Showing total 1,903 results

1. STERILE PAPER-PLASTIC BARRIER SYSTEM FOR PRESSURE STERILIZATION.

Author

Yao SHEN, Baohua LI, Zhuoya YAO, Yingjie HOU, Xiangang LI, Shanchao ZUO, Xi LU, and Suinan LI

Subjects

MEDICAL equipment, CLINICAL medicine

Abstract

The sterile paper-plastic barrier system for packaging sterilized medical equipment is studied, the main factors affecting its breakdown are revealed, and the inhalation rate during the pressure sterilization is experimentally analyzed. The results offer a new window of opportunity for a stricter risk-analysis and a robust strategy for the pressure sterilization, and this paper can be served as an example of strict clinical applications. [ABSTRACT FROM AUTHOR]

Published

2024

2. SUSTAINABLE DUAL-BAND MICROSTRIP PATCH ANTENNA WITH PAPER-BASED SUBSTRATE AND ALUMINUM FOR MULTIPOINT DISTRIBUTION SYSTEMS AND WiMAX APPLICATION.

Author

DOGUSGEN ERBAS, Cihan

Subjects

*IEEE 802.16 (Standard), *WIRELESS LANs, *MICROSTRIP antennas, *MULTIFREQUENCY antennas, *MICROSTRIP transmission lines, *ANTENNA design, *ALUMINUM, *ANTENNAS (Electronics)

Abstract

In this study, a microstrip patch antenna design with a U-shaped patch and a paper-based substrate is presented. Metallic parts such as the patch, ground plane and microstrip line feed are designed in aluminum. Utilization of recyclable paper and aluminum yields a sustainable and environmentally friendly design. The dual-band antenna operates between 1.950-2.125 GHz and 2.650-2.825 GHz with a bandwidth of 0.175 GHz for both frequency ranges. It is suitable for multipoint distribution systems (2.076-2.111 GHz) and WiMAX application (2.700--2.800 GHz). Monopolar radiation patterns are obtained for the operation frequencies of both frequency ranges. Maximum gain values are 5.009 dBi and 5.413 dBi for the operation frequencies of multipoint distribution systems and WiMAX application, respectively. While the antenna can be used indoors and outdoors, radome design is not considered in the structure. No parasitic elements or slots are included in the antenna. All simulations are carried out by using ANSYS HFSS software package. [ABSTRACT FROM AUTHOR]

Published

2022

3. THERMAL SCIENCE JOURNAL: Foundation, History of Development, and Scientific Contribution.

Author

OKA, Simeon

Subjects

ELECTRONIC journals, SCIENCE education, SCIENTIFIC knowledge, ENGLISH-speaking countries, HOME economics, ELECTRIC utilities

Abstract

The article discusses the establishment and evolution of the periodical, highlighting its role in promoting scientific research from Serbia and its commitment to quality and accessibility. Topics discussed include the historical context leading to the journal's foundation, the importance of international scientific collaboration, and the journal's dedication to open access and rigorous peer review.

Published

2024

4. SYNTHESIS OF SYNGAS FROM MUNICIPAL SOLID WASTE IN A FLUIDIZED BED GASIFIER.

Author

ALI, Mujahid, MAHMOOD, Faisal, MBEUGANG, Christian Fabrice MAGOUA, KUMAR, Sunel, Jiazhen TANG, and Bin LI

Subjects

FLUIDIZED bed gasifiers, BIOMASS gasification, SOLID waste, SYNTHESIS gas, WOOD, SUPERCRITICAL water

Abstract

In this study, three representative materials, wood, paper, and cloth from municipal solid waste, were studied separately in an atmospheric fluidized bed gasifier. The effects of different feedstock, equivalence ratio, gasification temperature, and calcium carbonate presence on syngas composition, the lower heating value, and carbon conversion efficiency were investigated at different operating temperatures (800-950 °C), and the equivalence ratio range from 0.2 and 0.5. As the equivalence ratio increased, the yields of syngas and its lower heating value decreased, whereas the CO2 yield and carbon conversion efficiency increased generally from wood gasification. Higher gasification temperature favored enhancing the CO and H2 yield and lowering the CO2 yield while the lower heating value and carbon conversion efficiency of syngas increased. Different variations of CO2 yield and the lower heating value of syngas were observed in different feedstock gasification. CaCO3 was more supportive for enhancing the yields of syngas components (H2, CO, and CH4) and lowering the CO2 yield, while a lower heating value of syngas was also increased from different feedstock gasification. However, an optimum temperature of 900 °C was the highest lower heating value of syngas, reaching 8000 kJ/Nm3 from wood gasification. [ABSTRACT FROM AUTHOR]

Published

2024

5. NEW PERSPECTIVE TO DISEASE AND INSECT INFECTION MODEL.

Author

Qing ZHU and Chun-Fu WEI

Subjects

INSECT diseases, FOREST insects, DIFFERENTIAL equations, INFECTION, PESTS

Abstract

The main purpose of this paper is to study a class of forest disease and insect infection models with time delay. The exact solutions are successfully obtained by using the homotopy perturbation method. [ABSTRACT FROM AUTHOR]

Published

2024

6. ICMAACS, QIN-JIU-SHAO PRIZE AND YANG-HUI AWARD.

Author

Xiao-Jun YANG

Subjects

CHINESE remainder theorem, AWARD presentations, AWARD winners, QUANTUM optics, HISTORY of science

Abstract

The article provides an overview of the International Conference on Mathematical Analysis, Applications and Computational Simulation (ICMAACS) and the awards presented at the conference. It mentions the Qin-Jiu-Shao Prize, which recognizes mathematicians who have made significant contributions to the field, and the Yang-Hui Award, which honors mathematicians for their internationally outstanding works. The ICMAACS Best Paper Presentation Award is also discussed, which is given to mathematicians and scientists who present their research at the conference. The document serves as an introduction to a scientific paper published in the journal THERMAL SCIENCE by the Vinča Institute of Nuclear Sciences in Belgrade, Serbia. It includes references to a mathematics encyclopedia and various web links related to the ICMAACS conference. The paper is available as an open access article under the CC BY-NC-ND 4.0 terms and conditions. [Extracted from the article]

Published

2024

7. STUDY ON THE EFFECT OF WIDTH AND SLOPE OF LARGE CROSS-SECTION TUNNEL ON CRITICAL VELOCITY OF FIRE.

Author

Su LIU

Subjects

TUNNEL ventilation, CRITICAL velocity, SMOKE prevention, SMOKE, SMOKING prevention, WIND speed, SIMULATION software

