Your search keyword '"Thermal power station"' showing total 15,944 results

1. TECHNOLOGY FOR PRODUCING GREEN ENERGY FROM POLLUTED LAKES ON THE APSHERON PENINSULA AND ITS ECO-ECONOMIC JUSTIFICATION.

Author

Aliyev, Elman, Ismayilova, Mehriban, and Alekhperov, Arif

Subjects

*CLEAN energy, *LAKES

Abstract

This technological development is aimed at using renewable energy sources to provide electricity to oil wells on the Apsheron Peninsula, which contributes to improving the environmental situation and justifying the economic efficiency of this approach. The technology for producing green energy from polluted lakes on the Apsheron Peninsula has enormous potential for solving two main problems: environmental pollution and energy shortage. This project represents an innovative approach to utilizing polluted water resources, combining it with electricity production to support the energy needs of oil wells and the population. [ABSTRACT FROM AUTHOR]

Published

2024

2. Prevalence of Dental Caries among Thermal Power Station Workers in South India

Author

Pillai Dinesh Dhamodhar Mathevan, Sivalingam Balaji, Nyklesh V, Nandini K, Kumarappan Kannan, and Nagappan Nagappan

Subjects

dental caries, oral health status, thermal power station, Pharmacy and materia medica, RS1-441, Analytical chemistry, QD71-142

Abstract

IntroductionAn increase in the trend of rapid industrialization has resulted in the mushrooming of industries in various sectors throughout the world. This study tries to document caries prevalence among thermal power station workers in South India. Materials and MethodsA pilot study was conducted among 53 thermal power station workers, and based on the same, the sample size was calculated. ResultsThe caries prevalence was 62.5% in thermal power station I workers and 61.5% in thermal power station II workers. The mean DMFT was 2.96 among thermal power station I workers and 2.87 among thermal power station II workers. ConclusionThe caries prevalence was 79.2% in the 35- to 44-year-old age group, according to the National Oral Health Survey and Fluoride Mapping.

Published

2024

3. Choice Optimal Fuel Alternative in Thermal Power Station Using Neutrosophic Set and MCDM Methodology.

Author

Jalón Arias, Edmundo, Freire Lescano, Luis, Pineda Silva, Giovanny, and Ibrahim, Maha

Subjects

STEAM power plants, NEUTROSOPHIC logic, SET theory, MULTIPLE criteria decision making, ELECTRIC power production

Abstract

In a power plant, the fuel choice directly impacts the efficiency, cost, and ecological impact of generating electricity. For power plants to produce electricity effectively and affordably to fulfill the needs of consumers in homes, companies, and communities, they need a fuel supply that is constant, dependable, and inexpensive. In this study, we used the concept of multi-criteria decision-making (MCDM) to deal with the various criteria of fuel alternatives. We used the EDAS method as an MCDM methodology to rank the fuel alternatives and select the best one. The EDAS method is employed with the interval-valued neutrosophic sets (IVNSs) to deal with the uncertainty information in the evaluation process. We compute the weights of the criteria of thermodynamic parameters. We used ten thermodynamic parameters such as temperature, mass, energy, etc. Then, the principal results show that temperature is the best criterion, and the work interaction is the worst criterion in all criteria. The EDAS method ranked twenty alternatives. The results show that alternative 20 are the best and alternative 14 is the worst of all alternatives. We employed the sensitivity analysis to show the rank of alternatives under ten cases. The results show the 20 alternative is the best in all cases. The results are stable. [ABSTRACT FROM AUTHOR]

Published

2024

4. Impact of the Thermal Power Stations on Nile Water Temperature Using Landsat 8 OLI/TIR Case Study: Shubra El Kheima Thermal Power Station, Egypt

Author

Eshra, Nadia M., Bezaeva, Natalia S., Series Editor, Gomes Coe, Heloisa Helena, Series Editor, Nawaz, Muhammad Farrakh, Series Editor, Gad, Abd Alla, editor, Elfiky, Dalia, editor, Negm, Abdelazim, editor, and Elbeih, Salwa, editor

Published

2023

5. Developmental Project (Bandel Thermal Power Station) and Its Impact on Groundwater: An Empirical Study from an Indian Perspective

Author

Mandal, Somnath, Bhattacharya, Subhasis, Paul, Suman, Sahu, Abhay Sankar, editor, and Das Chatterjee, Nilanjana, editor

Published

2023

6. Main factors in polycyclic aromatic hydrocarbons accumulations in the long-term technogenic contaminated soil

Author

Tamara Dudnikova, Svetlana Sushkova, Tatiana Minkina, Andrey Barbashev, Carla Sofia Santos Ferreira, Elena Antonenko, Evgenyi Shuvaev, and Gulnora Bakoeva

Subjects

priority pahs, thermal power station, coal mining, anthracite, soil pollution, Agriculture (General), S1-972

Abstract

The PAHs transformation in the soils of the coal mining enterprises impact zones and thermal power plants remains poorly studied. In turn, coal mining can be considered as a primary cycle in the production of electricity. One of the main sources of negative environmental impact is the coal mining industry located on the territory of the upland in the south of the East European Plain. The features of PAHs accumulation in the soils of fuel and energy enterprises have been studied on the example of mines impact zones with different service life and the current coal-fired power plant. It was established that, regardless of the period and intensity of the emission source, as well as its current status, the polycyclic aromatic hydrocarbons (PAHs) content in the soils of the impact zones was significantly higher than in the soils of the background territory. The content of low molecular and high molecular weight PAHs in the impact zones soils differed depending on the land use type, as well as the period and intensity of an industrial effect type. The pollutants content of in the soils of all considered impact zones significantly exceeded the background values and according to the low molecular weight PAHs content in the soils, they formed the following decreasing series: Mayskiy ≥ Ayutinsky > Novoshahtinsk > Power station > Background. According the high molecular weight PAHs content, the series changed to: Novoshahtinsk >Mayskiy ≥ Ayutinsky > Power station > Background. Soil pollution markers for enterprises of the fuel and energy complex were identified as pyrene and chrysene, which are part of coal, formed from the hydrocarbon sources. The influence of the power plant was accompanied by the benzo(g,h,i)perylene concentration increase.

Published

2023

7. Operating Thermal Power Plants Efficiency Improvement under Current Conditions

Author

V. V. Yanchuk and V. N. Romaniuk

Subjects

low-potential heat flows, thermal power station, steam turbine plant, heat pump, absorption heat pump, vapor compression heat pump, regeneration, Hydraulic engineering, TC1-978, Engineering (General). Civil engineering (General), TA1-2040

Abstract

In the present-day conditions, the issue of energy saving is becoming increasingly acute and permanently relevant. This situation is caused by rapid growth in prices for primary energy resources and by the need to reduce the share of natural gas in the incoming part of the energy balance of Belarus. According to available statistics, with the commissioning of the Belarusian NPP, the share of natural gas in the incoming part of the energy balance decreases from 97 to 59 %. In the economic complex, the share of this primary energy resource is projected at 70 %. The problem of energy saving is solved most rationally and with the least investment only by increasing the efficiency of natural gas use, especially due to the commissioning of the Belarusian NPP, the issue of preserving the possibility of using centralized heating facilities is acute. It is necessary to increase the thermodynamic efficiency of the cycles of steam turbine plants, both heating and condensing, which form the basis of the generation of the Belarusian power system, in order to restore the energy characteristics of the power system, which have somewhat decreased with the commissioning of the NPP. In the limit, the share of natural gas in the incoming part of the energy balance should be reduced to values not exceeding 50 %, in accordance with the requirements of energy security. The article considers examples of utilization of low-temperature secondary energy flows occurring at thermal power plants: the heat of the cooling processes of the generator, lubrication systems, as well as the heat of condensation of turbine exhaust steam and deeper cooling of flue gases. On the basis of this review, it is expected to identify promising areas of relevant research in relation to the energy system of Belarus.

