Your search keyword '"Air preheater"' showing total 479 results

1. Flexibility-Oriented Safety Assessment Strategy for Air Preheater in Thermal Power Units Adapting to the Advanced Power System

Author

Zhimin WANG, Qian HUANG, Guanqing LIU, Yong ZHOU, Nan ZHANG, Cheng LI, and Shuiqing LI

Subjects

thermal power, flexibility, air preheater, blockage, condition assessment, Energy industries. Energy policy. Fuel trade, HD9502-9502.5

Abstract

[Introduction] The realization of "dual carbon" goals in the construction of a new power system necessitates the transformation of existing thermal power plants to accommodate peak load operations. The safety of thermal power units during flexible operation is a critical element for enhancing the overall stability of the power system. Air preheater is the key auxiliary equipment that affects the wide-load operation capacity of thermal power units. This paper addresses the challenges associated with flue gas temperature fluctuations and blockage and corrosion induced by excessive ammonia injection. It is very important to develop a real-time assessment and safety status monitoring model for dust and blockage of rotary air preheaters. [Method] Based on the big data of wide-load operation monitoring of 600 MW and 350 MW units in central China, the paper developed a model for air preheater blockage assessment based on approximation of the resistance coefficients in the case of various time scales. Furthermore, the flue gas temperature at the outlet of the air preheater and the cold end working temperature were used as monitoring indicators to count the proportion of parameters exceeding the limit in multiple load sections of the unit. [Result] The results show that, at a peak regulation load of 39%, there is approximately a 20% probability of temperature exceedance. In addition, the independent calculation of the blockage risk based on the two indicators may result in a certain degree of underestimation of its degradation rate compared to the calculation based on a joint distribution. Besides, with the verification of data from the two units, the method can quantify the short-term (within the soot-blowing cycle) and mid-and-long term evolution of the air preheater blockage. [Conclusion] This assessment strategy applies to other equipment and systems in thermal power plants, such as SCR denitrification systems and coal mills, providing a quantitative assessment of safety risks during peak load operation. It guides thermal power units to efficiently and stably cooperate with the new power system in dispatching.

Published

2024

2. Research on Predictive Maintenance Mode of Air Preheater Based on Digital Twin

Author

LIU Wang, CHEN Lian, GONG Gaoyang, LI Zhihua, XUE Wenhua, SHI Jingang, XIE Jun, LI Leilei, YAO Rongcai, WANG Zhaopeng, YANG Yanxi, DENG Yi, and ZHANG Chenhui

Subjects

thermal power unit, preventive maintenance, predictive maintenance, digital twin, air preheater, Applications of electric power, TK4001-4102, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Science

Abstract

ObjectivesIn order to solve the shortcomings of the traditional preventive maintenance method of air preheater in large thermal power unit, a general mode of predictive maintenance based on digital twin was proposed, and the digital twin system of air preheater was constructed based on digital twin technology.MethodsThe proposed system included physical entity of rotary air preheater, real-time data acquisition and analysis module, digital twin model construction module, thermal parameter state monitoring, rotor thermal field video and thermal deformation visualization and ash accumulation prediction module. By the real-time acquisition of temperature parameter state and video data, and through the temperature field, video image, air leakage calculation and other modules, the calculation of thermal parameters and the prediction of ash accumulation were realized. At the same time, the 3D configuration screen was used to display data in real time, continuously optimize the accuracy of thermal parameter calculation and ash accumulation prediction, and realize the automatic optimization of soot-blowing strategy.ResultsThe proposed scheme realizes the state monitoring and dynamic control of the thermal calculation process of the air preheater, and solves the problem that the ash accumulation factor of the rotary air preheater in the existing power station affects the safe and reliable operation of the thermal power unit.ConclusionsThrough engineering testing of actual units, the proposed scheme effectively improves the operation and maintenance efficiency of the air preheater of thermal power units, verifies the feasibility of the proposed method, and provides technical support for the development of smart power plant systems in future.

Published

2024

3. 基于数字孪生的空气预热器预测性维护模式研究.

Author

刘旺, 陈连, 龚高阳, 李智华, 薛文华, 石金刚, 谢军, 李雷雷, 姚荣财, 王召鹏, 杨延西, 邓毅, and 张晨辉

Subjects

AIR heaters, DIGITAL twins, ACQUISITION of data, DIGITAL technology, PROBLEM solving

Abstract

Copyright of Power Generation Technology is the property of Power Generation Technology Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

4. Summary of the first industrial application of ceramic regenerative air preheater in heating furnace.

Author

Tang Shigui and Su Fuhui

Subjects

FURNACES, AIR heaters, CERAMICS, GAS furnaces, THERMAL efficiency, HEAT recovery, HEAT pipes, HEATING

Abstract

This article introduces the upgrading and renovation of the waste heat recovery system of the No. 1 jet fuel hydrogenation unit of SINOPEC Hainan Refining & Chemical Co., Ltd. The renovation plan is as follows: By recalculating the thermal efficiency and load of the heating furnace, the original heat pipe preheater is planned to be optimized into a new ceramic regenerative air preheater. The specific renovation content is as follows: Remove the heat pipe preheater originally installed on the top of the heating furnace, and add four sets of ceramic regenerative air preheater modules on the side ground of the reaction feed heating furnace ; Reuse the original induced draft fan as a cold flue gas induced draft fan; Add a blower and smoke and air duct. The results show that after the implementation of the modification, the exhaust gas temperature of the heating furnace can be reduced to below 70 °C, the thermal efficiency of the heating furnace can be increased to over 95%, the exhaust gas temperature can be flexibly adjusted, and the fuel gas consumption of the heating furnace can be reduced by about 10%. The system has good anti-corrosion performance and is stable and reliable during long-term operation of the unit. [ABSTRACT FROM AUTHOR]

Published

2024

5. Pressure Difference Prediction of Air Preheater in Coal-Fired Power Plant Based on BP Neural Network and Support Vector Regression

Author

SU Jingcheng, WANG Zhiqiang, QU Jiangjiang, and ZHANG Kai

Subjects

thermal power generation, air preheater, bp neural network, support vector regression (svr), particle swarm optimization (pso), Applications of electric power, TK4001-4102, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Science

Abstract

The high pressure difference between the inlet and outlet of the air preheater in coal-fired power plants has always been a problem that plagues the operation of the power plant. If the pressure difference of the air preheater can be predicted in advance and adjusted in time, it will be beneficial to the safe operation of the power plant. Based on the distributed control system (DCS) big data of a 660 MW coal-fired boiler, the BP neural network and support vector regression (SVR) methods were used to model the pressure difference between the inlet and outlet of air preheater in the power plant.Comparing the prediction results of the two models, it is found that the BP neural network model is more suitable for the prediction of the pressure difference between the inlet and outlet of the air preheater under the background of big data. Aiming at the inherent shortcomings of BP neural network model such as local optimization and slow convergence speed, the particle swarm optimization (PSO) was used to improve it, and a PSO-BP neural network model was proposed. The results show that the PSO-BP neural network model has the best comprehensive performance, the highest accuracy in predicting the change in the pressure difference between the inlet and outlet of the air preheater, and the strongest generalization ability.

Published

2023

6. Ekonomizer, yoğuşmalı ekonomizer ve hava ön ısıtıcı tasarımları ile atık ısı geri kazanımının enerji ve ekonomik değerlendirilmesi.