Abstract

When a tunnel fire occurs, due to the difference of tunnel width and slope, both smoke countercurrent length distribution law and critical velocity will become different, and these two are very important parameters in tunnel longitudinal ventilation design. Therefore, for the design of smoke control and longitudinal ventilation of the tunnel, based on actual highway tunnel size, this paper established and ran a series of numerical simulations through FDS simulation software to study tunnel width and slope's effect on smoke countercurrent length and critical velocity. The results of this paper show that smoke countercurrent length decreases with tunnel slope's increase and increases with tunnel width's increase. Through dimensionless analysis, the prediction formulas of smoke countercurrent length and critical wind speed of large cross-section tunnel about tunnel width, slope and height are modified and established. The research conclusions can provide a theoretical basis for the longitudinal ventilation design, smoke prevention and exhaust measures and personnel evacuation in large cross-section tunnel fires. [ABSTRACT FROM AUTHOR]

Published

2024

8. A NEW METHOD FOR EVALUATING FRACABILITY OF SHALE RESERVOIRS.

Author

Jing-Yang CHEN, Liang-Bin DOU, Zhong-Chen XI, Hai-bo LI, Ting WANG, and Xue-Bin CHENG

Subjects

FRACTURE toughness, SHALE, DATA logging, RESERVOIR rocks, MINERALS, BRITTLENESS

Abstract

In this paper, the reservoir brittleness index is determined by mineral composition and content ratio of shale reservoir, and the cementation degree of rock in different reservoirs is predicted based on spontaneous potential and natural gamma logging, and combined with the fracture toughness characteristics of rock mechanics, a new evaluation and prediction method for fracturing ability of shale reservoir is established, which integrates rock mineral composition, cementation degree and fracture toughness of rock. This model can be used to obtain quantitative characterization of fracturing ability in laboratory and field through laboratory test or field logging data. The fracability model established in this paper has been applied and analyzed in typical shale Wells and the evaluation results are consistent with the productivity monitoring data after fracturing, which verifies the accuracy of the model established in this paper. [ABSTRACT FROM AUTHOR]

Published

2024

9. EFFECT OF RESERVOIR PROPERTIES ON THE PERFORMANCE OF OIL SHALE IN-SITU PYROLYSIS USING SUPERCRITICAL CO2 IN FRACTURED RESERVOIR.

Author

Bin WANG, Rui WANG, Yi-Wei WANG, Jianzheng SU, Xu ZHANG, and Haizhu WANG

Subjects

SHALE oils, HEAT transfer, PERMEABILITY, POROSITY, PYROLYSIS

Abstract

This study conducted simulations to investigate the heat transfer dynamics of supercritical CO2 as a thermal carrier within oil shale formations. The paper aimed to elucidate the impact of formation physical properties on the pyrolysis efficiency of oil shale. The findings from the simulations indicate that porosity minimally affects the thermal sweep but is directly correlated with the heating pore area. Meanwhile, permeability significantly influences both porosity and the extent of pyrolysis sweep, suggesting the preferential selection of formations characterized by high initial porosity and permeability wherever feasible. [ABSTRACT FROM AUTHOR]

Published

2024

10. A METHOD FOR LOGGING DATA RECONSTRUCTION BASED ON TRANSFER LEARNING.

Author

Yuxuan ZHAO, Yong GUO, Hao CHEN, Lei YANG, Chuanming XI, and Yuqiang XU

Subjects

DATA logging, GENERALIZATION

Abstract

This paper proposes a logging data reconstruction method based on migration learning, which can reduce the dependence on labeled data and also help to improve the generalization ability of data-driven models. Reconstruction experiments are carried out using data from a block in the Junggar Basin of Xinjiang, and compared with the conventional data-driven long short-term memory network and recurrent neural network methods. The results show that the reconstruction results based on migration learning improve the accuracy by 21%, which is significantly better than the remaining two methods, and proves the feasibility of the method. [ABSTRACT FROM AUTHOR]

Published

2024

11. TWO-DIMENSIONAL HEAT TRANSFER WITH MEMORY PROPERTY IN A FRACTAL SPACE.

Author

Jiang-Jun LIU

Subjects

HEAT transfer, CAPUTO fractional derivatives, FRACTALS, POROUS materials, THERMAL conductivity

Abstract

This paper considers a temperature-dependent thermal conductivity with memory property in a fractal space. The two-scale fractal derivative is adopted to model the temperature field in the spatial dimensions, and Caputo fractional derivative is used to describe its memory property. The variational iteration method is employed to solve the mixed model with great success. This paper offers a new window for studying intractable problems arising in porous media or unsmooth boundaries. [ABSTRACT FROM AUTHOR]

Published

2024

12. BIVARIATE AND TWO-PHASE DEGRADATION MODELING AND RELIABILITY ANALYSIS WITH RANDOM EFFECTS.

Author

Li-Jun SUN, Hai-Bin LI, Xi-Qin YUAN, and Zai-Zai YAN

Subjects

REMAINING useful life, MARKOV chain Monte Carlo, WIENER processes, AKAIKE information criterion, RANDOM effects model

Abstract

The paper aims at predicting the remaining useful life of highly reliable and long-life products with multiple and multi-stage characteristics in the degradation process. Considering the unit-to-unit variability among the product units, a new bivariate and two-phase Wiener process model with random effects is established. Schwarz Information Criterion is used to identify the change points of the degradation model, and the analytical expressions of life and remaining useful life are given by the concept of first hitting time. Furthermore, the appropriate Copula function is selected to describe the correlation between the two quality characteristics based on Akaike Information Criterion. A bivariate degradation model is established and the unknown parameters of the model are estimated by Markov Chain Monte Carlo method. Finally, the applicability and effectiveness of the proposed method are verified by the comparative analysis of turbine engine. [ABSTRACT FROM AUTHOR]

Published

2024

13. NON-LINEAR OSCILLATION OF A MASS ATTACHED TO A STRETCHED ELASTIC WIRE IN A FRACTAL SPACE.

Author

Feng REN

Subjects

NONLINEAR oscillations, FRACTAL dimensions, FRACTAL analysis, FRACTALS, NONLINEAR oscillators, NONLINEAR systems, WIRE

Abstract

The challenge for a non-linear vibration system in a fractal space is more fractal dimensions than frequency-amplitude relationship, the system energy consumption depends upon its fractal property, so its best-case scenario is to establish a relationship among the fractal dimensions, frequency and amplitude. For this purpose, this paper studies a fractal-fractional vibration system of a mass attached to a stretched elastic wire in a fractal space, and its asymptotic periodic property is elucidated, the effect of the fractal dimensions on the vibration system is discussed. This paper offers a new road to fast and reliable analysis of fractal oscillators with high accuracy. [ABSTRACT FROM AUTHOR]

