Optimization process parameters for in-situ synthesis of ammonia by catalytic hydrolysis of urea with fly ash in a batch reactor for safe feedstock in power plants

J.N.SAHU; P.GANGADHARAN; B.C.MEIKAP

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Optimization process parameters for in-situ synthesis of ammonia by catalytic hydrolysis of urea with fly ash in a batch reactor for safe feedstock in power plants

机译：电厂安全原料间歇反应器中尿素与粉煤灰催化水解原位合成氨的优化工艺参数

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In this study, catalytic urea hydrolysis for production of ammonia in presence of fly ash, at optimum condition, was investigated in a batch reactor. The single and combined effects of operating parameters such as initial feed concentrations, temperature, fly ash doses, times and stirring speed on the production of ammonia from urea were analyzed using response surface methodology. A 25 full factorial central composite experimental design was employed. Analysis of variance (ANOVA) showed a high coefficient of determination value (R~2 = 0.963) and satisfactory prediction second order regression model was derived. The optimum production conditions were determined as initial feed concentration 19.9 wt.% of urea, temperature 175℃, fly ash dose 7.5g/L, reaction time 25 min and stirring speed 769 rpm. At optimum conversion conditions, the conversion of urea for production of ammonia was found to be 99.8 %.

机译：在这项研究中，在间歇反应器中研究了在最佳条件下在粉煤灰存在下催化尿素水解生产氨的方法。使用响应面方法分析了操作参数（如初始进料浓度，温度，粉煤灰剂量，时间和搅拌速度）对尿素生产氨的单一和综合影响。采用了25个全因子中央复合实验设计。方差分析（ANOVA）显示出较高的测定值系数（R〜2 = 0.963），并得出了令人满意的预测二阶回归模型。确定最佳生产条件为：尿素初始进料浓度19.9 wt。％，温度175℃，粉煤灰剂量7.5g / L，反应时间25 min，搅拌速度769 rpm。在最佳转化条件下，发现用于生产氨的尿素转化率为99.8％。

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来源
《Journal of Environmental Science and Health》 |2011年第8期|p.874-886|共13页
作者
J.N.SAHU; P.GANGADHARAN; B.C.MEIKAP;
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作者单位

Department of Chemical Engineering, Indian Institute of Technology (IIT), Kharagpur, West Bengal, India,Department of Chemical Engineering, Faculty of Engineering, University of Malaya, Kuala Lumpur, Malaysia;

Department of Chemical Engineering, Indian Institute of Technology (IIT), Kharagpur, West Bengal, India;

Department of Chemical Engineering, Indian Institute of Technology (IIT), Kharagpur, West Bengal, India,School of Chemical Engineering, University of Kwazulu-Natal, Howard College Campus, Durban, South Africa;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类
关键词
ammonia; hydrolysis of urea; optimization; response surface method; no_x reduction; flue gas conditioning;

机译：氨;尿素水解;优化;响应面法no_x减少;烟气调节;

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1. Optimization for the Production of Ammonia from Urea in a Semi-batch Reactor for Safe Feedstock in Power Plants: Experimental and Statistical Studies [J] . Jaya N. Sahu, Bhim C. Meikap, Anand V. Patwardhan Clean . 2010,第5a6期

机译：半间歇式反应器中用于电厂安全原料的尿素氨生产的优化：实验和统计研究
2. In situ synthesis of ammonia by catalytic hydrolysis of urea in the presence of aluminium oxide for safe use of ammonia in power plants for flue gas conditioning [J] . Gangadharan P., Sahu J.N., Meikap B.C. Journal of Chemical Technology & Biotechnology . 2011,第10期

机译：在氧化铝存在下通过尿素催化水解原位合成氨，以安全地将氨用于发电厂的烟气调节
3. Kinetic studies on hydrolysis of urea in a semi-batch reactor at atmospheric pressure for safe use of ammonia in a power plant for flue gas conditioning [J] . K. Mahalik, J.N. Sahu, Anand V. Patwardhan, Journal of Hazardous Materials . 2010,第1a3期

机译：半间歇式反应器中常压下尿素水解的动力学研究，以确保电厂安全使用氨气进行烟道气调节
4. In-situ Synthesis of Ammonia by Hydrolysis of Urea for Safe Feedstock in Power Plants in Use of Flue Gas Conditioning and NOx Reduction [C] . J.N.SAHU, N.S.JAYAKUMAR, B.C.MEIKAP International symposium on progress in safety science and technology;2010 ISSST . 2010

机译：烟气调节和NOx还原利用尿素水解原位合成氨作为电厂安全原料
5. Synthesis and Performance of TiO2/Fly Ash Cenospheres as a Catalytic Film in a Novel Type of Periodic Air-Sparged Photocatalytic Reactor [O] . Witold Żukowski, Przemysław Migas, Dariusz Bradło, 2020

机译：新型周期性鼓泡光催化反应器中TiO2 /粉煤灰微球的合成及其催化膜性能
6. Release of ammonia from conventional power plant fly ash after the introduction of SNCR process [O] . D Beranová, T Opravil, P Ptáček, 2018

机译：SNCR工艺引入后，从传统的电厂粉煤灰释放氨
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机译：反应堆安全研究：美国商业核电厂事故风险评估。附录七。反应堆事故中放射性的释放。附录八。反应堆熔毁事故中的物理过程。附录九。核电厂安全设计理念。附录X.设计充分性。

Optimization process parameters for in-situ synthesis of ammonia by catalytic hydrolysis of urea with fly ash in a batch reactor for safe feedstock in power plants

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