Author

Terhan, Meryem, Özağdaş, Emre, and Omar, Muhammed Arslan

Subjects

*INCINERATION, *HEAT losses, *FLUE gases, *HEAT of combustion, *SPACE heaters, *HEAT recovery, *HEATING from central stations, *WASTE heat, *ENERGY conservation in buildings

Abstract

In this study, the waste heat loss of flue gases from the boilers of Kafkas University district heating system has been calculated between 6-8% according to the combustion analysis and the annual cost of this heat loss has been found as $58,658.79. In terms of energy efficiency and the national economy, we think that this lost energy should be recovered as much as possible and fuel and energy savings should be achieved. In the paper, the effects of variants such as air excess coefficient, flue gas temperature, boiler capacity and fuel consumption on the heat recovery from flue gas have been presented in detail. The heat recovery scenarios have been presented for reusing this waste energy for space heating, domestic hot water, and preheating combustion air and the applicability of these scenarios has been investigated in terms of thermodynamics and economics. According to the results of the study, in the second scenario examined to cover the domestic hot water need of the guest house building, the energy savings of the scenario can be provided during 20 years of economic life is $122,820.83, and it has the highest savings income among the scenarios. In addition, it is possible to recover approximately 50% of the flue gas loss with thanks to the scenario. On the other hand, the third scenario of heating the boiler combustion air with waste heat is the easiest and most economical scenario because its payback period is only one year, and there are no extra excavation and pipe costs. [ABSTRACT FROM AUTHOR]

Published

2023

7. 基于BP神经网络和支持向量回归的燃煤电厂 空气预热器压差预测.

Author

苏靖程, 王志强, 屈江江, and 张凯

Abstract

Copyright of Power Generation Technology is the property of Power Generation Technology Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

8. Numerical investigation on thermal-hydraulic performance of air preheater equipped with helical inserts.

Author

Kumar, Ashwani, Zainith, Prabhakar, Sharma, Anshul, and Mishra, Niraj Kumar

Abstract

In the present work, a numerical study has been done for the air preheater equipped with different types of helical inserts inside the tubes with segmental baffles in shell. The simulations have been carried out to analyse the heat transfer rate in terms of heat transfer coefficient and friction factor with ANSYS 18.0. The air preheater is divided into two sections shell side and tube side, which contains ambient air and flue gases respectively. The air preheater consists of 34 tubes with a length of 3 m. In the present study, three different types of inserts are investigated with a pitch to diameter ratio (p/d) of 2, 1.7 and 1.4, and the number of turns of 100, 87 and 73, respectively. The insert under study is helical shaped with circular cross-section of diameter 20 mm. Four different values of Reynolds number are used in the range of 4000–24,000. The effects of pressure drop, heat transfer coefficient on different pitch to diameter ratio (p/d) 2, 1.7 and 1.4 of inserts and on the plain tube are discussed in this present work. The results of an air preheater with inserts in tubes get higher value of heat transfer coefficient as compared to the plain tubes. The thermal performance factor of air preheater with inserts of (p/d = 1.4) shows higher factor of 2.31 as compared to the plain tubes at low Reynolds number. [ABSTRACT FROM AUTHOR]

Published

2023

9. 制氢转化炉满负荷瓶颈分析与对策.

Author

王彦龙

Subjects

AIR heaters, HYDROGEN production, PRESSURE drop (Fluid dynamics), AIR ducts, CAST-iron, HEAT pipes, DAM failures, DAMS

Abstract

Copyright of Petroleum Refinery Engineering is the property of Petroleum Refinery Engineering Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

10. Robust design of a novel regenerative heat exchanger with high porosity ceramic matrix to waste heat recovery of flue gas.

Author

Ataeiyan, Behnam, Kouravand, Shahriar, and Chegini, Gholamreza

Subjects

*HEAT recovery, *FLUE gases, *HEAT exchangers, *POROSITY, *MATRIX effect, *AIR heaters, *FOAM

Abstract

A novel regenerative heat exchanger was designed and fabricated for heat recovery of dryer flue gases with a high porosity matrix core that was made of alumina foams. The effects of matrix height, matrix linear speed, and flow rate on thermal effectiveness were investigated based on an L25 Taguchi model. Results show that the matrix height and flow rate are inversely related and the matrix speed is directly related to the thermal effectiveness. Finally, the highest thermal effectiveness, thermal improvement of the dryer, air preheating rate, and the number of transfer units were 31.75%, 27.13%, 186.42%, and 0.4652, respectively. [ABSTRACT FROM AUTHOR]

Published

2023

11. Effect analysis on the low-temperature preheating performance of a novel micro-combustor air preheater for the cold start of the Li-ion battery packs.

Author

Li, Jintao, E, Jiaqiang, Ding, Jiangjun, Cai, Lei, and Luo, Bo

Subjects

*AIR heaters, *LITHIUM-ion batteries, *ATMOSPHERIC temperature, *HIGH temperatures, *VELOCITY, *BAFFLES (Mechanical device), *FINS (Engineering)

Abstract

In this work, a micro-combustor (MC) air preheater as the heat source is developed. This novel air preheater has a compact size and outputs hot air with a wide range of temperatures with high temperature uniformity, which can well meet the preheating needs of Li-ion batteries in cold environments. Numerical studies are carried out to investigate the effects of baffle height, number of fins N fin , hot air inlet velocity, cold air inlet velocity and combustor inlet velocity on the performance of the air preheater. The heating power of the air preheater can be adjusted by changing combustor inlet velocity V combustor , the outlet temperature can be easily adjusted by changing cold air inlet velocity V cold and hot air inlet velocity V hot , and the addition of baffles makes the outlet temperature very uniform. The results show that the height of the baffle of 20 mm and 30 mm makes Δ T air not exceed 1.5 K. The air preheater performance is better with fin number 6, and the maximum air temperature of 309.8 K is obtained with fin number and V hot of 6 and 0.3 m/s respectively. T air can vary between 287.8 K and 309.8 K when V combustor = 12 m/s. • A micro-combustor air preheater for the cold start of Li-ion battery packs is developed. • Effects of different factors on the low-temperature preheating performance is investigated. • Optimized parameters of the micro-combustor air preheater are obtained. [ABSTRACT FROM AUTHOR]

Published

2024

12. Efficient standalone micro thermoelectric generator powered by low noise premixed combustion.

Author

Li, Guoneng, Li, Qiangsheng, Wang, Shifeng, Jiang, Pengtao, Zhao, Dan, Guo, Wenwen, and Tang, Yuanjun

Subjects

*SOUND pressure, *ELECTRIC power, *AIR heaters, *ENERGY conversion, *THERMOELECTRIC power

Abstract

The distributed backup power source is vitally important under emergency conditions. Micro combustion powered thermoelectric generator (μ-CPTEG) is a promising candidate as a distributed backup power source. This study innovatively designed an all-in-one configuration to develop an efficient, standalone, and silent μ-CPTEG. The newly proposed all-in-one configuration organically integrates air-preheating, fuel premixing, low-noise combustion, efficient heat collection, and smooth heat compensation and spreading. Such an all-in-one configuration creates a standalone μ-CPTEG with an overall efficiency greater than 4.2 %, which is much larger than those in previous standalone μ-CPTEGs. The present μ-CPTEG incorporates 8 TE modules, and generates an electric power of 53.2 W with a running sound pressure level of 48 dB. Such performance indicates that the average electric power per TE module reaches 6.65 W, corresponding to a TE potential release level of 80.7 % systematically. The overall efficiency, as well as the efficiency of heat recovery, combustion, heat collection, TE and combined heat and power, are explored in detail. Comprehensive discussions are conducted to uncover the dense fog of releasing the TE potential at a systematic level in an μ-CPTEG. The present study provides a concrete method to develop a powerful, standalone, and silent μ-CPTEG. • Powerful, standalone, and silent μ-CPTEG is developed by a new technical framework. • An electric power of 53.2 W with an overall efficiency of 4.2 % is generated. • The running sound pressure level is 48 dB. • The performance is much better than previous standalone μ-CPTEGs. • The energy conversion density of propane by the μ-CPTEG reaches 271 Wh/kg. [ABSTRACT FROM AUTHOR]