Published

2024

14. LOCAL FRACTIONAL DAMPED NON-LINEAR OSCILLATION: Frequency Estimation and Energy Consumption.

Author

Yong-Ju YANG, Guo-Li HAN, and Yu-Zhuo YUAN

Subjects

NONLINEAR oscillations, FREQUENCIES of oscillating systems, ENERGY consumption, NONLINEAR systems

Abstract

This paper studies a local fractional vibration system with a damped non-linear term to reveal its frequency property and its energy consumption. A modification of He's frequency formulation is recommended for this purpose. Some examples are given to illustrate the solving process and the reliability of the method. Additionally, the effect of the initial conditions on the vibrating properties is elucidated. This paper offers a new window for fast and effective insight into local fractional vibration systems. [ABSTRACT FROM AUTHOR]

Published

2024

15. ERROR ANALYSIS OF TRANSIENT METHOD FOR ROCK PERMEABILITY MEASUREMENT.

Author

Xiao-Yan NI, Peng GONG, Bin DU, Ning YANG, and Peng DENG

Subjects

PERMEABILITY measurement, TRANSIENT analysis, ROCK permeability, ELASTIC deformation, TEST methods, PERMEABILITY

Abstract

In this paper, the permeability of sandstone, mudstone, gangue, and limestone under the condition of initial elastic deformation is obtained by transient method test. Mercury intrusion test is carried out on the four kinds of rock samples to obtain the initial permeability of the rock samples. The results show that the magnitude of permeability obtained by mercury intrusion test and transient method test is completely consistent. The measurement error is analyzed. The relative error of permeability in this paper is less than 6.0%. It can be showed that the use of transient method to measure the permeability of rock samples is reasonable and reliable. [ABSTRACT FROM AUTHOR]

Published

2024

16. ENERGY INTEGRATION OF CORN COB IN THE PROCESS OF DRYING THE CORN SEEDS.

Author

Rajab ELQADHI, Mohamad Elbashir, ŠKRBIĆ, Siniša V., MOHAMOUD, Omer Ali, and ASONJA, Aleksandar N.

Subjects

CORNCOBS, AGRICULTURE, ENERGY futures, THERMAL efficiency, OPERATING costs

Abstract

A greater contribution energy production in the future should be expected from agricultural biomass, because current research indicates low utilization of agricultural biomass specifically in the direct combustion process. The paper presents an example of energy integration of the corn cob in the process of drying seed corn. The paper presents the efficient method of drying corn seed with one's own corn cob. The technological process of drying is presented through the technological process of operation of the corn seed dryer on the corn cob, the energy industrial plant of the dryer and the technological process of two-pass drying of the cob. The main characteristic of a given dryer is the process of two-pass drying of the cob, because the air passes through the cob layer twice and in that way energy is saved. The drying time on the presented dryer has been shortened from the usual time from 90-80 hours, i.e. by 11%. This increase in performance results in a 15% reduction in dryer operating costs. [ABSTRACT FROM AUTHOR]

Published

2024

17. AN EXCELLENT SCHEME FOR THE COUPLE-HIGGS EQUATION.

Author

Zi-Ge WU and Chun-Fu WEI

Subjects

NONLINEAR equations, EVOLUTION equations, WAVE equation, EQUATIONS, PHYSICS

Abstract

The couple-Higgs equation is an important non-linear evolution equation in the field of physics. In this paper, the couple-Higgs equation is investigated by employing the tanh function method, and the new solitary wave solution is successfully constructed. Finally, the physical properties of this solitary wave solution are elaborated by plotting the 3-D graphs with proper parameters. [ABSTRACT FROM AUTHOR]

Published

2024

18. NEW ANALYTICAL METHOD FOR CUBIC KLEIN-GORDON EQUATION.

Author

Feng REN

Subjects

KLEIN-Gordon equation, DISLOCATIONS in crystals, CUBIC equations, PHYSICS

Abstract

In this paper, the (2+1)-D cubic Klein-Gordon model is investigated, which is used to described the propagation of dislocation in crystals. A simple and efficient analytical technology is successfully employed to seek some new periodic and solitary wave solutions, which is called sine-cosine method. The physics properties of these obtained periodic and solitary wave solutions are illustrated by corresponding graphs. [ABSTRACT FROM AUTHOR]

Published

2024

19. NYSTROM METHODS AND COMBINATION FOR SOLVING THE FIRST-KIND BOUNDARY INTEGRAL EQUATION.

Author

Yong-Zheng LI, Le-Ming HUANG, and Ke-Long ZHENG

Subjects

INTEGRAL equations, EQUATIONS

Abstract

Based on the single-layer potential theory, the Laplace equation can be converted into the problem of the first-kind boundary integral equation (BIE1st). The kernel of BIE1st is characterized by the logarithmic singularity. In this paper, we investigate the Nystrom method for solving the BIE1st. The numerical solutions possess high accuracy orders O(h³) and the combination of two kinds of Nystrom solutions has the same accuracy as the result with double grid. Furthermore, by the double power transformation, the proposed method can be used to deal with the problem on the non-smooth boundary and has the higher accuracy. The efficiency is illustrated by some examples. [ABSTRACT FROM AUTHOR]

Published

2024

20. A POWERFUL ANALYTICAL METHOD TO SOME NON-LINEAR WAVE EQUATIONS.

Author

Long-Hui ZHANG and Chun-Fu WEI

Subjects

BURGERS' equation, NONLINEAR wave equations

Abstract

In the paper, the 1-D wave equation and non-linear diffusion equation are considered and the approximate solutions are obtained by using the variational iteration method. The obtained results show that the proposed method is efficient and simple. [ABSTRACT FROM AUTHOR]

Published

2024

21. THE EXTENSION LIMIT AND PARAMETERS OPTIMIZATION BASED ON THE 3-D GEOMECHANICAL MODEL.

Author

Yifan ZHAO, Liangbin DOU, Xiaobo WANG, Zhaoyang XU, Yuanchao PENG, Chongdong SHI, Ming ZHANG, Tiantai Li, and Xiaogang SHI

Subjects

DRILLING muds, DENSITY

Abstract

In this paper, a 3-D geomechanically model and a three-pressure profile along the wellbore trajectory were established to determine a reasonable drilling mud density window by establishing calculation methods and correlations between geomechanically parameters. On the basis of drilling mud density window, combined with the principle of ERW extended limit, the analysis models of the limits of density and flow rate of drilling mud were established, respectively, with the objective that the extension limit can fulfill the design depth of the wellbore. The results of the practical application illustrate the feasibility and correctness of this preferred model for the combination of drilling mud density and flow rate. [ABSTRACT FROM AUTHOR]

