Operational Efficiency Improvements Resulting From Monitoring and Trim of Industrial Combustion Systems

Jim Oakes; Damian Bratcher

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Operational Efficiency Improvements Resulting From Monitoring and Trim of Industrial Combustion Systems

机译：对工业燃烧系统进行监控和修整可提高运营效率

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Combustion is the exothermic chemical reaction (a reaction inrnwhich heat is given off) of hydrogen and carbon atoms containedrnin fuels with oxygen. Excess O_2 makes heating inefficient, thusrnrequiring more gas for the same results. In addition, excess airrnalso allows for the formation of pollutants such as Nitrous Oxidern(NO) and Nitrogen Dioxide (NO_2).rnIt is estimated that precise control of air to fuel ratio will yield 5 torn25% or more savings in heat generation. The air gas ratio can berndetermined by analyzing the flue gas and the mixture forrncombustion can be altered to produce the most clean and efficientrnheat for the process.rnPeriodic checking and resetting of air-fuel ratios is one of thernsimplest ways to get maximum efficiency out of fuel-fired processrnheating equipment. In heat treatment facilities, the customerrnwould find potential efficiency improvements on generators,rnradiant tubes, furnaces, ovens, heaters, and boilers.

机译：燃烧是燃料中所含的氢和碳原子与氧气一起的放热化学反应（放出热量的反应）。过量的O_2会使加热效率低下，因此需要更多的气体才能获得相同的结果。此外，过量的空气还会导致形成诸如二氧化二氮（NO）和二氧化氮（NO_2）之类的污染物。据估计，精确控制空燃比将产生5至25％的热量或更多的能源节省。可以通过分析烟气来确定空燃比，并可以改变混合燃烧以产生最清洁，最有效的热量。定期检查和重置空燃比是从燃料中获得最大效率的最简单方法之一燃烧的过程加热设备。在热处理设施中，客户将发现发电机，辐射管，熔炉，烤箱，加热器和锅炉的潜在效率提高。

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《Light Metals》 |2011年第2011期|p.1189-1191|共3页
作者
Jim Oakes; Damian Bratcher;
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TMS (The Minerals, Metals & Materials Society), 184 Thorn Hill Rd., Warrendale, PA 15086, USArnSuper Systems Inc., 7205 Edington Drive, Cincinnati, OH 45249;

rnTMS (The Minerals, Metals & Materials Society), 184 Thorn Hill Rd., Warrendale, PA 15086, USArnSuper Systems Inc., 7205 Edington Drive, Cincinnati, OH 45249;

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1. Operational Efficiency Improvements of Industrial Combustion Systems [J] . Damia Bratcher Industrial Heating . 2009,第10期

机译：工业燃烧系统运行效率的提高
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机译：橄榄树修剪颗粒燃烧在工业锅炉的向日葵壳颗粒。监测排放和燃烧效率
4. Operational Efficiency Improvements Resulting from Monitoring and Trim of Industrial Combustion Systems [C] . Damian Bratcher Heat treating 2011 . 2011

机译：工业燃烧系统的监控和改进可提高运营效率
5. Combustion efficiency from industrial flares with uncertainty quantification. [D] . Jatale, Anchal. 2014

机译：工业火炬的燃烧效率具有不确定性量化。
6. The Reflux Improvement and Monitoring (TRIM) Program Is Associated with Symptom Improvement and Weight Reduction for Obese Patients with Gastroesophageal Reflux Disease [O] . Rena Yadlapati, John E Pandolfino, Olga Alexeeva, -1

机译：肥胖患者胃食管反流病的反流改善和监测（TRIM）程序与症状改善和体重减轻相关
7. Technical and Other Considerations for the Selection of Inlet Air Filtration Systems for High-Efficiency Industrial Combustion Turbines [O] . Cecil H. Goulding, Myron G. Rasmussen, Frederick M. Fritz 1990

机译：用于选择入口空气过滤系统的技术和其他考虑因素，用于高效工业燃烧涡轮机
8. Energy Conservation in Industrial Operations - Method and Economics of Improved Combustion Efficiencies. Topical Report. Combustion-Control Systems for Process Heaters and Boilers [R] . Varma, A. C., Prengle, H. W. 1979

机译：工业运营中的节能 - 提高燃烧效率的方法和经济学。专题报道。过程加热器和锅炉的燃烧控制系统

Operational Efficiency Improvements Resulting From Monitoring and Trim of Industrial Combustion Systems

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