Published

2024

13. Online Method for Measuring the Air Preheater Leakage Rate of Metallurgical Gas Boiler

Author

Ye, Yalan, Wang, Hongming, An, Xiang, Jiang, Wenhao, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Jain, Vipul, editor, Patnaik, Srikanta, editor, Popențiu Vlădicescu, Florin, editor, and Sethi, Ishwar K., editor

Published

2020

14. Energy Efficiency Optimization in Polyisoprene Footwear Production.

Author

Mihelić-Bogdanić, Alka and Špelić, Ivana

Abstract

The evaluation of energy efficiency improvements in polyisoprene footwear production is shown. By installing air preheater, combustion air natural gas consumption is reduced by 7%. Simultaneously, the boiler outlet flue gases' temperature is decreased from 204 °C to 66.93 °C, providing a sound basis for both economical savings and energy efficiency improvements, as well as ecological benefits to the environment. The application of condensate heat recovery resulted in flue gases' volume decreasing by 11.85% and a thermal pollution decrease of 91.34%. Combining air preheating by exhaust flue gases and condensate heat recovery resulted in a decrease in the flue gases' volume by 17.97%, and in the temperature lowering to 66.93 °C. The energy consumption for a combined system on location φ = 45 ° 49 ′ ) with a collector field of 12.936   ×   10 3   m 2 was investigated. The hybrid system was calculated for four variants: (1) solarized process without flue gases' heat recovery, (2) solarized processes with heat contend in flue gases using an air preheater, (3) solarized processes with condensate heat recovery, and (4) solarized processes with heat contend in flue gases using air preheater and condensate heat recovery. The highest fuel savings were shown in solarized processes with heat contend in flue gases using air preheater and condensate heat recovery, resulting in savings of up to 78.92%, while the flue gases' volume decreased from 5390.95   m 3 FG / h to 932.12   m 3 FG / h . [ABSTRACT FROM AUTHOR]

Published

2022

15. PERFORMANCE ENHANCEMENT FOR ROTARY AIR PREHEATER OF A THERMAL POWER PLANT

Author

Sinan Mazin Hazim and Mohammed H. Alhamdo

Subjects

air preheater, modified, gravel media, the bypass tube, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The corrosion phenomenon is considered the main problems for air preheater in thermal power plant. The boiler flue gas contamination leads to decrease the air preheater performance and increases the maintenance cost, which causes the degradation of the cold end heating elements and thus leads to decrease the heat recovery rate. In this study, an experimental investigation was done for the transient thermal behavior and the pressure drop of the standard regenerative air preheater (Pmatrix) model, evaluating the performance factor, then modifying the air preheater (P+CG) model by changing the plates at the cold end last basket to the coarse gravel media. Since the gravel media have low thermal conductivity and predicted to give a high pressure drop, a new technique was done for the modified air preheater to compensate the low heat transfer rates and reduce the pressure drop in the gravel media by inserting bypass tubes at ratios (i and s), Which, the (i) model represents the inner aperture of tubes for the hot baskets facing to the inner aperture of tubes for the cold basket. While (s) model the insertion the tubes of the hot baskets as a staggered distribution with the tubes for the cold basket. The experimental investigation was carried out for the Reynolds number based on the test duct hydraulic diameter at a range of 24500

Published

2020

16. Analysis on comprehensive transformation of heating furnace in residue hydrogenation unit.

Author

Liu Rong

Abstract

The heating furnace of residue hydrogenation unit has the problems, such as high excess oxygen content, large fluctuation of oxygen content in radiation chamber, high concentration of NO% in exhaust gas, high exhaust gas temperature and low thermal efficiency. To solve the above problems, a comprehensive transformation of the hating furnace system is carried out. Adding an advanced process controller, the fluctuation of negative pressure and oxygen content of the heating furnace are significantly reduced, making the operation of the heating furnace more stable. Replacing the low nitrogen burner, the mass concentration of NOx in the discharged flue gas is reduced from 80.43 mg/m³ to 24.66 mg/m³, which is far lower than the national emission standard (100 mg/m³). Upgrading the heat pipe air preheater to a steel pate and cast iron plate combined air preheater, the flue gas temperature in summer is reduced from more than 130 °C to about 115 °C, and the thermal efficiency of the heating furnace increases significantly. After a series of transformation, the operation indexes of the heating furnace of the residue hydrogenation unit have been greatly improved, and the transformation purpose of energy conservation and environmental protection has been achieved. [ABSTRACT FROM AUTHOR]

Published

2021

17. A framework of clustering based on W-EFC with updating strategy for power plant air preheater monitoring.

Author

Gu, Hui, Chen, Pan, Zhu, Hongxia, and Zhang, Kening

Subjects

*AIR heaters, *EPIPHYTES, *POWER plants, *OUTLIER detection, *ROCK glaciers

Abstract

This paper proposes a clustering framework with updating strategy in data stream for working condition classification and monitoring in a power plant air preheater system. A weight factor is added into the basic entropy fuzzy clustering method (EFC) for the statistical characteristics. Moreover, a framework is proposed to deal with data stream with updating block and off-line block. Four real-life data sets from UCI Machine Leaning Repository are adopted to evaluate the effectiveness (outlier detection rate and false alarm rate) of data mining framework with weighted EFC (W-EFC). These experiment results verify that the proposed framework dealing with data stream based on W-EFC has high clustering capacity and decrease noise data influence to a certain extent. Then, a field data set of the air preheater system is obtained for power plant application analysis. The clustering results can represent different working conditions and different working levels during long running time and thus can be taken as guidance for real-time operation monitoring. [ABSTRACT FROM AUTHOR]

Published

2021

18. 基于实测的循环流化床锅炉空气预热器及烟气处理设施对SO3脱除作用的研究.

Author

朱愉洁, 韩元, 张文平, and 沈建军

Abstract

Copyright of Journal of Engineering for Thermal Energy & Power / Reneng Dongli Gongcheng is the property of Journal of Engineering for Thermal Energy & Power and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

19. Energy cost and efficiency analysis of greenhouse heating system enhancement using phase change material: An experimental study.