Published

2022

8. Main factors in polycyclic aromatic hydrocarbons accumulations in the long-term technogenic contaminated soil.

Author

Dudnikova, Tamara, Sushkova, Svetlana, Minkina, Tatiana, Barbashev, Andrey, Santos Ferreira, Carla Sofia, Antonenko, Elena, Shuvaev, Evgenyi, and Bakoeva, Gulnora

Subjects

POLYCYCLIC aromatic hydrocarbons, SOIL pollution, COAL-fired power plants, COAL mining, STEAM power plants

Abstract

The PAHs transformation in the soils of the coal mining enterprises impact zones and thermal power plants remains poorly studied. In turn, coal mining can be considered as a primary cycle in the production of electricity. One of the main sources of negative environmental impact is the coal mining industry located on the territory of the upland in the south of the East European Plain. The features of PAHs accumulation in the soils of fuel and energy enterprises have been studied on the example of mines impact zones with different service life and the current coal-fired power plant. It was established that, regardless of the period and intensity of the emission source, as well as its current status, the polycyclic aromatic hydrocarbons (PAHs) content in the soils of the impact zones was significantly higher than in the soils of the background territory. The content of low molecular and high molecular weight PAHs in the impact zones soils differed depending on the land use type, as well as the period and intensity of an industrial effect type. The pollutants content of in the soils of all considered impact zones significantly exceeded the background values and according to the low molecular weight PAHs content in the soils, they formed the following decreasing series: Mayskiy ≥ Ayutinsky > Novoshahtinsk > Power station > Background. According the high molecular weight PAHs content, the series changed to: Novoshahtinsk >Mayskiy ≥ Ayutinsky > Power station > Background. Soil pollution markers for enterprises of the fuel and energy complex were identified as pyrene and chrysene, which are part of coal, formed from the hydrocarbon sources. The influence of the power plant was accompanied by the benzo(g,h,i)perylene concentration increase. [ABSTRACT FROM AUTHOR]

Published

2023

9. Cyber Threat Phylogeny Assessment and Vulnerabilities Representation at Thermal Power Station

Author

Mahor, Vinod, Garg, Bhagwati, Telang, Shrikant, Pachlasiya, Kiran, Chouhan, Mukesh, Rawat, Romil, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Giri, Debasis, editor, Mandal, Jyotsna Kumar, editor, Sakurai, Kouichi, editor, and De, Debashis, editor

Published

2022

10. Solving the Problem of Optimizing the Modes of Operation of the Combined Heat and Power Systems, Depending on the Chosen Method

Author

Andryushin, A. V., Arakelyan, E. K., Neklyudov, A. V., Dolbikova, N. S., Yagupova, Y. Y., Kacprzyk, Janusz, Series Editor, Kravets, Alla G., editor, Bolshakov, Alexander A., editor, and Shcherbakov, Maxim, editor

Published

2022

11. Groundwater Heavy Metal Contamination Mapping Using Geographic Information System (GIS): A Case of Nashik Thermal Power Station, Eklahare, Nashik (M.S.), India

Author

Sasane, Vrushali V., Kote, Alka S., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Rao, Chintalacheruvu Madhusudana, editor, Patra, K. C., editor, Jhajharia, D., editor, and Kumari, Sangeeta, editor

Published

2022

12. A 10-Year Ecological Monitoring of Soils and Triticum aestivum in the Impact Zone of a Power Station.

Author

Chaplygin, Victor, Dudnikova, Tamara, Mandzhieva, Saglara, Minkina, Tatiana, Barakhov, Anatoly, Nevidomskaya, Dina, Rajput, Vishnu, Litvinov, Yuri, Burachevskaya, Marina, Chernikova, Natalia, Nazarenko, Olga, Barbashev, Andrey, and Sushkova, Svetlana

Subjects

WHEAT, ENVIRONMENTAL monitoring, HEAVY metal toxicology, DUST, POLYCYCLIC aromatic hydrocarbons, HEAVY metals

Abstract

Based on 10 years of environmental monitoring located around the emission zone of an electricity supplier, the main regularities have been studied for the content of heavy metals (HMs), such as Pb, Cd, Zn, Cu, Ni, Mn, and Cr, and 16 priority polycyclic aromatic hydrocarbons (PAHs) in the soils of agricultural landscapes and their accumulation in Triticum aestivum. It has been shown that one of the most significant factors for the pollutants accumulation in soils and plants was the prevailing wind direction on the territory and atmospheric transfer of the dust particles of the enterprise with adsorbed pollutants. As the content of pollutants in the soil increased, their accumulation in Triticum aestivum increased with each season to a level exceeding maximum permissible concentrations (MPC), especially for Pb, Cd, and benzo[a]pyrene (BaP). The unambiguous influx of pollutants from the soil into the roots and further into the aboveground organs of the plant was typical only for Mn, Cr, and BaP, and the accumulation of other studied pollutants can be explained by their foliar influx. It has been established that Triticum aestivum was a more tolerant plant with respect to heavy metals pollution than PAHs. [ABSTRACT FROM AUTHOR]

Published

2023

13. Evaluation of potential toxic heavy metal contamination in soil, fly ash, vegetables and grain crops along with associated ecological and health risk assessment of nearby inhabitants of a thermal power station in Jharkhand (India).

Author

Singh, Prasoon Kumar, Shikha, Deep, and Saw, Shivam

Subjects

STEAM power plants, HEALTH risk assessment, ECOLOGICAL risk assessment, FLY ash, HEAVY metals, GRAIN, VEGETABLES

Abstract

The present study aimed to evaluate the potential toxic heavy metal (PTHM) concentrations and associated ecological and health risk of nearby inhabitants (child and adult populations) of the Bokaro thermal power station (BTPS), Jharkhand, India. The fly ash containing PTHMs is released from the thermal power plant and contaminates the soil of the nearby agricultural area, roadside area and residential area. Furthermore, PTHMs cause ecological risk as well as carcinogenic health effects in adults. Inhabitants are exposed to PTHMs through exposure pathways (for instance, direct ingestion, dermal contact and air inhalation), and PTHMs were examined in this study by calculating the estimated daily intake (EDI). The contamination factor (Cf) of Cd exceeded the threshold value throughout the study area, whereas the Cf of Hg was observed higher only in roadside soil (RSS). The geoaccumulation index (Igeo) of Cd was higher in the top soil of agricultural soil (AS) (7.39) and RSS (9.38). The level of PTHMs was monitored slightly higher in the topsoil of RSS. The ecological risk index (Eri) was detected to be the highest in RSS (1628.9). The permissible limit of Cd (0.05 mg kg−1) and Pb (0.1 mg kg−1) for all sampled vegetables and grain crops was surpassed. The transfer factor (TF) of the studied vegetables and grain crops was in the order of Cd > Cr > Pb > Hg > As. The results of the present study concluded that the hazard quotient (HQ) values for all PTHMs analysed in soil throughout the study area were < 1, which indicates that the child population was within the safe limit. However, the adult population was at a high risk of non-carcinogenic health effects due to increased permissible limits of Cd, Pb and Cr in vegetables and grain crops whereas the target carcinogenic risk (TCR) of Pb and Cr was higher and indicated that there may be a health risk of cancer in adults. [ABSTRACT FROM AUTHOR]

Published

2023

14. Çevre Gazeteciliği Bağlamında Termik Santrallerle İlgili Haberlerin İncelenmesi