Published

2024

22. EXPERIMENTAL OBSERVATION ON ROCK DAMAGE UNDER MICROWAVE THERMAL SHOCK.

Author

Teng TENG, Peng YI, Wen-Jian JIA, and Xiao-Yan WU

Subjects

THERMAL shock, SOUND pressure, ELASTIC modulus, GRANITE, MICROWAVES, ACOUSTIC emission

Abstract

Microwave thermal shock is an optimized means of crushing rocks in engineering, in order to investigate the effect of microwave thermal shock on granite, this paper adopts microwave irradiation and SEM experiments to investigate the mechanical behavior and microstructural evolution law of granite, and the main conclusions are: With the increase of the duration of thermal shock, granite exhibits the law of linear increase, and the peak strength and elastic modulus show the trend of rising first and then decreasing; After thermal shock the acoustic emission signal of granite is linearly rising, while the internal shear cracks expand to form larger transgranular cracks, the results of the study have great significance for the future development of traditional mining technology. [ABSTRACT FROM AUTHOR]

Published

2024

23. OPERATIONAL CHARACTERISTICS OF THE COMBINED HEAT AND POWER PLANT IN THE DISTRICT HEATING SYSTEM OF BELGRADE.

Author

TANASIĆ, Vladimir D., TANASIĆ, Nikola D., and STAMENIĆ, Mirjana S.

Subjects

POWER plants, GAS as fuel, HEATING, HEATING from central stations, NATURAL gas processing plants, ELECTRIC power, ENERGY consumption

Abstract

The combined production of electricity and thermal energy (combined heat and power or co-generation) is the most efficient and convenient approach to reduce costs for energy at industrial power plants and district heating plants that use natural gas as fuel to produce thermal energy for various needs. This paper analyses the operational characteristics of the combined heat and power plant, which has been operating since January 1, 2021, at the Voždovac Heating Plant as part of the Belgrade district heating system. The combined heat and power plant consists of three gas engine units with a total nominal electric power of 10 MW and thermal power of 10.1 MW, which use natural gas as fuel. The combined heat and power plant is used for district heating and preparing domestic hot water while electricity is sold to the local electric grid. The analysis in this paper focuses on the plant's operational characteristics: the number of working hours, the total energy consumption and energy production, the efficiency as well as the operational and maintenance costs. Also, the impact of the drastic changes in the prices of natural gas, electricity, and maintenance costs in the last year on the financial profitability of the combined heat and power plant was analysed in particular. [ABSTRACT FROM AUTHOR]

Published

2024

24. EXPERIMENTAL AND NUMERICAL RESEARCH OF THE FLOW INSIDE THE CONTROL VALVES TRIM.

Author

ILIĆ, Dejan B., JANKOVIĆ, Novica Z., ČANTRAK, Djordje S., and SAVIĆ, Ljubomir R.

Subjects

SELECTIVE laser melting, VALVES, THREE-dimensional printing, NUMERICAL analysis

Abstract

In this paper are presented desing, testing and numerical analysis for two manufactured control valve trims. Valve trim is consisted of cage or dick stack, plug, stem and seat. Size from app. 15.88 mm (0.625 in) up to 101.6 mm (4 in) is suitable for 3-D metal and plastic print, what is presented in this paper. Selective laser melting 3-D metal printing is applied on the disc presented in this paper. Even better material properties from rest of the valve parts could be obtained. This is of great importance for valve retrofitting. In this paper is presented, also, new developed channel geometry, what is followed by various fluid-flow phenomena. Measurement results for second prototype manufactured by 3-D printing using plastics are presented in details. Here is shown, in short, procedure for determination of KV values of the test valves according to the EN 60534-2-3, Industrial-process control valves - Part 2-3: Flow capacity - Test procedures. In addition, some aspects of CFD calculations are presented. [ABSTRACT FROM AUTHOR]

Published

2024

25. RESEARCH ON TERRAIN GRIDS GENERATION IN COMPUTATIONAL FLUID DYNAMICS SOFTWARE.

Author

Xuan WANG, Shuhuan LIU, Junfang ZHANG, Minghua LV, Zhenhao MI, Wenjie BAO, and Xiaodong HUANG

Subjects

COMPUTATIONAL fluid dynamics, PLUMES (Fluid dynamics), NUCLEAR power plants, ENVIRONMENTAL research, MAINFRAME computers, COOLING towers

Abstract

Traditional research of environmental impact of natural draft cooling tower in nuclear power plant is based on diffusion model or tunnel experiment, and with the development of modern mainframe computers and turbulence models, it is possible to use CFD method to simulate plume drift. The CFD software, due to its powerful computing ability, can simulate and display the plume drift more accurately. This paper presents an effective way of generating terrain grids which can be used in StarCD, a CFD software. The SRTM terrain data is obtained from internet and IDW interpolation method is used in the co-ordinates translation process. A powerful program named GridInter is developed using Fortran90 to convert terrain data to StarCD vertex file, terrain grids generation process in StarCD including nuclear power plant building grids combination is also introduced, this model can be directly used in the numerical simulation of plume dispersion. [ABSTRACT FROM AUTHOR]

Published

2023

26. OUTDOOR DESIGN PM2.5 CONCENTRATION METHOD FOR FRESH AIR SYSTEMS BASED ON DUAL-CARBON TARGET A Case Study of Urban Economic Regions from China.

Author

Yanmin WEI, Xin HUANG, Zirui HOU, and Xin ZHANG

Subjects

URBAN studies, MATHEMATICAL induction, CITIES & towns, ENERGY conservation, VALUE (Economics), SPACE, CARBON offsetting, AIR filters

Abstract

Under the goal of "achieving carbon peak by 2030 and carbon neutrality by 2060", how to select the type of fresh air system has become a key area of energy conservation. The method of outdoor design PM2.5 concentration is one of the important factors affecting the selection of fresh air filtration system. This paper first analyzed the PM2.5 concentration values of 31 cities in China from 2017 to 2020 based on mathematical induction, and next gave the recommended coefficient K under six urban economic regions methods in combination with the actual situation. Finally, the selection of air filters in five typical cities was taken as an example, the differences in recommended coefficient K and selection of outdoor design PM2.5 concentration under different recommended methods were compared and analyzed. The results showed that the recommended coefficient K under the six economic regions could meet the required K value needs of the region. The recommended coefficient K by the six economic regions methods based on per capita GDP is the best. Under that conditions, the recommended coefficient K of the five typical cities under strict and normal conditions differs from the average K values of the six methods by 0.06 and 0.04. This paper will provide a new method for the correct selection of outdoor design PM2.5 concentration in fresh air systems to achieve the dual carbon energy-saving goal. [ABSTRACT FROM AUTHOR]

Published

2024

27. NOVEL FLAT-PLATE SOLAR COLLECTOR WITH AN INCLINED N-S AXIS AND RELATIVE E-W TRACKING ABSORBERS AND THE NUMERICAL ANALYSIS OF ITS POTENTIALS.