Author

Yan, Shurong, Fazilati, Mohammad Ali, Toghraie, Davood, Khalili, Mohamad, and Karimipour, Aliakbar

Subjects

*PHASE change materials, *HEATING, *HEAT recovery, *PLATE heat exchangers, *ENERGY consumption, *WASTE heat

Abstract

The growing production of greenhouse gases and fossil fuels price obligated decision-makers in communications to implement energy sources more efficiently. The greenhouses have been developed through the years for the safe production of food sources. Thermal energy devotes a large portion of energy need in greenhouses. In developing countries, the rate of fuel consumption in the greenhouse is high, and there is an urgent need for improving heating systems. Here the possibility of reusing and storing the waste heat by phase change material (PCM) in a sample greenhouse studied experimentally. The PCM heat recovery system (PCM HRS) is a 20 c m × 50 c m × 140 c m plate type heat exchanger where the plates are replaced with PCM plate containers. The charge and discharge of the system are performed in two separate sections. The discharge stage organized in two separate schemes: delivering the stored heat directly inside the greenhouse space and using stored heat to preheat the combustion air of the burner. The heating system analyzed from the viewpoint of energy and the results show that the effect of preheating the heater air gives rise to a 23.7% reduction of gas consumption and the effect is much more pronounced compared to the direct using of the stored heat. Also, the resulted energy saving obtained by using the PCM HRS returns the initial investment within four months. • The application of waste heat recovery and phase change material in a greenhouse studied experimentally. • Two approaches are used to recover the stored waste heat. • Preheating the air heater resulted to 20% higher energy efficiency. • The payback period of retrofitting greenhouse is 4 months. • Retrofitting the greenhouse would be very economical by governmental financial support. [ABSTRACT FROM AUTHOR]

Published

2021

20. Experimental and CFD simulation of performance analysis of steam generators of boilers

Author

Moti Lal Rinawa, R. Jaiprakash Bhamniya, Tikendra Kr. Chandrakar, Ankit, Santhosh Kumar, and Praveen Math

Subjects

business.industry, Nuclear engineering, Thermal, Fluent, Boiler (power generation), Air preheater, Environmental science, Coal, General Medicine, Computational fluid dynamics, business, Flue, Leakage (electronics)

Abstract

In contemporary power plants, poor air temperature is one of the primary causes of rising unit temperatures and deteriorating boiler performance. The primary issue with an air preheater is air leakage on the gas flue side, which results in poor thermal performance. The high ash content of Indian coal exacerbates the issues with air tube heating. Air preheaters re developed to fulfill operational needs while taking into account the most important factors. Heat transmission, leakage, and pressure reduction are all factors to consider. The performance of the air-conditioning heater is being evaluated in this study using the Fluent 14.0 analytical tool from Computational Fluid Dynamics (CFD).

Published

2023

21. PERFORMANCE ENHANCEMENT FOR ROTARY AIR PREHEATER OF A THERMAL POWER PLANT.

Author

Hazim, Sinan Mazin and Alhamdo, Mohammed H.

Subjects

AIR heaters, POWER plants, HEAT transfer, REYNOLDS number, HEAT recovery, STEAM power plants

Abstract

The corrosion phenomenon is considered the main problems for air preheater in thermal power plant. The boiler flue gas contamination leads to decrease the air preheater performance and increases the maintenance cost, which causes the degradation of the cold end heating elements and thus leads to decrease the heat recovery rate. In this study, an experimental investigation was done for the transient thermal behavior and the pressure drop of the standard regenerative air preheater (Pmatrix) model, evaluating the performance factor, then modifying the air preheater (P+CG) model by changing the plates at the cold end last basket to the coarse gravel media. Since the gravel media have low thermal conductivity and predicted to give a high pressure drop, a new technique was done for the modified air preheater to compensate the low heat transfer rates and reduce the pressure drop in the gravel media by inserting bypass tubes at ratios (i and s), Which, the (i) model represents the inner aperture of tubes for the hot baskets facing to the inner aperture of tubes for the cold basket. While (s) model the insertion the tubes of the hot baskets as a staggered distribution with the tubes for the cold basket. The experimental investigation was carried out for the Reynolds number based on the test duct hydraulic diameter at a range of 24500matrix) model. [ABSTRACT FROM AUTHOR]

Published

2020

22. 重整装置分离系统有效能分析.

Author

经铁, 孙欢欢, 郭建波, and 张英哲

Abstract

Copyright of Petroleum Refinery Engineering is the property of Petroleum Refinery Engineering Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

23. 新型陶瓷空气预热器开发与应用.

Author

高晓红, 李跃重, and 孙志钦

Abstract

Copyright of Petroleum Refinery Engineering is the property of Petroleum Refinery Engineering Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

24. Analysis on the Retrofit Plan of a 600MW Unit Air Preheater.

Author

Jingcheng Su, Fangming Xue, Feng Chen, Yiqing Sun, and Xiuru Liu

Subjects

*WASTE gases, *COLD (Temperature), *POWER plants

Abstract

This paper discusses the advantages and disadvantages of the modification of the air preheater in a power plant, the modification of the heater, the modification of the hot air, and the reconstruction of the circulating wind. Finally, the engineering transformation is compared according to the anti-blocking of the circulating wind, and the economy is carried out. Through analysis, it is concluded that the temperature of the cold end of the air preheater can be significantly increased after the transformation, but the rise of the exhaust gas temperature is not obvious, which can significantly improve the blockage of the air preheater, and provide a useful case for the modification of the air preheater. [ABSTRACT FROM AUTHOR]

Published

2019

25. Research on prediction model of formation temperature of ammonium bisulfate in air preheater of coal-fired power plant

Author

Zhang Kai, Wang Zhiqiang, Cheng Xingxing, and Xue Fangming

Subjects

Ammonium bisulfate, Flue gas, Environmental Engineering, Materials science, business.industry, General Chemical Engineering, Coal combustion products, Selective catalytic reduction, General Chemistry, Biochemistry, chemistry.chemical_compound, chemistry, Chemical engineering, Air preheater, Deposition (phase transition), Coal, business, NOx

Abstract

Ammonium bisulfate (ABS) is a viscous compound produced by the escape NH3 in the NO reduction process and SO3 in the flue gas at a certain temperature, which can cause the ash corrosion of the air preheater in coal-fired power plants. Therefore, it is essential to study the formation temperature of ABS to prevent the deposition of ABS in air preheaters. In this paper, the SO3 reaction kinetic model is used to analyze the SO3 generation process from coal combustion to the SCR exit stage, and the kinetic model of NO reduction is used to analyze the NH3 escape process. A prediction model for calculating the ABS formation temperature based on the S content in coal and NO reduction parameters of the selective catalytic reduction(SCR) is proposed, solving the difficulty of measuring SO3 concentration and NH3 concentration in the previous calculation equation of ABS formation temperature. And the reliability of the model is verified by the actual data of the power plant. Then the influence of S content in coal, NH3/ NOx molar ratio, different NOx concentrations at SCR inlet, and NO removal efficiency on the formation temperature of ABS are analyzed.

Published

2022

26. Effectiveness of Rotary Air Preheater in a Thermal Power Plant

Author

Praveen, M. and Kishore, P. S.

Published

2016

27. Revamping for enhancing flue gas waste heat recovery efficiency of heaters of hydrocracking unit.

Author

Li Baoliang and Wang Jingtang

Abstract

The 3.6 Mt/a medium pressure hydrocracking unit of CNOOC Huizhou Petrochemical Co., Ltd. has long had problems of high exhaust gas temperature and low heating furnace efficiency. It is concluded that the dew point corrosion of the flue gas can be avoided by controlling the exhaust temperature of the air pre-heater above 90 °C. The exhaust gas temperature of current working condition is higher than 150 °C. Therefore, the heating furnace thermal efficiency can be improved by lowering the exhaust temperature. Since the glass tube module is used in the low temperature section, the risk of dew point corrosion is reduced, and the modular design reduces the maintenance frequency and saves the maintenance costs. It is proposed that the original heat pipe heat exchanger be transformed into a combined air preheater of plate type and glass tube module. After the renovation, the exhaust gas temperature at the outlet of the air preheater is reduced by 50, the preheated air temperature is increased by 80 °C, the thermal efficiency of each heating furnace is increased by about 2 percentage point, the fuel gas is saved by 150 m /h, the operating cost is saved by 4 million yuan per year, and the maintenance cost is saved by 200 000 yuan per cycle. The energy-saving effect of the retrofitted device is remarkable. [ABSTRACT FROM AUTHOR]

Published

2019

28. Experimental Analysis for Thermal Performance of Heat Distribution System in hot BoP of 2 kW‐class SOFC.

Author

Kim, Y. B., Kim, E., Yoon, J., and Song, H. W.