Author

Göksel Basmacı

Subjects

gazetecilik, çevre gazeteciliği, çevre sorunu, termik santraller, söylem analizi, journalism, environmental journalism, environmental problem, thermal power station, discourse analysis, Journalism. The periodical press, etc., PN4699-5650

Abstract

Çevresel konuların haberleştirilme biçimleri; çevre farkındalığı oluşturmada ve çevre bilinci yaratmada önemli bir role sahiptir. Bu çalışmada çevre ve insan hayatı üzerinde ciddi sorunlara neden olan termik santrallerle ilgili haberler çevre gazeteciliği bağlamında incelenmiştir. Bu doğrultuda; Cumhuriyet, Hürriyet ve Sabah isimli gazeteler örneklem olarak seçilmiş ve bu gazetelerin internet sayfalarında 25.11.2020-28.02.2021 tarihleri arasında yayınlanan haberler analiz edilmiştir. Termik santrallerle ilgili haberlerin nasıl sunulduğu, haberler üzerinden nasıl bir gerçekliğin üretildiği ve bu doğrultuda belirginleşen söylem biçimlerini ortaya koymak amacıyla yapılan bu çalışmada haberler eleştirel söylem analizi çerçevesinde incelenmiştir. Çalışma verileri değerlendirildiğinde Cumhuriyet gazetesinin termik santrallerle ilgili çevre odaklı bir habercilik anlayışı içerisinde olduğu ve çevre haklarının gözetilmesinin yanı sıra politik ve ideolojik tavrının çevre haberciliğine yansıdığı söylenebilir. Hürriyet ve Sabah gazetelerinde ise termik santrallerin ülke ekonomisine katkısı olduğu yönünde bir söylem geliştirildiği ve ekonomi politik unsurların belirleyiciliğinin çevre ile ilgili haberlerin üretim sürecine yansıdığı görülmektedir.

Published

2021

15. Chinese Export to the African Countries: Links with Chinese Energy Projects

Author

K. A. Gemueva

Subjects

china, africa, chinese export, thermal power station, hydropower station, solar power station, wind power station, contract work, energy infrastructure, tied loan, International relations, JZ2-6530

Abstract

The article examines the relationship between China’s exports to African countries and the implementation of energy projects by Chinese companies. The structure of Chinese exports to Africa and trends in the development of bilateral trade is analyzed. Key factors explaining the close correlation between exports and project implementation are: first, the significant volume of tied financing provided by Chinese banks for the construction of energy infrastructure in African countries, second, the need of these countries to purchase a lot of high-tech equipment in the absence of relevant industries on their territory. The dynamics of supplies of specialized equipment from China used for the construction of various types of power plants - hydroelectric power plants, thermal power plants, wind power plants and solar power plants - is considered in detail. The article provides examples of energy projects of Chinese companies in African countries, for which the supply of equipment is directly found in the imports of the respective countries from China. The tendency for Chinese companies to open production facilities in African countries, in particular cement plants and a photovoltaic modules plant, is noted. The author concludes that the African market remains extremely promising for the implementation of energy projects and the sale of relevant Chinese products despite some negative factors.

Published

2021

16. Сomparative analysis and prospects of the use of multi -fuel micro-thermal power stations on the basis of the steeling engine for rural areas

Author

A. D. Mekhtiyev, A. D. Al'kina, V. V. Yugay, U. S. Esenzholov, and N. B. Kaliaskarov

Subjects

thermal power station, stirlingengine, cogeneration, powersupply, h alternative energy, heatengine, Production of electric energy or power. Powerplants. Central stations, TK1001-1841

Abstract

THE PURPOSE. Conducting a comparative analysis of the problems of efficient power supply torural consumers. Offering solution stop roblems by using multi-fuelmicrothermal power plants based on the Stirlingengine for ruralareas. Justification and description of prospects for the use of multi-fuelmicro-thermal power plants based on the Stirlingengine for ruralareas. METHODS. Methods of computer simulation of thermodynamic processes of multi fuel micro-thermal power plants based on an engine based on an engine with external heat supply are used. A computer simulation method has been developed that allows constructing a PV diagram and processes of changes in the pressure and volume of the working fluid depending on the position of the working piston and the displacer. Mathematical methods of analysis and description of the thermodynamic cycle of an engine with external heat supply are used. RESULTS. Выполнен анализ достижений и уровня современных достижений в области микро электростанций. Установлено направление развития научных исследований по разработке двигателя с внешним подводом тепла. Приведены некоторые результаты исследований по эффективности работы двигателя с внешним подводом теплоты. CONCLUSIONS . Одним из решений проблемы эффективного электроснабжения сельских потребителей может быть внедрения микро тепловых электростанций. Их использование позволит снизить стоимость электроэнергии и обеспечить ее бесперебойную поставку. Основой микро тепловой электростанции является двигатель с внешним подводом теплоты, работающий по принципу Стирлинга.

Published

2020

17. A 10-Year Ecological Monitoring of Soils and Triticum aestivum in the Impact Zone of a Power Station

Author

Victor Chaplygin, Tamara Dudnikova, Saglara Mandzhieva, Tatiana Minkina, Anatoly Barakhov, Dina Nevidomskaya, Vishnu Rajput, Yuri Litvinov, Marina Burachevskaya, Natalia Chernikova, Olga Nazarenko, Andrey Barbashev, and Svetlana Sushkova

Subjects

heavy metals, PAHs, Triticum aestivum, contamination, thermal power station, Agriculture (General), S1-972

Abstract

Based on 10 years of environmental monitoring located around the emission zone of an electricity supplier, the main regularities have been studied for the content of heavy metals (HMs), such as Pb, Cd, Zn, Cu, Ni, Mn, and Cr, and 16 priority polycyclic aromatic hydrocarbons (PAHs) in the soils of agricultural landscapes and their accumulation in Triticum aestivum. It has been shown that one of the most significant factors for the pollutants accumulation in soils and plants was the prevailing wind direction on the territory and atmospheric transfer of the dust particles of the enterprise with adsorbed pollutants. As the content of pollutants in the soil increased, their accumulation in Triticum aestivum increased with each season to a level exceeding maximum permissible concentrations (MPC), especially for Pb, Cd, and benzo[a]pyrene (BaP). The unambiguous influx of pollutants from the soil into the roots and further into the aboveground organs of the plant was typical only for Mn, Cr, and BaP, and the accumulation of other studied pollutants can be explained by their foliar influx. It has been established that Triticum aestivum was a more tolerant plant with respect to heavy metals pollution than PAHs.

Published

2023

18. 双向门控循环神经网络的SO2排放浓度预测模型.

Author

蒋星明, 曹顺安, 王民军, 陈东, and 董毕承

Abstract

Aiming at the characteristics of large inertia，time delay and many influencing factors of SO2 e-mission concentration in the desulfurization system data，a prediction model of SO2 emission concentration based on bidirectional gated recurrent unit neural network (biGRU) is proposed・ Taking the main components obtained from the analysis as the input variables and the SO2 emission concentration as the output variable, the SO2 emission concentration is predicted through the data training・ The comparison reveals that the biGRU model can obtain higher prediction accuracy・ Compared with RNN and LSTM, the symmetric mean absolute percentage error decreased respectively by 4・ 235% and 0・ 718%, and the root mean square error decreased respectively by 1・ 942 mg/Nm³ and 0・ 443 mg/Nm3, which indicates that the biG・ RU model has lower prediction error，better generalization ability and higher practical application value, and is conducive to protect the environmental protection and reduce emission. [ABSTRACT FROM AUTHOR]

Published

2021

19. Soils as Natural Resources

Author

Pavlović, Pavle, Kostić, Nikola, Karadžić, Branko, Mitrović, Miroslava, Hartemink, Alfred E, Series editor, Pavlović, Pavle, Kostić, Nikola, Karadžić, Branko, and Mitrović, Miroslava

Published

2017

20. An Analysis of the Prospects for Coal-Fired Thermal Power Station Reconstruction on the Basis of Coal Gasification and a Combined-Cycle Unit.

