在150 mg/Nm3以下.     

密相塔烟气脱硫技术试验研究

建立了密相塔烟气脱硫试验装置,并对烧结烟气进行了脱硫试验研究,验证了该工艺的可行性,并研究了主要因素对脱硫效率的影响.结果表明,钙硫比和近绝热饱和温度（approach to adiabatic saturation temperature,AAST）是影响脱硫效率的显著因素,循环灰浓度是保证系统脱硫效率的关键因素.在Ca/S比为1.2、密相塔出口烟气AAST=15℃、循环灰浓度为400g/m3条件下,系统能连续稳定运行,脱硫效率达92.5%以上,系统出口烟气中SO2浓度在150 mg/Nm3以下.     

湿式逆流喷淋脱硫塔中SO2吸收特性的研究

根据双模吸收理论及SO2在溶液中电离特性，建立了逆流喷淋塔的SO2吸收模型，在考虑浆液飞溅到塔壁的影响后，模拟结果与实验值吻合较好。根据吸收模型，对塔内液气比和浆液的含固率等因素进行了分析。研究表明：减少浆液飞溅到塔壁可提高浆液利用率及脱硫装置性能；根据烟气中SO2的初始浓度及最终脱硫效率，可合理选择液气比及吸收时问（塔的高度）；浆液中的含固率直接影响到SO2的吸收速率、循环浆液量、脱硫效率及浆液中SO2浓度等，在液气比较小时，含固率对脱硫效率的影响尤其明显。     

水吸收法处理低浓度氮氧化物废气的中试研究

对水在中试规模下吸收低浓度的氮氧化物废气进行了研究。分别研究了喷淋密度、温度、压力、气速以及氮氧化物浓度对吸收效果的影响,结果表明,综合考虑各种因素,喷淋密度在20 m3/（m2·h）,水温在15℃以下,气速小于0.28 m/s,废气浓度在400 mg/m3左右时,氮氧化物的平均脱除率可以达到50%左右;同时,随着压力的增大,吸收效率也增加。     

填料塔中钠碱溶液吸收低浓度SO2的体积传质系数

在填料吸收塔中测定和计算了钠碱溶液吸收烟气中低浓度SO2的体积总传质系数(KGa),并研究了进口气体中SO2浓度、气体流量、吸收液喷淋密度以及溶液中Na 浓度对体积传质总系数的影响.结果表明,进口气体中SO2浓度、气体流量及吸收液喷淋密度对KGa的影响较大;随着进口气体中SO2浓度的增大,KCa逐渐减小,而随着进口气体流量及吸收液喷淋密度的增大,KGa逐渐增大;吸收液中Na 浓度对KGa的影响较小.     

石灰石湿法脱硫过程中SO2吸收数学模型

为揭示石灰石湿法脱硫体系中喷淋塔内SO2的浓度和脱硫效率的变化情况,针对喷淋塔内石灰石在气膜控制、气液膜控制和固体溶解控制的3个不同阶段,以双膜理论为基础,以单个石灰石颗粒为研究对象,通过石灰石在不同阶段的转化率和粒径变化,得到SO2在不同阶段脱硫效率随时间的变化规律,建立SO2吸收的数学模型.模型计算结果表明,在烟气行程上,脱硫效率受SO2气膜传质阻力和石灰石溶解速率限制.在吸收塔底部和上端SO2吸收速率较低,在SO2和石灰石摩尔比在适宜条件下,有效吸收段高度为2 m左右.理论模型揭示的规律对喷淋塔的设计和运行参数选取有一定借鉴意义.     

生物法同时脱硫脱硝试验研究

采用轻质陶粒生物滴滤塔处理摸拟燃煤烟气中二氧化硫和氮氧化物的试验研究，探讨生物法同时脱硫脱硝的影响因素及生物降解宏观动力学。研究结果表明，生物法能有效同时去除烟气中的二氧化硫和氮氧化物，烟气同时脱硫脱硝效率分别可达99.9%和88.9%。为获得最佳烟气同时脱硫脱硝效果，二氧化硫和氮氧化物进气负荷应分别＜140 g/（m³·h）和20 g/（m³·h），循环液pH=7～8，空床停留时间为30.28 s，喷淋密度为8.81 L/（m³·h）。     

Spray-dry desulfurization of flue gas from heavy oil combustion

An experimental investigation on sulfur dioxide removal in a pilot-scale spray dryer from the flue gas generated by combustion of low-sulfur (S) heavy oil is reported. A limewater slurry was sprayed through an ultrasonic two-fluid atomizer in the spray-dry chamber, and the spent sorbent was collected downstream in a pulse-jet baghouse together with fly ash. Flue gas was sampled at different points to measure the desulfurization efficiency after both the spray-dry chamber and the baghouse. Parametric tests were performed to study the effect of the following variables: gas inlet temperature, difference between gas outlet temperature and adiabatic saturation temperature, lime-to-S ratio, and average size of lime particles in the slurry. Results indicated that spray drying is an effective technology for the desulfurization of low-S fuel oil flue gas, provided operating conditions are chosen carefully. In particular, the lowest gas inlet and outlet temperatures compatible with baghouse operation should be selected, as should a sufficiently high lime-to-S ratio. The attainment of a small lime particle size in the slurry is critical for obtaining a high desulfurization efficiency. A previously presented spray-dry flue gas desulfurization model was used to simulate the pilot-scale desulfurization tests, to check the ability of the model to predict the S capture data and its usefulness as a design tool, minimizing the need for pilot-scale experimentation. Comparison between model and experimental results was fairly good for the whole range of calcium/S ratios considered.     