Subjects

SOLID oxide fuel cells, THERMAL analysis, STEAM generators, HEAT, HEAT storage, WASTE heat, HEAT transfer

Abstract

This study designed and tested the components of hot balance of plant (BoP) included in a 2 kW‐class solid oxide fuel cell (SOFC) system and evaluated their thermal performance. A Pd/Pt catalytic combustor was fabricated as a component of hot BoP, and integrated hot BoP with an efficient structure was fabricated by calculating the heat transfer rates of the air preheater and steam generator through a theoretical design method. It was found that placement of the air preheater in front of the steam generator exhibited the most excellent heat transfer rate. Moreover, the heat transfer rates of the designed air preheater and steam generator exceeded the upper limit of the maximum possible heat transfer of the preheated air and the water. In experimental results, the thermal efficiency of the integrated system was 60% at the reference heat input and 70% at low heat input. The oxidizing flame of the catalyst was visualized, and the oxidation characteristics of the catalytic combustor were analyzed by measuring the concentration of the final discharged gas, that is, carbon monoxide (CO). This study helps to fabricate the integrated hot BoP system, as it provides design techniques and efficient system configuration. [ABSTRACT FROM AUTHOR]

Published

2019

29. Research on the three-dimensional wall temperature distribution and low-temperature corrosion of quad-sectional air preheater in larger power plant boilers.

Author

Zhang, Qiannan, Sun, Fengzhong, and Chen, Changxian

Subjects

*POWER boilers, *HEAT transfer, *HEAT flux, *HEAT conduction, *FLUID flow

Abstract

Highlights • Three-dimensional numerical simulation of air preheater is presented. • The numerical model is validated against experimental data. • Three-dimensional temperature distribution of fluid and heating surface is obtained. • The low-temperature corrosion is mainly occurred in the hot end of flue gas channel. Abstract To overall control the wall temperature of rotary quad-sectional air preheater and ensure the safety of boiler units, it is important to research its three-dimensional temperature field. Computational fluid dynamics method (CFD) is used to simulate the heat transfer performance of a 300 MW circulating fluidized bed (CFB) boiler. The temperature of rotor heating surface is defined as user-defined scalar (UDS) to solve scalar equation. Numerical results which are validated by experimental data present the essential parameters such as three-dimensional temperature, heat flux and heat transfer distribution of both working fluid and heating surface. The temperature difference between working fluid and heating surface, heat transfer quantity per unit volume are also obtained. Numerical results show that the different materials and types of heating surface will cause the differences in heat transfer performance between cold end and hot end. The temperature of working fluid are different between cold end and hot end, resulting in volume flow changing to make the scouring velocity different. That is the structural reason for the distinctions in heat transfer performance. It is concluded that low-temperature corrosion mainly occurs in the heating surface at the inlet of hot end in flue gas channel, where the metal temperature need to be kept above acid dew point so as to retard the low-temperature corrosion. [ABSTRACT FROM AUTHOR]

Published

2019

30. Optimization of oxy-fuel circulating fluidized bed combustion system with high oxygen concentration

Author

Runjuan Kong, Haigang Wang, Qiangqiang Ren, and Wei Li

Subjects

Flue gas, Materials science, System optimization, Extraction (chemistry), chemistry.chemical_element, Energy consumption, Combustion, Pulp and paper industry, Oxygen, High oxygen concentration, TK1-9971, Process simulation, General Energy, Electricity generation, chemistry, Air preheater, Oxy-fuel combustion, Fluidized bed combustion, Electrical engineering. Electronics. Nuclear engineering, Circulating fluidized bed

Abstract

High oxygen concentration oxy-fuel circulating fluidized bed (CFB) combustion technology is a high efficiency and low cost oxy-fuel combustion technology, which also has high potential of optimization and efficiency improvement. In this research, energy efficiency is analysed to acquire the effects of flue gas recirculation mode, preheating temperature and oxygen purity on the net efficiency and energy consumption of the 50% oxy-fuel combustion system, so as to obtain the further optimization strategy. The following results are obtained by simulation. The optimal extraction position of recycled flue gas (RFG) is gas preheater outlet, and the net power generation efficiency increases by 0.23% to 25.08%. As the preheating temperature increases from 230 to 400 °C, the net efficiency increases by 1.19% to 26.04%. The net efficiency increases first then decreases as the oxygen purity at ASU outlet increase from 89% to 97.4%, and the optimal value is the 94%. Finally, the optimal system is obtained when RFG is extracted from gas preheater outlet, the preheating temperature is 400 °C and the oxygen purity at ASU outlet is 94%. The net efficiency of the optimization system reaches 27.4%, increasing by 2.55%.

Published

2022

31. Technological upgradations in jaggery making plants

Author

Mahesh Kumar and Rakesh Kumar

Subjects

Thermal efficiency, Economizer, Rural people, Air preheater, Fuel efficiency, Environmental science, Jaggery, Pulp and paper industry, Bagasse

Abstract

Jaggery, an unrefined sweetener is prepared by continuous heating of fresh sugarcane juice in different types and capacities of old indigenous and modified plants. The old indigenous plants manufactured by the rural people without any technological advancements have very high fuel consumption (about 3 kg/kg to 4 kg/kg of jaggery produced) and low heat utilization efficiency (15% to 29%). Number of modifications have been suggested by the researchers for the optimization and improvement in the performance parameters of jaggery making processes and plants. The implementation of fins at the external bottom of pans, preheater and economiser in the chimney, efficiency booster in the furnace, freeze pre-concentration system, forced draft through the plant and controlled fuel feeding in the furnace are reported to improve the thermal efficiency in the range of 25% to 50% and reduce the bagasse consumption in the range of 1.75 kg/kg to 2.75 kg/kg of jaggery prepared. The recently published article adopting novel techniques of internal preheating of sugarcane juice in the gutter pan and automatic supply of bagasse in the furnace of a two pan jaggery making plant is claimed to improve the heat utilization efficiency up to 65% and reduce the fuel consumption up to 1.50 kg/kg of jaggery produced with an affordable investment. The present paper summarizes the various technological up-gradations adopted and tested by the researchers for the enhancement of various output parameters of jaggery making units.

Published

2022

32. Separate and combined integration of Kalina cycle for waste heat recovery from a cement plant

Author

Adel A. El-samahy, Ehab S. Mahmoud, Mohamed Rady, and Abdullah Abuhabaya

Subjects

Cement, Waste management, Renewable Energy, Sustainability and the Environment, Kiln, Waste heat, Kalina cycle, Air preheater, Mass flow rate, Environmental science, Turbine, Waste heat recovery unit

Abstract

This article reports on using Kalina cycle for waste heat recovery from a cement plant. Two design alternatives have been investigated using separate and combined waste heat recovery from the kiln, cooler, and preheater. Measurements and analysis have been performed to determine the waste heat from different stages of the cement manufacturing lines. The annual heat losses from the kiln surface, preheater, and the cooler are estimated as 79.23 GWh, 44.32 GWh, and 43.6 GWh at average temperatures of about 314?, 315?, and 254?, respectively. Analysis and optimization of using Kalina cycle for waste heat recovery from the kiln shell, cooler and preheater to produce electricity have been carried out using ASPEN software. Parametric study has been carried out to determine the design parameters for Kalina cycle including turbine inlet pressure, mass-flow rate, and NH3-H2O concentration. The value of net power output using combined waste heat recovery is about 7.35 MW as compared to 6.86 using separate waste heat recovery design with a total cost saving of about 23%.