Author

Sultanguzin, I. A., Fedyukhin, A. V., Zakharenkov, E. A., Yavorovsky, Yu. V., Voloshenko, E. V., Kurzanov, S. Yu., Stepanova, T. A., Tumanovsky, V. A., and Ippolitov, V. A.

Abstract

Modern trends in technical reequipment of coal-fired thermal power stations (TPS) are analyzed by the example of the Verkhnetagil'skaya District Power Station (GRES), where obsolete coal-fired power units requiring replacement were in operation. This problem is specific for many Russian thermal power stations. Two alternatives of reequipment are considered: replacement of obsolete steam-turbine power units with a natural gas-fired combined cycle unit (CCU) and conversion of coal-fired power units into integrated gasification combined-cycle units (IGCCU) with gas turbines operating on purified synthesis gas. Technical reequipment of the considered TPS was performed by replacing the coal-fired steam-turbine power units of phase I–II with a 420 MW CCU. The CCU core was a 288 MW Siemens SGT5-4000F gas turbine. A CCU on its basis was modelled in the THERMOFLEX code. The calculated results demonstrated high power and environmental effectiveness in replacement of coal-fired power units at TPSs with natural gas-fired CCUs, thereby cutting down coal equivalent consumption by 727 000 t.c.e. (or 24%). For conversion of a TPS to an IGCCU, the fuel saving could be as great as 543 000 t.c.e./year (18%) under comparable conditions. In this case, the atmospheric emissions (of dust and SO2) could be decreased many times (by 99%) due to implementation of an effective gas treatment process in the gasification system. Due to the huge coal reserves in Russia, the conversion of coal-fired TPSs to modern technologies with coal gasification may be a promising alternative for many TPSs during their reconstruction. In addition, it will contribute to improving the country's energy security. In addition, this will improve the country's energy security. [ABSTRACT FROM AUTHOR]

Published

2020

21. THE 3-D MODELLING OF HEAT AND MASS TRANSFER DURING COMBUSTION OF LOW-GRADE COAL.

Author

SAFARIK, Pavel, ASKAROVA, Aliya, BOLEGENOVA, Saltanat, MAXIMOV, Valeriy, BOLEGENOVA, Symbat, and NUGYMANOVA, Aizhan

Subjects

*MASS transfer, *HEAT transfer, *COAL dust, *VORTEX methods, *COAL reserves

Abstract

Using numerical methods, the basic characteristics of heat and mass transfer processes in the furnace chamber of the BKZ-75 boiler of the Shakhtinskaya TPP (Kazakhstan) were studied during a forced partial stop of the supply of coal dust through the burners. Two modes of fuel supply were studied; a direct-flow method of supplying air mixtures, when two direct-flow burners are working and two are in emergency mode and vortex method of supplying air mixtures - two vortex burners with a swirl angle of the air mixture flow and their inclination the center of symmetry of the boiler by 30° and two are in emergency mode. The computational experiments allowed to obtain the distributions of the total velocity vector, temperature fields, concentration fields of CO, NO2 throughout the entire volume of the combustion chamber and conduct a comparative analysis for the two investigated emergency mode (direct-flow and vortex). Based on the results, it can be concluded that in the case of a forced partial stop of the supply of coal dust, the use of the vortex method of supplying air mixtures improves heat and mass transfer processes and allows minimizing emissions of harmful substances. [ABSTRACT FROM AUTHOR]

Published

2020

22. TECHNOLOGICAL FEATURES OF THE USE OF ASH AND SLAG WASTE FOR HIGH QUALITY ASPHALT COATING IN THE ALMATY REGION OF THE REPUBLIC OF KAZAKHSTAN.

Author

DORZHEYEVA, Elena, KANAYEVA, Zylikha, and ATASOY, Emin

Abstract

In this article, I examined how ash can be used as an asphalt coating, the purpose of this article is to preserve the ecological balance and reduce the formation of ash dumps. In the zones where ash dumps are formed, unfavorable ecological situations are manifested due to the large amount of dust formation, as well as the washing out of ash components by sewage, after which the components of the ash fall into the soil, because of this, the mineralization of the groundwater increases and the environment degrades. Using this material will solve the environmental problem through the use of fly ash, but also to reduce the volume of ash dumps, freeing the occupied land for economic needs, from dumps of ash and ash-slag mixture.In this paper, I found out that the use of ash as an asphalt covering will not only reduce the occupied land, but will increase the performance characteristics of the road surface. [ABSTRACT FROM AUTHOR]

Published

2020

23. A General-Purpose Procedure for the Calculation of the Optimum Gas Velocity in Gas Exhaust Ducts of Stacks at Thermal Power Stations.

Author

Zroichikov, N. A., Gribkov, A. M., Saparov, M. I., and Mirsalikhov, K. M.

Abstract

The regulations on stack designs at thermal power stations (TPS) has been analyzed. It is demonstrated that the applicable guidelines do not consider all the actual problems encountered in designing stacks for TPSs, such as optimization of the stack construction cost and its effective operation. The stack cost depends on its height and diameter, which, at a given connected capacity, are affected by the gas velocity in the stack channel. At present, the effective stack design procedures do not contain the notion of this economically feasible, cost-effective index, and the stack diameter is selected based on the engineering-and-cost estimation calculation procedures, which have not been approved as mandatory standards. These procedures are supported by the planning-and-distribution model of the country's economic development. The article announces a universal method developed by the authors for calculating the optimal flue gas velocity for any model of economic development irrespective of the trend in prices and expenditures for the production of goods and services. To calculate the optimal flue gas velocity, one should only input initial data valid at the present stage. The calculated results of the price factors' effect on the optimal flue gas velocity for single-flue and multiple-flue stacks are presented. Verification of the procedure against the initial data as of 1975 yields acceptable results. [ABSTRACT FROM AUTHOR]

Published

2020

24. Energy Optimal Management of Microgrid With High Photovoltaic Penetration

Author

Xiaobin Zhang, Chenxi Huang, and Jia Shen

Subjects

Computer science, business.industry, Energy management, Photovoltaic system, Thermal power station, Environmental pollution, Maintenance engineering, Automotive engineering, Energy storage, Industrial and Manufacturing Engineering, Control and Systems Engineering, Electricity, Microgrid, Electrical and Electronic Engineering, business

Abstract

For microgrid with high photovoltaic penetration, the optimized energy management strategy can not only improve the microgrid benefits effectively, but also ensure the safety and stability of island microgrid. This paper establishes a multi-objective energy optimization model of the microgrid with high photovoltaic penetration based on the photovoltaic operation and maintenance costs, the energy storage system operating life loss, the thermal power environmental pollution and governance costs, the electricity trading from grid, and the fine for controllable load shedding. Then obtain energy optimal management strategy by particle swarm algorithm with inertial weight factor. Finally, the proposed energy optimal management system is verified on a typical microgrid by simulation.

