| 亚氯酸钠溶液烟气脱硝与烟气余热回收的一体化试验 |
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| 引用本文: | 王静贻,高庆有,徐熙,赵玺灵,付林. 亚氯酸钠溶液烟气脱硝与烟气余热回收的一体化试验[J]. 环境科学研究, 2017, 30(11): 1754-1760. DOI: 10.13198/j.issn.1001-6929.2017.02.98 |
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| 作者姓名: | 王静贻 高庆有 徐熙 赵玺灵 付林 |
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| 作者单位: | 1.清华大学建筑技术科学系, 北京 100084 |
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| 基金项目: | 自然科学基金委创新群体基金项目(51521005) |
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| 摘 要: | 锅炉烟气中的NOx是大气污染的重要原因之一.针对燃气锅炉NOx超低排放的要求以及烟气中大量余热被浪费的现状,提出了烟气脱硝与余热回收一体化的新方法,通过搭建一体化试验台,分析在烟气余热回收的条件下,c[NaClO2(亚氯酸钠)]、液气比、喷淋水温度等因素对脱硝效率以及烟气余热回收效率的影响.烟气脱硝与余热回收一体化的新方法主要体现在逆流式烟气喷淋塔中,可利用NaClO2溶液对低φ(NOx)的烟气脱硝并同时回收烟气余热.试验结果表明,c(NaClO2)越高、pH越低、液气比越大,NaClO2溶液脱硝率越高.当c(NaClO2)为0.020 0 mol/L、喷淋水温度在30~80℃之间变化时,存在最优的喷淋水温度64℃,使脱硝率最高为36%.同时,液气比及喷淋水温度对余热回收效果影响显著,液气比越大、喷淋水温度越低,余热回收效果越好.试验结果还显示了当烟气温度为83℃、喷淋水温度为48℃、c(NaClO2)为0.015 0~0.020 0 mol/L、液气比为13.8 L/m3时,烟气脱硝效率约为40%,同时回收了26.4 kW的烟气余热.研究显示,在逆流式烟气喷淋塔中,利用NaClO2溶液进行烟气脱硝并同时回收烟气余热的一体化方法是可行的,可应用于工程实践.
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| 关 键 词: | 天然气 烟气 余热回收 亚氯酸钠 氧化 脱硝 |
| 收稿时间: | 2017-02-07 |
| 修稿时间: | 2017-07-04 |
Removal of NOx form Flue Gas by Integration NaClO2 Solution and Surplus Heat Recovery |
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| WANG Jingyi,GAO Qingyou,XU Xi,ZHAO Xiling and FU Lin. Removal of NOx form Flue Gas by Integration NaClO2 Solution and Surplus Heat Recovery[J]. Research of Environmental Sciences, 2017, 30(11): 1754-1760. DOI: 10.13198/j.issn.1001-6929.2017.02.98 |
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| Authors: | WANG Jingyi GAO Qingyou XU Xi ZHAO Xiling FU Lin |
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| Affiliation: | 1.Department of Building Technology and Science, Tsinghua University, Beijing 100084, China2.Beijing Huayuantaimeng Energy-Saving Equipment Co., Ltd., Beijing 100083, China |
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| Abstract: | NOx from flue gas is a major source of air pollution. Challenges are posed because of the strict NOx emission standard implemented recently in China and the fact that tremendous heat is wasted in flue gas. We proposed a new method to integrate the removal of NOx with NaClO2 solution and recovery of the flue gas surplus heat in a counter-flow spray tower. The integrated experimental system and conducted experiments were set up to study the influence of various factors on de-NOx efficiency, including c(NaClO2), L/G, spraying water temperature, etc. A higher de-NOx efficiency could be achieved with higher c(NaClO2), lower pH and larger L/G. When c(NaClO2) was 0.0200 mol/L and spraying water temperature varied from 30-80℃, there existed an optimal spraying water temperature, 64℃, resulting in a corresponding highest de-NOx efficiency of 36%. Meanwhile, L/G and spraying water temperature had significant effects on the heat recovery efficiency. The results indicated that the heat recovery performance could be improved with higher L/G and lower spraying water temperature. The experimental results showed that the de-NOx efficiency reached 40% and 26.4 kW surplus heat was recovered, under the conditions that c(NaClO2) was 0.0150-0.0200 mol/L, liquid to gas ratio (abbr. L/G) was 13.8 m3/L, gas temperature was 83℃ and the spraying water temperature was 48℃. The results indicated that the removal of NOx by integrating NaClO2 solution and surplus heat recovery of flue-gas is feasible. |
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| Keywords: | natural gas flue gas surplus heat recovery NaClO2 oxidation de-NOx |
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