Published

2022

33. FOULING OF A SWEET CRUDE OIL UNDER INERT AND OXYGENATED CONDITIONS

Author

A. P. Watkinson, B. Navaneetha-Sundaram, and Dusko Posarac

Subjects

Inert, Fouling, business.industry, General Chemical Engineering, Energy Engineering and Power Technology, chemistry.chemical_element, Pulp and paper industry, Nitrogen, Refinery, Fuel Technology, chemistry, Petroleum industry, Air preheater, Oil sands, business, Refining (metallurgy)

Abstract

Fouling of a sweet crude oil derived from oil sands was studied in a re-circulation heating loop to identify causes of refinery preheater fouling. Oil was re-circulated for periods of up to 6 days through an electrically heated annular probe. The oil was maintained under gaseous atmospheres with air/nitrogen molar ratios from zero to 0.18, at total pressures of 460 kPa. The effects of wall and bulk temperature, flow velocity, dissolved oxygen content, and mineral particle additions on the fouling rate are reported.

Published

2023

34. Furnace efficiency

Author

Peter Mullinger and Barrie Jenkins

Subjects

Exergy, Thermal efficiency, Flue gas, business.industry, Pinch point, Electric potential energy, Process (computing), Combustion, Degree (temperature), Thermal, Benchmark (computing), Air preheater, Environmental science, Energy transformation, Instrumentation (computer programming), Energy source, Process engineering, business, Energy (signal processing)

Abstract

Publisher Summary This chapter presents an analysis of the efficiencies and inefficiencies of a system, which can be used to identify where the greatest opportunity for gains can be derived. It can also be used to benchmark the performance of one system against another. The thermal efficiency of any furnace system is defined as the useful energy derived from the system relative to the energy input. However, it is not necessary to measure the energy that is lost through the walls of the furnace, etc. to calculate the efficiency. It is only necessary to know the useful energy out, which is usually relatively easy to determine, as it will be directly related to the production rate. The efficiency of a furnace system depends on each step by which the energy is transferred from the chemical fuel energy and the electrical energy to the process energy contained in the end product. The total efficiency is dependent on the efficiency of each operation in the process, such as pump, preheater, furnace, and cooler. Examination of furnace performance data can help to usefully identify the relative contributions of thermal quantities. If the production rate is plotted against thermal input then, allowing for a reasonable degree of scatter owing to other influences, a straight line relationship is usually observed.

Published

2023

35. Energy and economic assessments of waste heat recovery by designs of economizer, condensing economizer and air preheater

Author

Terhan, Meryem, Özağdaş, Emre, Omar, Muhammed Arslan, and Terhan, Meryem

Subjects

heat recovery units, Energy efficiency, air preheater, condensing economizer

Abstract

In this study, the waste heat loss of flue gases from the boilers of Kafkas University district heating system has been calculated between 6-8% according to the combustion analysis and the annual cost of this heat loss has been found as $58,658.79. In terms of energy efficiency and the national economy, we think that this lost energy should be recovered as much as possible and fuel and energy savings should be achieved. In the paper, the effects of variants such as air excess coefficient, flue gas temperature, boiler capacity and fuel consumption on the heat recovery from flue gas have been presented in detail. The heat recovery scenarios have been presented for reusing this waste energy for space heating, domestic hot water, and preheating combustion air and the applicability of these scenarios has been investigated in terms of thermodynamics and economics. According to the results of the study, in the second scenario examined to cover the domestic hot water need of the guest house building, the energy savings of the scenario can be provided during 20 years of economic life is $122,820.83, and it has the highest savings income among the scenarios. In addition, it is possible to recover approximately 50% of the flue gas loss with thanks to the scenario. On the other hand, the third scenario of heating the boiler combustion air with waste heat is the easiest and most economical scenario because its payback period is only one year, and there are no extra excavation and pipe costs. © 2023 Gazi Universitesi Muhendislik-Mimarlik. All rights reserved.

Published

2023

36. Dynamic simulation and performance analysis of a parabolic trough concentrated solar power plant using molten salt during the start-up process

Author

Junjie Yan, Ming Liu, Shunqi Zhang, Yongliang Zhao, and Jiping Liu

Subjects

geography, geography.geographical_feature_category, Renewable Energy, Sustainability and the Environment, business.industry, Nuclear engineering, Boiler feedwater, Solar energy, Inlet, Dynamic simulation, Concentrated solar power, Air preheater, Parabolic trough, Environmental science, Molten salt, business

Abstract

Daily start-up is a typical feature of concentrated solar power plants (CSPs) due to solar energy intermittency. Therefore, appropriate start-up operation strategies are significant for CSPs. A parabolic trough concentrated solar power plant (PTCSP) with molten salt (MS) is a potential technical route. However, little attention has been paid to the dynamic start-up performance of PTCSP using MS. To mend the research gap, the dynamic start-up simulation of PTCSP using MS is conducted. Main contributions of this study are the dynamic start-up simulation of PTCSP using MS and evaluation of two MS anti-freezing solutions. Results indicate that the outlet MS temperature of solar field transiently exceeds nominal values during start-up processes. The inlet feedwater temperature of the preheater is much lower than MS freezing temperature during start-up processes. Therefore, two anti-freezing solutions were used to avoid MS solidification. Compared with utilizing the recirculating pump, utilizing the low-load regenerative heater can enhance anti-freezing performance, which could reduce the maximum control deviation of the preheater inlet feedwater temperature by 2.0 °C and increase the average outlet MS temperature of the preheater by 2.4 °C. This study may provide guidance for the dynamic simulation and operation optimization of CSPs during start-up processes.

Published

2021

37. EFFECTS OF PREHEATER LOAD AND LOCATION ON THE CATALYTIC CONVERTER EFFICIENCY DURING COLD START AND IDLING CONDITIONS

Author

Nureddin Dinler, Salih Karaaslan, Nuri Yucel, Fatih Aktaş, and Sadullah Taskin

Subjects

Cold start (automotive), law, Catalytic converter, General Engineering, Air preheater, Environmental science, General Materials Science, Atomic and Molecular Physics, and Optics, Automotive engineering, law.invention

Abstract

Exhaust emissions are significant pollutants that affect urban lifestyles. There are several regulations related to the exhaust emissions of both gasoline and diesel engines. In this study, the effects of a controlled heating of the exhaust line before the catalytic converter on the converter efficiency are experimentally investigated. Experiments were conducted based on either discrete or cold start conditions. For discrete conditions, the engine was operated until it reached normal and steady state operating conditions. Then, the engine was stopped until the catalytic converter surface temperature reached the ambient temperature. The experiments were first started without additional heating and then continued with different heating loads. In the second stage, the catalytic converter behavior and conversion efficiency under cold start conditions were investigated. The exhaust gas after the exhaust manifold was preheated with different heating loads for the first 150 seconds after the start of the engine; however, the exhaust line was heated 15 s before starting the engine. The effects of the location, length and heat loads of the electrical resistances on the catalytic converter behavior were investigated. After all of the experiments, it was concluded that with the appropriate location and heating loads, for discrete operating conditions, the hydrocarbon (HC) and carbon monoxide (CO) emission conversion efficiencies reached nearly 100 % after 50 s of starting the engine. For cold start conditions, the hydrocarbon (HC) and carbon monoxide (CO) emission conversion efficiencies reached 35 % and 80 %, respectively.