Published

2023

25. Introduction

Author

Chanda, Pradip, Mukhopaddhyay, Suparna, Rashid, Muhammad H, Series editor, Chanda, Pradip, and Mukhopaddhyay, Suparna

Published

2016

26. Electric Power Industry

Author

Govorushko, Sergey and Govorushko, Sergey

Published

2016

27. Groundwater Management Under Global Change: Sustaining Biodiversity, Energy and Food Supplies

Author

Pittock, Jamie, Hussey, Karen, Stone, Andrew, Jakeman, Anthony J., editor, Barreteau, Olivier, editor, Hunt, Randall J., editor, Rinaudo, Jean-Daniel, editor, and Ross, Andrew, editor

Published

2016

28. Burning of methane-oxygen mixture in the environment of overheated steam of atmospheric pressure

Author

Nikolay Alekseevich Pribaturin, Oleg Osherevich Milman, Alexander Romanovich Bogomolov, Sergey Aleksandrovich Shevyrev, and Sergey Seyfudinovich Azikhanov

Subjects

methane-oxygen mixture, burning, steam, steam conversion of methane, thermal power station, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

The relevance of the research is caused by necessity of making highly effective power-generating units on one of the directions, providing working out of a construction of the steam superheater and production engineering of steam overheat up to temperatures above 800 °С of the supercritical pressure before the immediate steam feeding into a turbine. The operation purpose: examination of the influence of enthalpic metering characteristics of a gas mixture (CH4+O2) close to stoichiometric composition, and feebly overheated steam of atmospheric pressure on the temperature of the reacting medium (products of combustion in the environment of steam), and also on qualitative and quantitative composition of a steam-gaseous intermixture over the range of metering characteristics of stable and resistant to burning. Research techniques. The authors used proved measurement techniques of all parameters of process in the automated mode of gathering and processing of the primary information: temperature, pressure, charge, composition of a gas condensed phase. The flowing method of concentration measuring of products in real time mode with a margin error ±5 % was also used. The relevance of the research is caused by necessity of making highly effective power-generating units on one of the directions, providing working out of a construction of the steam superheater and production engineering of steam overheat up to temperatures above 800 °С of the supercritical pressure before the immediate steam feeding into a turbine. The operation purpose: examination of the influence of enthalpic metering characteristics of a gas mixture (CH4+O2) close to stoichiometric composition, and feebly overheated steam of atmospheric pressure on the temperature of the reacting medium (products of combustion in the environment of steam), and also on qualitative and quantitative composition of a steam-gaseous intermixture over the range of metering characteristics of stable and resistant to burning. Research techniques. The authors used proved measurement techniques of all parameters of process in the automated mode of gathering and processing of the primary information: temperature, pressure, charge, composition of a gas condensed phase. The flowing method of concentration measuring of products in real time mode with a margin error ±5 % was also used.

Published

2019

29. An Economic Approach to Water Scarcity

Author

Massarutto, Antonio, Antonelli, Marta, editor, and Greco, Francesca, editor

Published

2015

30. Performance Analysis of BTPS (NTPC) Thermal Power Plant

Author

Tiwari, Naveen, Gautam, Ashraya, Sarkar, Ranadeep, and Vinay

Published

2016

31. Guaranteeing the thermal and drinking water stations to operate under low Nile levels condition.

Author

Eshra, Nadia M.

Subjects

GEOTHERMAL resources, DRINKING water, STEAM power plants, WATER power, GEOGRAPHIC information systems

Abstract

The paper proposes the procedures for thermal and drinking water stations to operate under different conditions of low water levels. Thermal power stations are constructed near water sources to use water for the operation and cooling of steam turbines, as well as cooling only in other types of turbines; gas and combined. Drinking water stations are distributed along the Nile River from Aswan to Delta in different capacities of operation. Hydrodynamic (1-D) model is applied to estimate the Nile levels corresponding to the minimum flow. The water level is estimated for different cross-sections along the reach with an interval of 10 km. The cross-sections are extracted using a geographic information system from contour maps. An equation is created to specify the amount of required water for thermal power stations. Four alternative solutions are introduced for ensuring the operation of each station and recommendations are suggested for different solutions if required. [ABSTRACT FROM AUTHOR]

Published

2020

32. From Rio to Paris via Kyoto: How the Efforts to Protect the Global Climate Affect the World Energy Development.

Author

Klimenko, V. V., Klimenko, A. V., and Tereshin, A. G.

Abstract

The aims of this work are to analyze the changes in the world power industry during the time after the adoption of the United Nations Framework Convention on Climate Change of 1992 and to assess the extent to which the commitments of the Kyoto Protocol of 1997 have been met and evaluate the prospects of implementing the tasks of the Paris Agreement of 2015. Based on data on the production and consumption of various kinds of energy and the emissions of greenhouse gases, primarily carbon dioxide, in 1990–2017, changes in the structure of the global energy consumption, trends in electric power generation, and the influence of different factors on the carbon dioxide emissions in power-generating enterprises are investigated. It is shown that the power industry, which is the main source of anthropogenic greenhouse gases (GHGs), is the most inertial branch of the economy in terms of its contribution to the reduction in GHG emissions. Thus, in the first 2008–2012 commitment period of the Kyoto Protocol, GHG emissions in the state parties to the protocol decreased by 7.6% compared the base year, while other GHG sources reduced the emission by 18%. The corresponding figures for the following 2013–2017 commitment period were 10.6 and 17.1%, respectively. The maximum reduction in the carbon dioxide emissions in the power industry resulted from an increase in the global average efficiency of the thermal power stations from 32% in 1990 to 36% in 2017; as a consequence, the cumulative decrease in the CO2 emissions in the world during the 1990–2017 period was approximately 22 billion t. The increase in the electric power generation at HPPs and NPPs resulted in a reduction in GHG emissions by 16.7 and 10.7 billion t, respectively. The substitution of coal and fuel oil by gas at thermal power stations facilitated reducing the emissions by 5.2 billion t, while the use of renewable energy sources for generation of electric energy resulted in a reduction of 1.1 billion t. The contribution of the carbon capture and storage technologies amounting to only 0.2 billion t is not noticeable so far. [ABSTRACT FROM AUTHOR]

Published

2019

33. Energy, exergy, exergoeconomic, and environmental analyses and multi-objective optimization of a biomass-to-energy integrated thermal power plant

Author

Meitao Wang, Fan He, Dariush Heydarian, Xiaoyu Liu, and Shuang Zhou

Subjects

Exergy, Municipal solid waste, Stirling engine, Wood gas generator, business.industry, General Engineering, Biomass, Thermal power station, Biomass-driven cogeneration, Engineering (General). Civil engineering (General), law.invention, Multi-objective optimization, Cogeneration, law, Supercritical carbon dioxide cycle, Exergy efficiency, Environmental science, Exergoeconomic analysis, TA1-2040, Process engineering, business

Abstract

A novel biomass-driven heat and power cogeneration system comprising biomass gasification, a gas turbine, a Stirling engine, and a supercritical carbon dioxide cycle integrated with a domestic water heater was proposed in this work. Different biomass feedstocks (paper, wood, paddy husk, and municipal solid waste) were used in the gasifier as the input fuel. The devised system was analyzed from energy, exergy, exergoeconomic, and environmental viewpoints. Moreover, the effect of integrating the Stirling engine with the stand-alone CHP system is studied. Moreover, a detailed parametric analysis was performed to assess the effect of varying operating parameters on system efficiency. Finally, multi-objective optimization using genetic algorithm in MATLAB software was performed to obtain the optimum operating points. According to the results, using municipal solid waste as the input biomass resulted in the highest exergy efficiency by 41.36 % and the lowest C O 2 emission by 0.9021 t / M W h . Also, the system with the Stirling engine had a higher exergy efficiency and lower C O 2 emission than the system without the Stirling engine. According to the optimization results, the maximum obtainable exergy efficiency was 42.03 % , which was related to MSW. Also, the minimum achievable c p , t o t was 10.94 $ / G J , attributable to the respective paddy husk.