Author

NEŠOVIĆ, Aleksandar M., LUKIĆ, Nebojša S., JOSIJEVIĆ, Mladen M., JURIŠEVIĆ, Nebojša M., and NIKOLIĆ, Novak N.

Subjects

SOLAR collectors, ARTIFICIAL satellite tracking, NUMERICAL analysis, SOLAR technology, ENERGY consumption, SOLAR energy, SOLAR system

Abstract

The current flat-plate solar collectors perform best when their absorbers rotate around their axis. However, with their concentrators, reflectors, and tracking mechanisms, they take up a lot of space and are thus commercially speaking, not the best solutions. This paper proposes a novel solar collector design which employs the (relative) rotation of absorbers, but strives to combine the benefits of fixed and (absolute) tracking solar systems, i.e. volume occupancy from the former and thermal performance from the latter. The findings of our numerical analysis show that, the solar irradiance efficiency of this novel design is 20% higher than that of a fixed flat-plate collector during clear-sky days, and it is equally lower than that of an absolute tracking collector. This paper also introduces a new criterion for describing single-axis tracking solar collectors which should be included in the classifications of solar collectors. Finally, the article, which represents a continuation of our research in the field of solar energy utilization, can contribute to the future development of solar technologies and solve some of the current challenges. [ABSTRACT FROM AUTHOR]

Published

2024

28. SOLITARY WAVE SOLUTION FOR THE NON-LINEAR BENDING WAVE EQUATION BASED ON HE'S VARIATIONAL METHOD.

Author

Chu-Han SHANG and Huai-An YI

Subjects

NONLINEAR wave equations, NONLINEAR waves, FRACTAL dimensions, SOLITONS

Abstract

A beam vibration originating in the beam porous structure or on a non-smooth boundary might make its vibrating energy concentrated on a single wave, leading to a solitary wave. This paper applies the variational approach to analysis of the soliton basic property, and the effect of the fractal dimensions on the solitary wave is elucidated. This paper is to draw attention the beam soliton property beyond its widely known resonance and periodic and chaotic properties. [ABSTRACT FROM AUTHOR]

Published

2024

29. APPROXIMATE ANALYTICAL SOLUTION OF GENERALIZED FRACTAL EQUAL-WIDTH WAVE EQUATION.

Author

Yun QIAO

Subjects

WAVE equation, NONLINEAR differential equations, CAPUTO fractional derivatives, ANALYTICAL solutions, DECOMPOSITION method, FRACTALS, PARTIAL differential equations

Abstract

In this paper, a generalized equal width wave equation involving space fractal derivatives and time Caputo fractional derivatives is studied and its approximate analytical solution is presented by the Adomian decomposition method. An example shows that the method is efficient to solve fractal non-linear partial differential equations. [ABSTRACT FROM AUTHOR]

Published

2024

30. ANALYSIS OF INTERNAL TIDE CHARACTERISTICS IN THE NORTHWEST PACIFIC OCEAN.

Author

Si-Hang XIE, Xiao-Jiang ZHANG, Xiao-Qun CAO, Wen-Long TIAN, and Jia-Le YAO

Subjects

OCEAN, POTENTIAL energy, OCEAN bottom

Abstract

The available potential energy of the diurnal internal tide in the Northwest Pacific ocean is studied by using short-term high-frequency mooring observations. The results show that in the upper layer of the ocean, its distribution is relatively chaotic, and it is greater between 1500-1600 m and 2500-3000 m in the middle layer of the ocean. At other depths, it is generally smaller, especially, at the bottom layer of the ocean, it is relatively small. This paper concludes that the marvel of measurement is the best science picks. [ABSTRACT FROM AUTHOR]

Published

2024

31. ANALYSIS OF THE STATIONARY PROBABILITY DENSITY OF A GENERALIZED AND BISTABLE VAN DER POL SYSTEM EXCITED BY COLORED NOISE.

Author

Yajie LI, Zhiqiang WU, Yongtao SUN, Ying HAO, Xiangyun ZHANG, Feng WANG, and Heping SHI

Subjects

PROBABILITY density function, MONTE Carlo method, STOCHASTIC systems, PROBABILITY theory, STOCHASTIC resonance, THERMAL noise, STATIONARY processes

Abstract

The stochastic P-bifurcation behavior of bi-stability in a generalized van der Pol oscillator with the fractional damping under colored noise and thermal excitation is investigated. Firstly, using the principle of minimal mean square error and linearization method, the non-linear stiffness terms can be equivalent to a linear stiffness which is a function of the system amplitude, and the original system is simplified to an equivalent integer order van der Pol system. Secondly, the system amplitude stationary probability density function is obtained by the stochastic averaging, and then based on the singularity theory, the critical parametric conditions for the system amplitude stochastic P-bifurcation are found. Finally, the types of the stationary probability density function of the system amplitude are qualitatively analyzed in each area divided by the transition set curves. The consistency between the analytical results and the numerical results acquired from Monte-Carlo simulation also testifies the theoretical analysis in this paper and the method used in this paper can directly guide the design of the fractional order controller to adjust the response of the system. [ABSTRACT FROM AUTHOR]

Published

2024

32. APPLYING NUMERICAL CONTROL TO ANALYZE THE PULL-IN STABILITY OF MEMS SYSTEMS.

Author

Yanni ZHANG, Yiman HAN, Xin ZHAO, Zhen ZHAO, and Jing PANG

Subjects

MICROELECTROMECHANICAL systems, PERIODIC motion, ENERGY harvesting, ENERGY consumption, SECURITY systems, NUMERICAL control of machine tools

Abstract

The micro-electro-mechanical system is widely used for energy harvesting and thermal wind sensor, its efficiency and reliability depend upon the pull-in instability. This paper studies a micro-electro-mechanical system using He-Liu [34] formulation for finding its frequency-amplitude relationship. The system periodic motion, pull-in instability and pseudo-periodic motion are discussed. This paper offers a new window for security monitoring of the system reliable operation. [ABSTRACT FROM AUTHOR]

Published

2024

33. ASSESSMENT OF RADIOLOGICAL ENVIRONMENTAL IMPACT UNDER VARIOUS METEOROLOGICAL CONDITION.

Author

Feifei WU, Binchi MENG, Bing LIAN, Yan WANG, and Jing KANG

Subjects

ENVIRONMENTAL impact analysis, WIND speed, POLLUTION

Abstract

The meteorological parameters, e.g., wind direction, wind speed and atmospheric stability, affect greatly the diffusion of pollution and radiological environmental impact assessment. Based on the hourly meteorological data obtained from an automatic monitoring station, the radiological impact indicated by the air concentration, individual dose and maximal individual effective dose were analyzed and compared between 2020 and 2021. The paper concluded that children are the main group to be the most easily infected, and the critical exposure path is internal exposure from inhalation. This paper offers a new window for timely decision-making for radiological safety under different climate conditions. [ABSTRACT FROM AUTHOR]