Published

2021

38. Modeling of the fired preheater of crude oil considering the effect of geometrical parameters on fuel consumption

Author

Ali Rezaei and Seyed Alireza Mostafavi

Subjects

Fluid Flow and Transfer Processes, Waste management, Fuel efficiency, Air preheater, Environmental science, Condensed Matter Physics, Crude oil

Published

2021

39. Analysis of the Consequences of Air Pre-blocking.

Author

Jingcheng Su, Fangming Xue, Feng Chen, Yiqing Sun, and Xiuru Liu

Subjects

*AIR analysis, *WASTE gases, *AIR pressure

Abstract

This paper analyzes the effects of air preloader blockage on fan power consumption, exhaust gas temperature, cold end corrosion, furnace pressure and air leakage. It is believed that the increase of blockage will significantly increase the power consumption of the fan, increase the exhaust gas temperature, increase the corrosion of the cold end, increase the fluctuation of the furnace pressure, and significantly increase the air leakage. Therefore, the problem of air pre-blocking should not be underestimated, and solutions should be implemented as soon as possible. [ABSTRACT FROM AUTHOR]

Published

2019

40. 三维变形管与三维内肋管在管式空气预热器上的应用研究.

Author

朱冬生, 李修真, 孙晋飞, and 刘世杰

Abstract

Copyright of Journal of Engineering for Thermal Energy & Power / Reneng Dongli Gongcheng is the property of Journal of Engineering for Thermal Energy & Power and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

41. Three-Dimensional Simulation of Leakages in Rotary Air Preheater of Steam Power Plant

Author

Ebrahim Hajidavalloo, Salem Mehrzad, and Armin Heidari-Kaydan

Subjects

Fluid Flow and Transfer Processes, Reduction (complexity), Three dimensional simulation, Mechanical Engineering, Nuclear engineering, Air preheater, Environmental science, Steam-electric power station, Condensed Matter Physics, Leakage (electronics)

Abstract

One of the major problems of rotary air preheaters (RAPHs) is leakage which has a direct impact on its performance reduction. The purpose of this study is to examine the behavior of different types...

Published

2021

42. Experimental study on active disturbance rejection temperature control of a mechanically pumped two-phase loop

Author

Li Sun, Yongping Chen, Chengbin Zhang, and Guanru Li

Subjects

Microchannel, Temperature control, Materials science, 020209 energy, Mechanical Engineering, PID controller, 02 engineering and technology, Building and Construction, 021001 nanoscience & nanotechnology, Volumetric flow rate, Loop (topology), Subcooling, Control theory, 0202 electrical engineering, electronic engineering, information engineering, Air preheater, 0210 nano-technology

Abstract

High-heat-flux heat removal is critical for the long-term safety of the high-power electronic device. However, the precise and uniform temperature control of the device is challenging due to various nonlinearities, couplings and disturbances. To this end, active disturbance rejection controller (ADRC), hybrid with an auxiliary feed-forward flow rate controller and an auxiliary subcooling degree controller, is introduced in this paper for the wall temperature control of a microchannel mechanically pumped two-phase cooling loop. First, the optimal flow rate in terms of the heating power is identified to minimize the temperature level and variance. The relative curves between the flow rate and heating power are like character ‘v’ which are used as a feed-forward law for the flow rate regulation. Second, the reference of the sub-cooling degree is determined based on the closed-loop control of the preheater to get a uniform temperature field with least variance. Finally, ADRC is used in the primary loop to control the average wall temperature. The experimental results indicate the efficiency of thermal control for two-phase cooling loop via combination of primary and auxiliary loop. In addition, ADRC performs better in both temperature tracking and disturbance rejection when compared with the conventional PI controller, with superiority in terms of faster tracking and stronger robustness to disturbances and couplings.

Published

2021

43. A semi-empirical model for preheater design to trigger CO2 boiling for detector cooling

Author

Giorgio Baldinelli, Francesco Bianchi, J. Daguin, P. Tropea, T. French, and Antti Onnela

Subjects

Pressure drop, Materials science, Physics::Instrumentation and Detectors, 010308 nuclear & particles physics, Mechanical Engineering, Superheating, Detector, 02 engineering and technology, Building and Construction, Heat transfer coefficient, Mechanics, 021001 nanoscience & nanotechnology, 01 natural sciences, Preheaters, CO2 electronics cooling, Nucleate boiling, Boiling, R744, 0103 physical sciences, Air preheater, Detectors and Experimental Techniques, 0210 nano-technology, Compact Muon Solenoid

Abstract

The fluid properties of CO$_2$ make it an ideal medium for the cooling of tracking detectors in experiments at particle accelerators. Detectors such as the Compact Muon Solenoid Outer Tracker at CERN will be cooled to a nominal temperature of -35$^{\circ}$C with CO$_2$ cooling to ensure the longevity of the silicon sensors. In theory, two-phase CO$_2$ cooling results in a very low temperature change along the detector tube, dependent only on pressure drop. Experimentally, however, superheating - the existence of a fluid in the liquid form above its boiling temperature - has been observed to occur frequently. This results in higher fluid temperatures and a poor heat transfer coefficient over the first section of the detector tube, disrupting the cooling performance of the detector and possibly leading to deterioration of the silicon sensors. In order to prevent superheating, a preheater is proposed to trigger nucleate boiling in the Compact Muon Solenoid Outer Tracker detector cooling tube just upstream of the sensors. A theoretical - semi-empirical - model for the preheater design is presented, starting from experimental data points. With this model, the triggering of nucleation can be characterised for tubes made of the same material as that tested and with the same surface cavity size. The model validation is promising, closely matching the trends from experimental results, and giving preheater specific powers significantly lower than those derived from spinodal theory.

Published

2021

44. Modification of rotary air preheater toward achieving extended life-span utilizing porous media approach: A case study

Author

Hamed Hajebzadeh and Abdulhamid N.M. Ansari

Subjects

Life span, Power station, business.industry, 020209 energy, Mechanical Engineering, Energy Engineering and Power Technology, 02 engineering and technology, Operating life, 020401 chemical engineering, 0202 electrical engineering, electronic engineering, information engineering, Air preheater, Environmental science, 0204 chemical engineering, Porous medium, Process engineering, business, Leakage (electronics)

Abstract

The main goal of this study is to achieve the extended operating life of the rotary regenerative air pre-heater (Ljungström) of Bandar Abbas power plant by modifying operational parameters by decreasing the corrosion. To achieve this goal, a three-dimensional CFD simulation of the Ljungström is carried out, utilizing the thermal non-equilibrium porous media model. Temperatures are validated against measured data from the power plant with a maximum relative error of 5.54% on the Celsius scale, and mass flow rates are validated with a maximum relative error of −5.25%. The effect of the Ljungström key parameters including the rotational speed, cold layer material, inlet air/flue gas temperature, and mass flow rate, are analyzed in presence of leakages and neglecting it, using porous media approach. The leakage effect is investigated considering radial and axial/peripheral clearances. Finally, a simulation is performed by applying feasible improved parameters extracted from the above analyses considering the effect of all parameters together in presence of leakages, which shows a 6.14% improvement in the Ljungström effectiveness, reducing the total leakage to about one-third of the actual model and eliminating any corrosion.

