Process and Energy Optimisation - A Case Study of UB FGR fan at Captive Power Plant of NRL

Petroleum and Chemical Industry International Pub Date : 2019-09-17 DOI:10.33140/pcii.02.04.02

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Abstract

The old saying “Excellence is the gradual result of always striving to do better……. The noblest search is the search for excellence.” – An integrated approach to achieve continuous improvement and reach towards excellence in Utility Boiler Operation. This paper highlights the case study carried out regarding the successful trial run of the Flue Gas Recirculation of the Utility Boiler of Co-generation plant of the Numaligarh Refinery Limited, Golaghat, Assam. This fan could not be put into service since commissioning of the boiler. Once it is successfully taken into service, many positive outcomes are noticed and resulted in the process and energy optimization in the operation of the utility boiler. In Numaligarh Refinery Limited (NRL), Co-generation plant (CGP), Utility Boiler (UB) is used to produce High pressure super-heated steam. One of the accessories named Flue Gas Recirculation (FGR) could not be put into service due to certain problems. FGR is a combustion modification process. As the name implies, a portion of the combustion products exiting the boiler are recirculated and introduced into the primary combustion zone. In UB, there are two nos. of FGR fans. But they could not put into service for a long time since commissioning. After a series of studies and experiments, the problems or factors were identified viz. Selection of correct UB load at which the fan should be started, dampers adjustment, burner flame stability, etc. After identification and trouble shooting of these problems, the FGR fans could be run successfully and put into continuous service. Following advantages were achieved in UB after the service of the FGR fans  Increases steaming rate of the U  Saves Energy (Fuel optimization)  Reduced harmful NOx gas Emissions  Increased in flue gas back end temperature  Lowers Greenhouse gas CO2 emission as the amount of fossil fuel is reduced Thus the above case study helped one of the important UB accessories to successfully put into service leading to various benefits, flexibility and process optimization in the operation of the UB.

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过程与能量优化——以北卡罗来纳实验室自备电厂UB FGR风机为例

俗话说:“卓越是不断努力做得更好的逐渐结果.......。最高尚的追求是追求卓越。-综合方法，实现持续改进，并达到卓越的公用事业锅炉运行。本文重点介绍了对阿萨姆邦戈拉加特努马利加尔炼油厂有限公司热电联产厂公用锅炉烟气再循环成功试运行的案例研究。自锅炉调试以来，这台风机一直不能投入使用。一旦成功投入使用，就会注意到许多积极的结果，并导致在公用锅炉运行中的过程和能源优化。在Numaligarh炼油厂有限公司(NRL)，热电联产厂(CGP)，公用事业锅炉(UB)用于生产高压过热蒸汽。其中烟气再循环系统(FGR)由于某些问题不能投入使用。FGR是一种燃烧改性过程。顾名思义，一部分离开锅炉的燃烧产物被再循环并引入一次燃烧区。在UB，有两个。FGR粉丝。但自调试以来，长期未能投入使用。经过一系列的研究和实验，确定了问题或因素，即风机启动时UB负荷的正确选择，阻尼器的调整，燃烧器火焰稳定性等。通过对这些问题的识别和排除，使FGR风机能够顺利运行并投入连续使用。FGR风机投入使用后，UB取得了以下优势—提高U的蒸汽率—节省能源(燃料优化)—减少有害氮氧化物排放—提高烟气后端温度—减少温室气体CO2排放，因为化石燃料的数量减少了。因此，上述案例研究帮助UB重要配件之一成功投入使用，从而实现了UB运行中的各种效益，灵活性和流程优化。

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Petroleum and Chemical Industry International

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