Published

2024

34. SOLUTIONS OF THE KdV-mKdV EQUATIONS ARISING IN NON-LINEAR ELASTIC RODS UNDER FRACTAL DIMENSION.

Author

Chu-Han SHANG and Huai-An YI

Subjects

FRACTAL dimensions, NONLINEAR equations, PERIODIC motion, FRACTALS, RESONANCE

Abstract

A prediction of rod wave type with great precision is extremely important in theoretical analysis and practical applications. Besides the well-known periodic motion and resonance, this paper studies the rod wave in a fractal space, and a fractal solitary wave is unlocked by the variational approach, the results reveal that the rod strain non-linearity and fractal dimensions affect greatly the wave travelling properties. This paper offers a new window for identifying a solitary wave from periodic motion easily and accurately. [ABSTRACT FROM AUTHOR]

Published

2024

35. WIND TURBINE BLADES WITH HYBRID FIBER COMPOSITE Tensile Properties and Numerical Verification.

Author

Tianyu LONG, Xiaodong CHEN, Li QIU, Jia HAN, and Qi Jing DONG

Subjects

WIND turbine blades, TORSIONAL vibration, WIND turbines, VIBRATION (Mechanics), AERODYNAMIC load, GLASS fibers, FIBROUS composites

Abstract

Wind turbine blades are the main component of wind turbines to capture effective wind energy, and require good quality and reliable performance. Therefore, the manufacturing cost of wind turbine blades is much higher than that of other components of wind turbines. The blade is a slender elastomer prone to vibration. The wind turbine vibration always arises in the blade instability. At the same time, the blade is also a typical aerodynamic component. In the process of rotation, it will not only produce mechanical vibration but also bear aerodynamic force. In this paper, the mechanical properties and modal numerical simulation analysis of composite blades with different hybrid ratios of carbon fiber and glass fiber are analyzed, it is found that with the increase of carbon fiber content, the mechanical properties of the blade gradually increase, and the torsional vibration resistance of the blade become stronger. Therefore, the wind turbine blades of hybrid fiber composites have a longer service life, which can reduce material wastage and help protect the environment. [ABSTRACT FROM AUTHOR]

Published

2024

36. BIOMASS ANALYSIS OF RESOURCE UTILIZATION SYSTEM.

Author

Enhai LIU, Zhanghui GUO, Yu WANG, Xiaotong WEI, and Man LI

Subjects

RENEWABLE energy sources, CARBON emissions, BIOMASS, POULTRY manure, BIOMASS energy, REGRESSION analysis

Abstract

This paper uses the biomass of livestock, poultry manure and straw to study the resource utilization and integration technology by division and classification. The SPSS regression analysis and integration were applied to analyze the economic benefits of the base period (2018) and the audit period (2020). The analysis gives an opportunity in rural areas to reduce chemical fertilizers, pesticides, electricity and coal cost in planting, and this paper opens a novel window for utilizing renewable energy resources and reducing carbon dioxide emissions. [ABSTRACT FROM AUTHOR]

Published

2024

37. EXPERIMENTAL RESEARCH ON DYNAMIC PERFORMANCE OF AN AIR/WATER SOURCE HEAT PUMP WATER HEATER.

Author

Fuqiang QIU, Juanli DU, Yu WANG, Xingwei ZHANG, Changsuo YU, and Yun NAN

Subjects

HEAT pumps, WATER heaters, WATER pumps, HOT water, ENERGY consumption, WATER use, SOLAR heating

Abstract

In this paper, a combined air/water source heat pump water heater is presented. At ordinary time, the heater can be used for hot water heating in water-source mode to improve the energy efficiency. While in cold season, it gives priority to air-source mode for water heating to improve operational safety. Experiments were conducted to investigate the thermodynamic performance of the heater in each operation mode, and the experiment results were analyzed. The research indicated that its operation was reliable during the long-time running. This paper offers a promising energy-saving method in future. [ABSTRACT FROM AUTHOR]

Published

2024

38. BIG DATA INFORMATION COLLECTION OF IoT FOR HEAT STORAGE HEATING CONTROL SYSTEM.

Author

Mengye LI

Subjects

HEATING control, BIG data, ACQUISITION of data, HEAT storage, DATA acquisition systems, INTERNET of things, BOILERS, HEATING

Abstract

In order to understand the application of iot Big data information acquisition for heating control systems, a research on iot Big data information acquisition for thermal storage heating control systems is proposed. This paper first analyzes the shortcomings of the traditional heating system, the heating data is scattered and difficult to collect. The IoT technology is applied to the heating platform through data acquisition, data visualization, data mining, data management and other aspects. Secondly, the application of the IoT in heating system data acquisition is studied, including the types of heating data collected, data acquisition process, data acquisition standards, etc. Finally, this paper takes the energy-saving transformation of 26 boilers in a heating enterprise as an example. The research results show that the boiler efficiency obtained in real time by using the online monitoring system of this project is 95.36%, and the reverse balance boiler efficiency in the paper report of the special inspection office is 94.88%, with a deviation of 1.48%. The application of the IoT technology can obtain the boiler indicators in real time and effectively, and can realize the comprehensive analysis of the monitoring data, and realize the evaluation of the energy efficiency operation state of the gas boiler and the fault diagnosis and early warning. The IoT technology is an effective means of fine energy-saving management in heating enterprises. [ABSTRACT FROM AUTHOR]

Published

2024

39. PHASE CHANGE STORAGE SOLAR HEAT PUMP HYDRONICS BASED ON CLOUD COMPUTING.

Author

Wengang WU

Subjects

HEAT pumps, SOLAR heating, SOLAR pumps, HYDRONICS, SOLAR energy, HEAT pump efficiency

Abstract

In order to understand the solar heat pump heating system, a phase-change storage solar heat pump heating system based on cloud computing is proposed. This paper first introduces the solar heat pump as a phase change energy storage that can change four types of heat depending on the weather conditions and significantly reduce the energy consumption of the system. Second, through the special design of the energy storage capacitor, in addition adjusting the energy distribution of the solar heat pump system, it can also improve the reliability of supply and demand between the solar heat pump system and the building heating system, improve the level of solar energy consumption, but also improve the low temperature of the pump milk temperature, and improve the solar heat up quickly to achieve the goal of improving the overall performance of the heat pump. Finally, this paper takes an urban "electric coal" house as a research object to investigate the hot air efficiency of solar heat pumps. This paper analyzes the daytime solar heat pump mode, the nighttime energy storage mode under extreme conditions, and the air source heat pump mode. And shows the research results that the solar heat pump has good heating efficiency and the highest solar COP. Will be heat pump is 5.28 solar energy average heat pump COP is 2.13. In very bad weather, solar heat pumps work better. [ABSTRACT FROM AUTHOR]