Published

2022

34. Discharge water temperature assessment of thermal power plant using remote sensing techniques

Author

Priyom Roy, Ivaturi N. Rao, Tapas R. Martha, and K. Vinod Kumar

Subjects

geography, Sea surface temperature, geography.geographical_feature_category, Electricity generation, Water cooling, Environmental science, Thermal power station, Seawater, Outflow, Atmospheric sciences, Inlet, Thermal pollution

Abstract

Thermal power plants are generally constructed near to sea coast to meet their requirement of cooling water. The warm water discharge from the thermal power plant is one of the major environmental concerns in view of the thermal pollution in the sea water. The temperature limit for the warm water discharge from the thermal power plant has to be monitored and controlled. Coastal Gujarat Power Limited (CGPL) operates (24 × 7) at an “once-through system” based sea water circulation for power generation. The used sea water is then discharged into the sea through an outlet channel. As per environmental norms, the discharge water temperature needs to be maintained below the stipulated “delta” rise (+7 °C) with respect to ambient sea surface temperature at the inlet. We demonstrate the applicability of thermal remote sensing data in understanding the seasonal and temporal variations of the temperature difference between the discharge water and the ambient sea water. We used thermal band data from Landsat-8 satellite imagery to map water surface temperature and create temperature profiles along the intake and outflow channels (till the sea), to understand the variation of temperature and estimate the “ΔT” between intake point and various observation points along the outflow. This analysis was carried out for all 11 months (except June) of the year 2018 to correlate temperature variations with seasonal changes. Tidal conditions during the time of data acquisition were also considered to account for the effect of tides on ΔT. The result shows that the average temperature rise between intake and outflow are maintained at ∼3 °C across all the months of 2018, with minor variations in the months of July and August. Further, average temperature drop from outflow to cooling channel (before diaphragm) is seen to be ∼2 °C across all the months with similar seasonal fluctuations.

Published

2022

35. INVASION OF ZEBRA MUSSEL DREISSENA POLYMORPHA PALLAS,1771) INTO THE COOLING SYSTEM WATER SUPPLY OF AL-MUSAYAB THERMAL POWER PLANT / IRAQ

Author

H.J.J. Jaweir, T.R. Al-Rawi, and N.A. Al-Nakeeb

Subjects

biology, business.industry, Zebra mussel, Environmental engineering, Water cooling, Water supply, Environmental science, Thermal power station, General Medicine, biology.organism_classification, business, Dreissena

Abstract

Zebra mussels Dreissena polymorpha are tiny bivalve mollusca , invade water supply of cooling system unit in Al- Musayab power plant, 60 km south-west Baghdad and grow to dense clusters. Its ability to rapidly colonize intake structures, such as pipes and screens causing reduction in water pumping capabilities .Some biological aspects of zebra mussel Dreissena polymorpha have been studied and some physical & chemical parameters were examined as alimenting factors for the species Samples collecting was done monthly from two sites within the water system , the first was the traveling band screen (TBS ) and the other site was small canal collecting excess water passing from TBS .Biological studies revealed that the samples collected from the canal includes five size groups with average length of 5.7 ; 11.3 ; 16.7 ; 21.9 & 27.3 mm. In TBS , the individuals found all over the year with highest number of 135 individuals recorded in August . Individuals of a length of 11.3 & 16.7mm were the dominant.In general, from total number of 799 individuals collected from TBS, 388 individuals were of size of 11.3mm and 239 individual were of size 16.7mm while no large specimens of large size group of 27.3mm were recorded in TBS.To study the settlement rate of larvae, several concreat tiles of (25X25cm) were suspended at depths of 2,4& 6 m. in the sedimentation pond (12m depth). The number of juveniles were counted monthly . The result showed that there were two peaks of settlement , one in June and the other in September and October .Depth of 6m was the most suitable for settlement.The average length of settled juveniles ranged between 3.5-6.1mm. Water temperature in the site ranged between 11-32o C , Dissolved oxygen was 4.8-8.3ml/L . The highest value of turbidity was 49NTU.Ca++ was 68-136mg/l and Mg++ was 34- 72mg/l

Published

2022

36. Toward a Web-Based Digital Twin Thermal Power Plant

Author

Wenshan Hu, Zhongcheng Lei, Shiqi Guan, Guo-Ping Liu, Xingle Feng, and Hong Zhou

Subjects

Power station, Process (engineering), Computer science, business.industry, Control (management), Thermal power station, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Computer Science Applications, Visualization, Control and Systems Engineering, Control system, Hardware_INTEGRATEDCIRCUITS, Systems engineering, Web application, Electrical and Electronic Engineering, Architecture, business, Information Systems

Abstract

As a crucial part of cyber-physical systems, a digital twin can process data, visualize processes and send commands to the control system, which can be used for the research on thermal power plants that are vital for providing energy for manufacturing and industry, and also daily consumptions. This paper introduces the methodologies and techniques towards a web-based digital twin thermal power plant. To implement a web-based digital twin thermal power plant, the architecture, modeling, control algorithm, rule model and physical-digital twin control are explored. The potential functionalities of the web-based digital twin including real-time monitoring, visualization and interactions, and provided services for physical thermal plants and universities are also presented. A case study has been provided to illustrate the web-based digital twin power plant. The research in this paper can provide potential solutions for web-based digital twin research and education.

Published

2022

37. Examination of combustion characteristics of oxygen enriched synthetic gases mixtures at various acoustic frequencies

Author

Buğrahan Alabaş, Murat Taştan, Ilker Yilmaz, and Güven Tunç

Subjects

Hydrogen, Oxygen deficient, Renewable Energy, Sustainability and the Environment, Analytical chemistry, Energy Engineering and Power Technology, Thermal power station, chemistry.chemical_element, Condensed Matter Physics, Combustion, Oxygen, Fuel Technology, chemistry, Limiting oxygen concentration, NOx, Syngas

Abstract

ABS TRACT Synthetic gases attract the attention of researchers due to the increase in energy demand. H2 and CO gases are the main components of synthetic gases. In this study, three different gas mixtures were tested according to their H2/CO (3, 1.5, 0.5) ratios. Thermal power (3 kW), swirl number (1) and equivalence ratio (0.7) kept constants for all experiments. Three different oxygen ratios selected for the oxygen enrichment experiments. First, the gas mixture was burned with standard air. After that, the oxygen concentration in the oxidizer was raised to 23 % and 25 % for examining the effect of oxygen enrichment. The stability results showed that an increase of hydrogen content in the synthetic gas mixtures caused decreasing in the oxygen enrichment limit. The mixture, which can be enriched up to 25.8 % O2 while the H2/CO ratios are 0.5, can be increased up to 25.2 % O2 at a medium H2/ CO ratio (1.5). In the case where the H2/CO ratio was increased to the high level (3) by increasing the hydrogen level, the oxygen enrichment limit decreased to 24.1 %. A stable flame did not occur after these oxygen enrichment values. In addition, dynamic pressure data were recorded for all mixtures under external acoustic enforcement. Increases in the hydrogen and oxygen ratio at the same time caused the flame instabilities. Thus, the flame extinguished under acoustic enforcement. In addition to these results mentioned, the emission values showed that oxygen enrichment caused the decrease in CO emissions but the increase of NOx values for all synthetic gas mixtures.(c) 2021 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.