石灰石高温煤气脱硫的试验研究

采用天然石灰石做脱硫剂，在固定床上进行硫化氢高温脱除的试验研究，考察了脱硫剂粒径、反应温度、气速及高温煤气中H2对石灰石脱硫性能的影响，同时还用热重分析(TG)、扫描电镜(SEM)、X-射线衍射(XRD)等测试手段对脱硫剂的物相组成和结构等进行了表征。结果表明，脱硫剂的粒径对脱硫效果的影响很大，0.38～0.83 mm的石灰石脱硫效果最佳；温度对脱硫效果的影响比较复杂，最佳的操作温度为850℃；气速对脱硫效果的影响较明显，脱硫剂的穿透时间随气速的减小而加长；H₂对脱硫过程起阻碍作用，气速越小，这种阻碍作用越明显。     

双循环多级水幕吸收塔烟气除尘脱硫性能研究

以改进后的双循环多级水幕塔对烟气进行除尘脱硫性能的研究，利用双循环不同pH值控制的优点和多级水幕的效果，增加气液接触面积和传质动力，提高SO₂吸收效果。在正交实验的最佳运行工况基础上，实验从烟气流量、上下两段pH、L/G和SO₂进气浓度等方面进行单因素研究。结果表明，除尘效率维持在98%以上，进气SO₂浓度在5 000 mg/m³以下时，脱硫率在93%以上。上段pH值为6、下段pH值为5、L/G在15左右的脱硫效率和运行工况最佳，无结垢现象发生。改进后的吸收塔具有良好的应用前景，实验结果对于现场脱硫设备的调试和运行有很好的参考价值。     

Effect of Diffusiophoresis and Thermophoresis on the Overall Particle Collection Efficiency of Spray Droplet Scrubbers

The overall particle collection efficiencies of spray scrubbers using monodisperse droplets of 100,500, and 1000 microns diameter were calculated for the cases of evaporating and condensing droplets. The properties of the gas at the inlet to the spray scrubber were maintained constant at 150°F, 100% relative humidity, and 1 atmosphere pressure. At the liquid entrance to the spray scrubber, the water droplet temperature was 50° F for the condensing case and 180° F for the evaporating case. The liquid to gas flow rate ratio for all the calculations was held constant at 4 gal/1000 acf. The gas velocity in the co-current spray tower was 1 ft/sec in the downwind direction. The calculation results show that for the particles in the 0.01 to 10 Mm diameter range, the overall spray scrubber particle collection efficiency is greater with the cooler 50°F water (condensing case) than with the warmer 180°F water (evaporating case). The effect of diffusiophoresis and thermophoresis is noticeable for all the water droplet sizes considered, but is more significant for the larger water droplets. This greater effect for the larger water droplets compared to the smaller droplets is due to the longer existence of the temperature and water vapor concentration gradients between the water droplets and the surrounding gas.     

Technical Description of Parameters Influencing the pH Value of Suspension Absorbent Used in Flue Gas Desulfurization Systems

Abstract

As a result of the large limestone deposits available in Poland, the low cost of reagent acquisition for the large-scale technological use and relatively well-documented processes of flue gas desulfurization (FGD) technologies based on limestone sorbent slurry, wet scrubbing desulfurization is a method of choice in Poland for flue gas treatment in energy production facilities, including power plants and industrial systems. The efficiency of FGD using the above method depends on several technological and kinetic parameters, particularly on the pH value of the sorbent (i.e., ground limestone suspended in water). Consequently, many studies in Poland and abroad address the impact of various parameters on the pH value of the sorbent suspension, such as the average diameter of sorbent particles (related to the limestone pulverization degree), sorbent quality (in terms of pure calcium carbonate [CaCO₃] content of the sorbent material), stoichiometric surfeit of CaCO₃ in relation to sulfur dioxide (SO₂) absorbed from flue gas circulating in the absorption node, time of absorption slurry retention in the absorber tank, chlorine ion concentration in sorbent slurry, and concentration of dissolved metal salts (Na, K, Mg, Fe, Al, and others). This study discusses the results of laboratory-scale tests conducted to establish the effect of the above parameters on the pH value of limestone slurry circulating in the SO₂ absorption node. On the basis of the test results, a correlation equation was postulated to help maintain the desirable pH value at the design phase of the wet FGD process. The postulated equation displays good coincidence between calculated pH values and those obtained using laboratory measurements.