Published

2024

40. APPLICATION OF SOLAR ENERGY STORAGE SYSTEM IN BUILDING STRUCTURE DESIGN AND ITS THERMAL PROCESS ANALYSIS.

Author

Jingchao FANG and Shufen GONG

Subjects

ENERGY storage, INDUSTRIALIZED building, HEAT storage, EXTERIOR walls, SOLAR thermal energy, THERMAL analysis, COLLEGE buildings, SOLAR energy

Abstract

In order to understand the application and thermal process of solar energy storage system in building structure design, a research on the application and thermal process analysis of solar energy storage system in building structure design is put forward. This paper will take the outdoor climate conditions of residential buildings in a province as an example to conduct thermal analysis on the heat collection components and heat storage components of urban residential buildings. The building under test is a university teacher's residence located in the university campus of Chengguan District of the city. It is a multi-storey building with a total of five floors, and the building is on the top floor. The experimental results show that the heat storage effect of the thick exterior wall can effectively reduce the temperature fluctuation of the exterior wall. The difference between the maximum and minimum values of the exterior wall surface temperature is 19 °C, and the difference between the maximum and minimum values of the interior surface temperature is 5.4 °C. The difference between the maximum and minimum temperature of the north exterior wall is 4.9 °C, and the difference between the maximum and minimum temperature of the inner surface is 1.6 °C. The work of this paper lays a foundation for the quantitative research on the temperature control of building heat collection and storage components, and provides a theoretical basis for solar heat storage. [ABSTRACT FROM AUTHOR]

Published

2024

41. FROST MEASUREMENT OF AIR SOURCE HEAT PUMP HEAT EXCHANGERS BASED ON IMAGE RECOGNITION PROCESSING TECHNOLOGY.

Author

Liming CHEN and Bin XIE

Subjects

HEAT pumps, HEAT exchangers, IMAGE processing, IMAGE recognition (Computer vision), HUMIDITY, ATMOSPHERIC temperature

Abstract

In order to understand the application of frost measurement of air source heat pump heat exchanger, a research on frost measurement of air source heat pump heat exchanger based on image recognition processing technology is put forward. In this paper, the scheme design of defrosting control system based on image processing technology is introduced, and the frost degree coefficient of outdoor heat exchanger fin surface is introduced to characterize the frost degree of fin surface. Secondly, the experimental environment room was built, and the conventional defrosting control method of the existing heat pump unit was tested on the spot. It was found that in the air temperature of -6~0 °C and the air relative humidity of 86~92%, the unit appeared the phenomenon of "defrosting in time" and "defrosting without frost". Finally, the change of frost layer on the surface of the outdoor heat exchanger fin during defrosting is analyzed, and the coefficient of frost degree on the surface of the fin is calculated and analyzed. At the beginning of defrosting, due to the large degree of frost, the P-value of the frost degree coefficient on the surface of the fin is close to 1, when the defrosting is carried out for 125 seconds, the P-value of the frost degree coefficient on the surface of the fin decreases sharply to 0.09, when the defrosting is completed, the P-value of the frost degree coefficient on the surface of the outdoor heat exchanger is maintained at about 0.04. The defrosting control method of air source heat pump based on image processing technology is proposed in this paper, and its technical feasibility and effect are verified by experimental tests, which lays a foundation for future popularization and application. [ABSTRACT FROM AUTHOR]

Published

2024

42. DESIGN AND PERFORMANCE ANALYSIS OF A HEAT PUMP SYSTEM FOR MOTOR PHASE CHANGE THERMAL STORAGE.

Author

Xiang XIE

Subjects

HEAT storage, HEAT pumps, HEAT storage devices, ENERGY consumption, SOLAR technology, ENERGY storage

Abstract

Along with the rapid economic development and social progress, the problem of energy and environment is becoming more and more outstanding. Therefore, it is very important to use new energy saving techniques to increase energy consumption and reduce energy consumption. In this paper, we have developed a hot water system, which is based on solar energy technology, gas-source heat pump, and phase change energy storage technology. The system was designed and constructed, and its performance was tested in various control conditions, with an emphasis on the analysis of the influence of phase change heat supply on heat storage properties. In this paper, the effect of the heat storage property is analyzed. Studies have shown that compared to a conventional tank that does not have a phase change heat storage device, the heat storage tanks equipped with phase change energy storage devices have longer discharge time, higher discharge temperature, better temperature, and better operation efficiency. In addition, the data show that flow rate control is also an important factor in optimizing the thermal storage characteristics of the system. [ABSTRACT FROM AUTHOR]

Published

2024

43. MECHANICAL CHARACTERIZATION OF FRACTURED GRANITE RESERVOIRS.

Author

Xiongdi ZUO, Liangbin DOU, Hongjiang ZOU, Ming ZHANG, Tiantai LI, and Xiaogang SHI

Subjects

DISCRETE element method, GRANITE, ROCK deformation, ROCK properties, FRACTURE strength, ENGINEERING laboratories

Abstract

In this paper, on the basis of laboratory triaxial mechanical experiments, a granite model including different numbers and angles of fractures was established by the discrete element method. Combined with the laboratory triaxial mechanical experiments and PCF simulation results, the effects of the number and angle of fractures on the rock mechanical properties of fractured granite reservoirs were analyzed. The results show that the existence of fractures significantly reduces the strength of the reservoir, but the increase of the fracture angle and the confining pressure will weaken the degree of this reduction, and the fractures are easy to expand and connect during the loading process. [ABSTRACT FROM AUTHOR]

Published

2024

44. DETECTION AND IDENTIFICATION OF DELAMINATION DEFECTS IN CFRP LAMINATES USING NON-LINEAR FREQUENCY-MODULATED INFRARED THERMAL WAVE TESTING TECHNOLOGY.