Published

2022

38. The Effect of Structure on Thermal Power of Cast-iron Heat Exchangers

Author

Marek Mróz, M. Kawiński, Antoni W Orłowicz, Mirosław Tupaj, M. Radoń, and M. Jacek-Burek

Subjects

Materials science, Metallurgy, Heat exchanger, Metals and Alloys, engineering, Thermal power station, Cast iron, engineering.material, Industrial and Manufacturing Engineering

Published

2023

39. Lightning protection for power transformers of Aqaba Thermal Power Station

Author

Mohammad Ibrahim Alsharari, Shehab Abdulwadood Ali, and Wael Abu Shehab

Subjects

business.industry, General Engineering, Electrical engineering, Thermal power station, metal oxide varistor mov, Lightning, emtp-atp program, basic insulation level bil, lightning arrester la, Environmental science, lcsh:Electrical engineering. Electronics. Nuclear engineering, lightning, business, lcsh:TK1-9971

Abstract

In this paper, a study of the lightning phenomenon and its harmful effect on Aqaba Thermal Power Station (ATPS), located in the south-western border of Jordan, is presented using the Electromagnetic Transients Program – Alternative Transients Program (EMTP- ATP). This study has been arisen due to an installation need of appropriate lightning arresters (LAs) for the 15/410 kV step-up transformers of the ATPS to eliminate the destructive effect of lightning. The simulation is carried out for two cases, once without using LAs and once more with using them. Two scenarios are applied for each of these cases, once when lightning strikes the primary side of the transformer and once more when it strikes the secondary side. The results obtained by the simulation indicate the necessity of LAs installation. This study, with using the EMTP-ATP program, is done for the first time with additional details that help researchers, designers, and engineers to get a broad overview of the ATPS in order to protect it against lightning.

Published

2023

40. Optimal Shape Design of Wastewater Canals in a Thermal Power Station

Author

Martínez, Aurea, Alvarez-Vázquez, Lino J., Rodríguez, Carmen, Vázquez-Méndez, Miguel E., Vilar, Miguel A., Capasso, Vincenzo, Editor-in-chief, Bonilla, Luis L., Series editor, Günther, Michael, Series editor, Mattheij, Robert M.M., Series editor, Neunzert, H, Series editor, Scherzer, Otmar, Series editor, Schilders, Wil, Series editor, Fontes, Magnus, editor, and Marheineke, Nicole, editor

Published

2014

41. Replacement of Electric Arcs with High Power Oxy-Gas Burners

Author

Toulouevski, Yuri N., Zinurov, Ilyaz Y., Toulouevski, Yuri N., and Zinurov, Ilyaz Y.

Published

2013

42. A short review on the performance of high velocity oxy-fuel coatings in boiler steel applications

Author

Harminder Singh Saggu, Jai Parkash, and Hitesh Vasudev

Subjects

Surface coating, Materials science, business.industry, Metallurgy, Boiler (power generation), Thermal power station, Coal, Surface engineering, Thermal spraying, Combustion, business, Corrosion

Abstract

A major part of the electric power is generated in coal operated thermal power plants which is operated by low rank fuel. During the operation of boilers with the high temperature combustion of low ranked fuel, few salt films are produced due to the presence of ash and abrasive minerals. This action produces the serious corrosion on the surface of boiler plates which is recognised as hot corrosion. A surface engineering method is used to encounter such problem in order to avoid repair and damage or economic loss such as high velocity oxy-fuel [HVOF] sprayed coatings. Various surface coating methods are being adopted for this purpose. Moreover, post heat treatment processes are also added in terms to retain the long period of surface coating.

Published

2022

43. A comprehensive review on compound heat transfer enhancement using passive techniques in a heat exchanger

Author

Sukanta Roy, Rajamohan Ganesan, C. Rajesh Babu, and Pardeep Kumar

Subjects

Materials science, Electromagnetic coil, Heat transfer enhancement, Heat exchanger, Heat transfer, Mechanical engineering, Thermal power station, Laminar flow, Heat transfer coefficient, Efficient energy use

Abstract

The heat transfer is a very interesting field for efficient, useful, eco-friendly reasons. The economic & environmental factors demand that we get the maximum possible efficiencies from thermal power plants possible only by making more efficient heat exchangers. Increasing the effectiveness of new and existing heat exchangers is a typical criterion of engineers involved with the design of heat exchangers. Augmenting process plant efficiency and finding new ways to reduce energy requirements is always an important design priority. Therefore, the heat transfer augmentation plays a substantial role in improving energy efficiency and development of high-performance thermal systems. The heat transfer augmentation techniques are classified as passive, active and compound techniques. The current article presents an extensive review of experimental and numerical studies on passive compound heat transfer augmentation techniques (PCHTAT), combining two or more of the current techniques can be employed all together to produce an enhancement larger than that produced by using only one augmentation. The compound technique arrangement are (i.e. helical-ribbed tube with double twisted tape inserts, Dimpled tube fitted with a twisted tape swirl generator, non-uniform wire coil, and twisted tape inserts. etc.) which covers the laminar and turbulent flow regions. Interactions between different enhancement methods will increase the overall heat transfer coefficient of the thermal systems than that produced by using only one augmentation technique.

Published

2022

44. A review on recent development of nanofluid utilization in shell & tube heat exchanger for saving of energy

Author

Harshita Verma, Sanjeev Kumar Gupta, and Neha Yadav

Subjects

Materials science, Nanofluid, business.industry, Nuclear engineering, Fossil fuel, Heat transfer, Heat exchanger, Shell (structure), Thermal power station, Tube (fluid conveyance), business, Renewable energy

Abstract

The principal goal of this paper is to provide a generic review of the utilization of nanofluid in shell & tube heat exchangers for energy-saving. Shell & tube heat exchanger is used in many industries like the aviation industry, renewable energy, heating and cooling of electronic equipment, oil and gas industries, automotive industries, thermal power plant, etc because of its smaller area and high heat transfer rate. The utilization of nanofluid in such equipment increases heat transfer rate very rapidly due to better thermophysical properties as compared to other fluids. In this research article, first, a brief introduction of shell & tube heat exchanger is provided after that nanofluid, properties of nanofluid and preparation of nanofluid are presented and then utilization of different nanofluid in shell & tube heat exchanger has been examined. This paper also provides the comparative results of utilization of different nanofluids in shell & tube heat exchangers. Finally, it is found that nanofluids enhance the heat transfer rate, reduces the size of the heat exchanger, and ultimately saving energy.

Published

2022

45. Characterization of D-gun sprayed Al2O3-13%TiO2 and Al2O3-40%TiO2 coatings on ASTM 316 boiler steel and their microstructure

Author

Gurbhinder Singh Brar, Shehbaaz Singh Brar, and Vikas Chawla

Subjects

Boiler tube, Materials science, Coating, Metallurgy, Boiler (power generation), engineering, Thermal power station, engineering.material, Microstructure, Porosity, Thermal spraying, Characterization (materials science)

Abstract

Coating by thermal spray method has proved to be the widely used and most economic way for developing coatings on various different materials in order for achieving all the needed material characteristics. Protective Coatings are most broadly and preferably produced and experimentally tested for various industrial areas namely automobile industry, thermal power plants etc. D-gun sprayed coating method can really be considered as unique coating method well known for producing coatings with very dense microstructure, low porosity, stronger and Erosion-corrosion resistant coatings. In this present study work Al2O3-13%TiO2 and Al2O3-40%TiO2 Coatings were deposited over ASTM 316 Boiler tube Steel with D-Gun spraying method. Various different methods namely X-Ray diffraction (XRD), SEM and X-Ray Mapping were used to characterize both the above mentioned coatings. After the investigation it was found that both of these coatings which we wanted to establish have been successfully established.