Published

2021

45. Numerical investigation of molten salt/SiO2 nano-fluid in the solar power plant cycle and examining different arrangements of shell and tube heat exchangers and plate heat exchangers in these cycles

Author

Hani Abulkhair, Radi Alsulami, A.A. Aljinaidi, Elias M. Salilih, Mashhour A. Alazwari, Abdullah Abusorrah, Hatem Sindi, Muhyaddin Rawa, Khalid H. Almitani, Nidal H. Abu-Hamdeh, Khaled A. Alnefaie, and Mohamed A. Eltaher

Subjects

Rankine cycle, Power station, General Chemical Engineering, Nuclear engineering, Plate heat exchanger, General Chemistry, law.invention, Electricity generation, law, Heat exchanger, Air preheater, Environmental science, Molten salt, Shell and tube heat exchanger

Abstract

Background Solar towers use heliostat to direct a lot of sunlight into a receiver. When concentrated solar radiation is converted to heat, it can drive a steam turbine connected to a power generator, which generates electricity. The purpose of this research is to design and analysis of a solar power plant in the climatic condition of Jeddah, Saudi Arabia. Method Both TRANSYS and THERMO FLEX software are applied for such purpose. The intended power plant is composed of two sections of a solar cycle with molten salt as working fluid and a Rankine cycle with working fluid of water for power generation. COMSOL software is applied to simulate the preheater heat exchangers. Results The results of this study indicated that the solar power plant generates the most electricity during June and July. The efficiency during these two months is 25% for molten salt nanofluid and 24% for molten salt. In addition, the use of molten salt nanofluid can improve the heat transfer in the solar receiver and produce more electricity in the power plant compared to the use of molten salt. Moreover, the use of two preheaters instead of one increases the efficiency of the cycle by up to 3%.

Published

2021

46. Comprehensive Design and Optimization of an Onboard Resonant Self-Heater for EV Battery

Author

Xi Zhang, Hua Zhang, Yue Cao, Chong Zhu, and Fei Lu

Subjects

Flexibility (engineering), Battery (electricity), 020209 energy, 020208 electrical & electronic engineering, Switching frequency, Energy Engineering and Power Technology, Transportation, 02 engineering and technology, Energy consumption, Automotive engineering, Power (physics), Nonlinear programming, Automotive Engineering, 0202 electrical engineering, electronic engineering, information engineering, Air preheater, Environmental science, Electrical and Electronic Engineering, Electrical impedance

Abstract

As the primary power sources of electric vehicles (EVs), lithium-ion batteries suffer from substantial capacity and power degradation at cold climates. An onboard battery preheater is essential for EVs to avoid degraded battery performance. This article proposed a resonant battery self-heater for internally preheating the batteries without external power supplies, thereby providing great flexibility for EVs in different parking areas. To achieve the optimized performance, a detailed analytical model of the self-heater is derived, illustrating the effects of the switching frequency and resonant tank parameters. Considering the size, heating speed, and efficiency, the detailed design methodology of the proposed self-heater is presented by utilizing a nonlinear optimization method, in which the battery impedance variation is included. The downscaled experiments on 18650 cells validate that the optimally designed self-heater can warm up the batteries from −20 °C to 0 °C rapidly with the minimum energy consumption compared with previous heating schemes.

Published

2021

47. An Optimization Study on Soot-Blowing of Air Preheaters in Coal-Fired Power Plant Boilers

Author

Yuanhao Shi, Jie Wen, Fangshu Cui, and Jingcheng Wang

Subjects

coal-fired power plant boiler, air preheater, ash fouling monitoring, cleanliness factor, fouling dynamics, soot-blowing optimization, Technology

Abstract

This paper presents a comprehensive approach for optimization of soot-blowing of air preheaters in a coal-fired power plant boiler. In the method, modeling of the cleanliness factor is firstly proposed to monitor the ash deposition status of the air preheaters. Then, the statistical fitting of the ash fouling status is subsequently obtained to analyze the ash fouling dynamics and assessment of optimized soot-blowing strategies. Soot-blowing strategies are finally developed to optimize the steam consumption and heat transfer efficiency. Our methods can achieve the fouling monitoring and soot-blowing optimization of air preheater (APH) by using the existing monitoring data, not requiring additional special instruments and complex computing systems. The methodology is validated with the actual operating data of a 300 MW coal-fired power plant boiler. The results show the effectiveness of the proposed method. It can be used for the soot-blowing optimization in most coal-fired power plant boiler with air preheaters.

Published

2019

48. Influence of Alkaline on Generating Aluminum Ammonium Sulfate inside an Air Preheater in a Coal-fired Power Plant

Author

Hiroyuki Akiho, Tetsuya Shoji, Michito Kanamori, and Hiromi Shirai

Subjects

General Energy, Aluminum ammonium sulfate, Metallurgy, Air preheater, Environmental science, Coal fired power plant

Published

2021

49. Modelling and CFD Simulation of Temperature and Airflow Distribution Inside a Forced Convection Mixed Mode Solar Grain Dryer with a Preheater

Author

Johannes P. Angula and Freddie L. Inambao

Subjects

Cfd simulation, General Computer Science, Distribution (number theory), Mechanics of Materials, Airflow, Air preheater, Environmental science, Mechanics, Electrical and Electronic Engineering, Mixed mode, Civil and Structural Engineering

Abstract

In this study, a 3D Computational Fluid Dynamics (CFD) model was developed to simulate the drying process of maize ears cobs in a mixed-mode solar grain dryer. The dryer system is aimed to operate under forced convection and is integrated with a preheater to heat air prior to entering the solar collector. The 3D model was developed with great accuracy using SolidWorks software and the CFD simulation was carried out using ANSYS Fluent software. The study was aimed at analyzing and predicting temperature and airflow distribution in the mixed-mode solar dryer system. The CFD simulation was conducted at different airflow velocities varying from 0.5 m/s to 2 m/s for different temperature values of the preheater. Results from the simulation of the solar collector were satisfactory, indicating a minimum and maximum temperature of 59.7 ℃ and 70.5 ℃ at minimum and maximum drying conditions, respectively. The variation of temperature inside the drying chamber was predicted with an average maximum of 64.1 ℃ at the inlets. Results of airflow distribution in the solar collector and drying chamber indicated high turbulence and flow recirculation. This is a desirable flow combination that promotes good moisture evaporation from the maize ears during the drying process. This study proves that the use of computer software can allow one to clearly gain an understanding of the development, heat and mass transfer process, and performance of dryers used in the food drying industry. This approach can promote improvements in existing drying processes and increase food productivity.

Published

2021

50. Performance Evaluation of a Forced Convection Mixed Mode Solar Grain Dryer with a Preheater

Author

Johannes P. Angula and Freddie L. Inambao

Subjects

Materials science, General Computer Science, Mechanics of Materials, Air preheater, Mechanics, Electrical and Electronic Engineering, Mixed mode, Civil and Structural Engineering, Forced convection

Abstract

In this study the performance of a forced convection mixed-mode solar grain dryer integrated with a preheater was evaluated. The type of grains used in the experiment were 72 freshly harvested maize cobs with a total mass of 17 kg. The experiment was conducted at various airflow speeds and preheater temperatures ranging from 0.5 m/s to 2 m/s and 30 ℃ to 40 ℃, respectively. The aim of the study was to improve the performance of an existing indirect solar dryer which was converted to a mixed-mode solar dryer. The initial thermal efficiency of the indirect solar dryer before modification was 36 %. The results from the experiment indicated a maximum thermal efficiency of 58.8 % with a corresponding drying rate of 0.0438 kg/hr. The minimum thermal efficiency for the mixed-mode solar grain dryer system was 47.7 %, with a corresponding drying rate of 0.0356 kg/hr. The fastest drying time of maize cobs was achieved in 4 hours and 34 minutes from an initial moisture content of 24.7 % wb to 12.5 % wb. The findings show a significant improvement in the dryer system’s performance. This is a clear indication that operating a solar dryer system in mixed-mode operation with forced convection and the assistance of a preheater or backup heater can significantly improve drying processes and increase food preservation.

Published

2021