Author

Qing-Ju TANG, Cui-Zhu FENG, Zhi-Bo WANG, and Hao-Dong LI

Subjects

LAMINATED materials, SURFACE temperature, CARBON fibers

Abstract

In the process of preparation and service, the carbon fiber reinforced polymer (CFRP) material is prone to defects such as delamination and inclusions, which seriously impact the normal use. In this paper, non-linear frequency-modulated (the logarithmic sweep) thermal excitation is used to carry out finite element simulation and experimental research. In order to investigate how different detection process parameters affect defects, the impact of different detection parameters on the surface temperature difference and contrast is analyzed, and the detection parameters that can quickly identify defects and have better recognition effect are obtained. [ABSTRACT FROM AUTHOR]

Published

2024

45. A NEW FRACABILITY EVALUATION MODEL FOR COMPLEX LITHOLOGIES FRACTURED SHALE OIL RESERVOIR.

Author

Ran ZHANG, Cheng-Jun LV, Qian-Kun REN, Yang WANG, Yang LIAO, and Zishan ZHANG

Subjects

SHALE oils, KNOWLEDGE graphs, PETROLEUM reservoirs, MANUFACTURING processes

Abstract

Manufacturing knowledge can be preserved through knowledge accumulation and continuous integration. In order to improve the using efficiency of manufacturing knowledge, this knowledge is stored and used in the way of Knowledge graph. This paper will study the construction of Knowledge graph based on manufacturing process methods and the ability of Knowledge graph to provide services. This kind of manufacturing knowledge capability not only provides the manufacturing realization method of processing technology, but also can correspond to the design realization method of design graphics, providing theoretical support for the integrated realization of design and manufacturing process. [ABSTRACT FROM AUTHOR]

Published

2024

46. A SURVEY FOR CT-BASED AIRWAY DIGITAL RECONSTRUCTION AND APPLICATIONS.

Author

Shuaiyi TIAN, Tianming DU, and Chen LI

Subjects

ORGANS (Anatomy), LUNGS, IMAGE processing, TRACHEA

Abstract

Lung is the most important gas exchange organ of human, and the smooth airway is the basis of lung function. The condition of the trachea is associated with a variety of diseases. In this paper several methods of tracheal simulation based on CT-based data since 2003 are reviewed. Reasonable algorithms and image processing methods are important development directions for airway scanning reconstruction. The development of airway reconstruction needs to be closely integrated with mathematical modelling to improve the accuracy and precision of reconstruction. [ABSTRACT FROM AUTHOR]

Published

2024

47. A PREDICTIVE MODEL FOR SANDSTONE PERMEABILITY BASED ON THE COULOMB-MOHR CRITERION.

Author

Xiao-Yan NI, Peng GONG, Ning YANG, and Peng DENG

Subjects

PREDICTION models, SANDSTONE, INDEPENDENT variables, SOIL permeability

Abstract

In this paper, a permeability parameter calculation model with six influence coefficients is constructed by taking volume strain and equivalent strain under Coulomb-Mohr criterion as independent variables. The optimal estimates of permeability parameter influence coefficients are applied to the prediction of permeability parameters under a complex loading path, and the prediction results verify the applicability of the model. [ABSTRACT FROM AUTHOR]

Published

2024

48. NUMERICAL MODEL AND EFFICIENCY ANALYSIS OF FINNED STAGGERED SOLAR PV/T AIR COLLECTOR.

Author

Rundong ZHANG, Liang PAN, Dali DING, Jianrui BAI, Weijian ZHANG, and Qi DU

Subjects

LAMB waves, FINS (Engineering), HEAT transfer, HEAT capacity, ENERGY consumption

Abstract

This paper introduces a novel design for a solar photovoltaic/thermal (PV/T) air collector that utilizes staggered fins. The collector features double-layer flow channels in the same direction, with the upper channel equipped with transparent wave plates, and the lower channel fitted with staggered fins. The paper includes a calculation scheme for wave plate heat balance. The numerical model of the collector is established and verified by experimental results. A numerical model is used to analyze the height combination of the upper and lower runner and the fin arrangement of the lower runner. The results indicate that, under the given environmental parameters, as the PV panel moves down, the overall air heat transfer capacity decreases. When the height combination of the upper/lower runner is 23 mm/105 mm, the maximum value is 53.741%. With the increase of fin spacing, the heat transfer capacity of the lower runner decreases. With the increase of the number of fin rows, the heat transfer capacity of the lower runner increases. When the equivalent diameter of the rectangular channel and the number of fin rows were 70 mm and 3 rows, respectively, the maximum solar energy comprehensive utilization efficiency was 56.261%. [ABSTRACT FROM AUTHOR]

Published

2024

49. OPTIMAL ALLOCATION OF GENERALIZED HEAT STORAGE IN DISTRIBUTION NETWORK OF RENEWABLE ENERGY.

Author

Yanfang ZHU, Zhifang HE, Lei YAN, Weihua HE, Wenna ZHAO, and Kang CHANG

Subjects

HEAT storage, RENEWABLE energy sources, GENETIC algorithms, GENETIC programming, POWER resources, DYNAMIC programming

Abstract

In order to solve the problem of optimal allocation of general heat resources in high permeability renewable energy distribution network, an optimal allocation scheme of general heat resources in renewable energy distribution network is proposed. The optimal allocation scheme in renewable energy distribution network is proposed. In this paper, the internal and external two-layer structure is designed. The outer layer uses genetic algorithm to search the structural parameters of general energy system, and the inner layer uses dynamic programming method to get the optimal performance of general energy system. The internal and external alternate adjustment methods are used to optimize the general-purpose power distribution capability of the continuous-wave power supply network with different permeability and controllability, and the proposed method is verified in IEEE 33 node distribution network. The experimental results show that the general strength storage capacity is 26.6% and 45.7% higher than that of the process with a continuous strength renewable permeability of 30% and 40%, respectively. The utility rates were increased by 18.4% and 27.8%, respectively. Under the condition of high permeability renewable energy, the proposed method can increase the efficiency of resource management of distribution network by regulating load, decrease the distribution capacity of energy stability, and reduce the operation cost of the system. [ABSTRACT FROM AUTHOR]

Published

2023

50. THE PROGRESS TOWARD MORE SUSTAINABLE ENERGY, WATER AND ENVIRONMENTAL SYSTEMS: Approaches and Applications.

Author

Rašković, Predrag O., Vujanović, Milan, Schneider, Daniel R., Guzović, Zvonimir, Duić, Neven, and Oka, Simeon N.

Subjects

SUSTAINABLE development conferences, ELECTRICITY markets, ENERGY development, EMISSION control, BIOMASS conversion

Abstract

This editorial provides an overview of ten scientific articles published as the Special paper selection in Thermal Science. The papers were selected from almost six hundred contributions, presented at the 16th Conference on Sustainable Development of Energy, Water and Environment Systems (SDEWES 2021), held on October 10-15, 2021 in Dubrovnik, Croatia. The topics covered in the Special paper selection include economics of electricity markets, nuclear technology, repowering of the coal-based power plant, hybrid renewable energy system, sustainable biomass handling and conversion, post-combustion emissions control, and efficient cooling technology. The editorial also emphasised the papers recently published in the Special Issues of leading scientific journals dedicated to the series of SDEWES Conferences. [ABSTRACT FROM AUTHOR]

Published

2022