Published

2022

46. Effect of alloying elements on the dry sliding wear behavior of high chromium white cast iron and Ni-hard iron

Author

D. Kaushik, R. Markandeya, B. Srinivasa Rao, A.N. Sudhakar, and Ajoy Kumar Pandey

Subjects

Materials science, business.industry, Metallurgy, technology, industry, and agriculture, chemistry.chemical_element, Thermal power station, engineering.material, equipment and supplies, Carbide, Grinding, Chromium, chemistry, Service life, engineering, Coal, Cast iron, business, Sliding wear

Abstract

High chromium white cast iron (HCCI) is used in the grinding rolls of pulverizers of the thermal power plants for crushing coal into fine particles. Currently, there is a sharp depletion of high grade coal, thereby, increasing the need for utilization of coal with higher mineral content. This usage of high mineral coal poses a problem of enhancing the wear rate of grinding media. This increases the demand for development of materials which pulverize coal to have longer service life. The present work provides insight into the effect of alloying additions of V, Ti and B to HCCI on the dry sliding wear behavior. Dry sliding wear behavior was studied using pin on disc method with speeds of 159 RPM, 319 RPM, 478 RPM under different load conditions of 10 N, 20 N and 30 N. Some of the alloys have higher coefficient of friction and exhibit higher wear rate while others have lubricating effect and exhibit lower wear rate. The medium speed of 319 RPM and 30 N load exerts the maximum wear rate on most of the alloys. This work also provides comparison of the wear resistance offered due to alloying additions to HCCI with Ni-hard iron. The role of secondary carbides in enhancing wear resistance is also discussed.

Published

2022

47. Catalytic device for environmentally friendly combustion of liquid fuels on the base of structured glass-fiber catalyst

Author

Andrey N Zagoruiko, Sergey Lopatin, and Andrey Elyshev

Subjects

Materials science, business.industry, Thermal power station, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Combustion, 01 natural sciences, Environmentally friendly, Catalysis, 0104 chemical sciences, Diesel fuel, Catalytic oxidation, Fuel efficiency, Combustor, 0210 nano-technology, Process engineering, business

Abstract

The article presents the results of the development and testing of a prototype device for the combustion of liquid fuels and the disposal of liquid toxic waste based on structured microfiber catalysts. The technology is based on a two-stage approach combining homogeneous and catalytic oxidation, which is carried out in a structured spiral cartridge with a modified glass fiber platinum-containing catalyst IC-12-S111. A prototype of a catalytic device with a thermal power of 18 kW was created and tested on a model fuel (diesel fuel). The optimal combustion mode is realized at a fuel consumption of 1.8 L/h, an air flow supplied to the burner - 12.3 st.m3/h and to the mixing zone in front of the catalytic block - 67 st.m3/h. At the same time, the air leaving the device contains practically no toxic impurities (CO, nitrogen and sulfur oxides). An important advantage of the proposed technology is its modularity, that is, the possibility of implementation in the form of low-power mobile devices, from which it is possible to form transportable and quickly deployable systems of any total capacity and a wide range of purposes.

Published

2022

48. Explore the possible advantages of using thorium-based fuel in a pressurized water reactor (PWR) Part 1: Neutronic analysis

Author

Mohamed Y.M. Mohsen, Naima Amrani, and A. Abdelghafar Galahom

Subjects

Materials science, Control rod, Nuclear engineering, Pressurized water reactor, TK9001-9401, Thermal power station, chemistry.chemical_element, Actinide, Fission products, Neutron temperature, law.invention, Plutonium, Er2O3, Nuclear Energy and Engineering, chemistry, law, Gd2O3, Thermal power, Nuclear engineering. Atomic power, Delayed neutron, Thorium-based fuels, Burnup

Abstract

This study discusses the effect of using 232Th instead of 238U on the neutronic characteristics and the main operating parameters of the pressurized water reactor (PWR). MCNPX version 2.7 was used to compare the neutronic characteristics of UO2 with (Th, 235U)O2 and (Th, 233U) O2. Firstly, the infinity multiplication factor (Kinf), thermal neutron flux, and power distribution have been studied for the investigated fuel types. Secondly, the effect of Gd2O3 and Er2O3 on the Kinf and on the radial thermal neutron flux and thermal power has been investigated to distinguish which of them is more suitable than the other in reactivity management. Thirdly, to illustrate the effectiveness of 232Th in decreasing the inventory of both the actinides and non-actinides, the concentration of plutonium (Pu) isotopes and minor actinides (MAs) has been simulated with the fuel burnup. Besides, due to their large thermal neutron absorption cross-section, the concentrations of 135Xe, 149Sm, and 151Sm with the fuel burnup have been investigated. Finally, the main safety parameters such as the reactivity worth of the control rods (ρCR), the effective delayed neutron fraction βeff, and the Doppler reactivity coefficient (DRC) were calculated to determine to which extent these fuel types achieve the acceptable limits.

Published

2022

49. Improving design and operating parameters of the recuperator for waste heat recovery from rotary kilns

Author

Miloš Nikolić, Nenad P. Stojić, Rade Karamarković, and Miodrag V. Karamarković

Subjects

model, Renewable Energy, Sustainability and the Environment, Kiln, Nuclear engineering, Airflow, design, Thermal power station, recuperator, law.invention, Waste heat recovery unit, law, Heat transfer, Heat exchanger, rotary kiln, heat transfer, TJ1-1570, Environmental science, Recuperator, Mechanical engineering and machinery, heat exchanger, cfd, Rotary kiln, energy efficiency

Abstract

Depending on their applications, heat losses from the shells of rotary kilns account for 3 to 25% of the total heat input. Over the hottest zone of the kiln shell, an annular duct with a variable diameter is formed. Two air streams entering the annulus at both ends flow to a common extraction point to receive the thermal power equal to the ambient heat loss of the bare kiln. The design does not require airtightness, utilizes the entire heat loss, and by the variation of the airflow can be used over the kilns with variable operating parameters (±20% heat loss), which show similar surface temperature patterns. The main disadvantage of the design is the approaching of the surfaces of the kiln and the recuperator at the outlet of preheated air. This means that for a given heat loss and a surface temperature pattern, the rotational eccentricity of the kiln shell is the most influencing parameter that defines the air preheating temperature and the efficiency of the recuperator. To solve the problem, 4 redesigns with: (i) double annuluses, (ii) the usage of radiation fins, (iii) air addition, and (iv) a combination of two basic designs are analyzed by the use of analytical and CFD models. From the listed redesigns: (i) could be used only to prevent overheating, (ii) has a modest positive effect, (iii) should be applied in combination with (iv).

Published

2022

50. A nonlinear control approach for hybrid solar thermal plants based on operational conditions

Author

Juan D. Gil, Igor M. L. Pataro, Marcus V. Americano da Costa, José Luis Guzmán, and Manuel Berenguel

Subjects

Nonlinear system, Renewable Energy, Sustainability and the Environment, Control theory, Computer science, Thermal, Process (computing), Thermal power station, Process control, Nonlinear control, Field (computer science)

Abstract

Solar thermal plants are commonly constituted of different subsystems, such as the solar collector field, accumulation tanks, and gas heaters, to enhance plant performance. Nevertheless, from a process control perspective, the changes in the subsystem's configuration can cause interactions and compromise the controller performance. Therefore, this work proposes a hybrid practical nonlinear predictive control for a solar thermal plant facility, aiming to improve the plant operation performance by considering mixed-logical dynamic models and including the process constraints as linear mixed-integer inequalities in a single control layer. The proposed strategy is compared with the conventional practical nonlinear control with an external decision-maker. Both frameworks are simulated under actual process circumstances using real meteorological data and validated hybrid models of the CIESOL facility (Spain). This paper makes relevant contributions in some aspects. From the control framework perspective, a new formulation of the hybrid control algorithm simplifies the control structure, excluding the decision-maker structure from its task. Moreover, the present study considers variations in load demand, a novel and significant contribution. The results demonstrate that the hybrid nonlinear controller performs better than the conventional approach, with a reference tracking error index approximately 35% lower in a sunny day scenario.

Published

2022