Gongcheng Kexue Yu Jishu/Advanced Engineering Science

Gongcheng Kexue Yu Jishu/Advanced Engineering Science (ISSN: 2096-3246) is a bi-monthly peer-reviewed international Journal. Gongcheng Kexue Yu Jishu/Advanced Engineering Science was originally formed in 1969 and the journal came under scopus by 2017 to now. The journal is published by editorial department of Journal of Sichuan University. We publish every scope of engineering, Mathematics, physics.


Submission Deadline
( Vol 56 , Issue 03 )
03 Apr 2024
Day
Hour
Min
Sec
Publish On
( Vol 56 , Issue 02 )
31 Mar 2024
Scopus Indexed (2024)

Aim and Scope

Gongcheng Kexue Yu Jishu/Advanced Engineering Science (ISSN: 20963246) is a peer-reviewed journal. The journal covers all sort of engineering topic as well as mathematics and physics. the journal's scopes are in the following fields but not limited to:

Agricultural science and engineering Section:

Horticulture, Agriculture, Soil Science, Agronomy, Biology, Economics, Biotechnology, Agricultural chemistry, Soil, development in plants, aromatic plants, subtropical fruits, Green house construction, Growth, Horticultural therapy, Entomology, Medicinal, Weed management in horticultural crops, plant Analysis, Tropical, Food Engineering, Venereal diseases, nutrient management, vegetables, Ophthalmology, Otorhinolaryngology, Internal Medicine, General Surgery, Soil fertility, Plant pathology, Temperate vegetables, Psychiatry, Radiology, Pulmonary Medicine, Dermatology, Organic farming, Production technology of fruits, Apiculture, Plant breeding, Molecular breeding, Recombinant technology, Plant tissue culture, Ornamental horticulture, Nursery techniques, Seed Technology, plantation crops, Food science and processing, cropping system, Agricultural Microbiology, environmental technology, Microbial, Soil and climatic factors, Crop physiology, Plant breeding,

Electrical Engineering and Telecommunication Section:

Electrical Engineering, Telecommunication Engineering, Electro-mechanical System Engineering, Biological Biosystem Engineering, Integrated Engineering, Electronic Engineering, Hardware-software co-design and interfacing, Semiconductor chip, Peripheral equipments, Nanotechnology, Advanced control theories and applications, Machine design and optimization , Turbines micro-turbines, FACTS devices , Insulation systems , Power quality , High voltage engineering, Electrical actuators , Energy optimization , Electric drives , Electrical machines, HVDC transmission, Power electronics.

Computer Science Section :

Software Engineering, Data Security , Computer Vision , Image Processing, Cryptography, Computer Networking, Database system and Management, Data mining, Big Data, Robotics , Parallel and distributed processing , Artificial Intelligence , Natural language processing , Neural Networking, Distributed Systems , Fuzzy logic, Advance programming, Machine learning, Internet & the Web, Information Technology , Computer architecture, Virtual vision and virtual simulations, Operating systems, Cryptosystems and data compression, Security and privacy, Algorithms, Sensors and ad-hoc networks, Graph theory, Pattern/image recognition, Neural networks.

Civil and architectural engineering :

Architectural Drawing, Architectural Style, Architectural Theory, Biomechanics, Building Materials, Coastal Engineering, Construction Engineering, Control Engineering, Earthquake Engineering, Environmental Engineering, Geotechnical Engineering, Materials Engineering, Municipal Or Urban Engineering, Organic Architecture, Sociology of Architecture, Structural Engineering, Surveying, Transportation Engineering.

Mechanical and Materials Engineering :

kinematics and dynamics of rigid bodies, theory of machines and mechanisms, vibration and balancing of machine parts, stability of mechanical systems, mechanics of continuum, strength of materials, fatigue of materials, hydromechanics, aerodynamics, thermodynamics, heat transfer, thermo fluids, nanofluids, energy systems, renewable and alternative energy, engine, fuels, nanomaterial, material synthesis and characterization, principles of the micro-macro transition, elastic behavior, plastic behavior, high-temperature creep, fatigue, fracture, metals, polymers, ceramics, intermetallics.

Chemical Engineering :

Chemical engineering fundamentals, Physical, Theoretical and Computational Chemistry, Chemical engineering educational challenges and development, Chemical reaction engineering, Chemical engineering equipment design and process design, Thermodynamics, Catalysis & reaction engineering, Particulate systems, Rheology, Multifase flows, Interfacial & colloidal phenomena, Transport phenomena in porous/granular media, Membranes and membrane science, Crystallization, distillation, absorption and extraction, Ionic liquids/electrolyte solutions.

Food Engineering :

Food science, Food engineering, Food microbiology, Food packaging, Food preservation, Food technology, Aseptic processing, Food fortification, Food rheology, Dietary supplement, Food safety, Food chemistry. Lizi Jiaohuan Yu Xifu/Ion Exchange and Adsorption Fa yi xue za zhi

Physics Section:

Astrophysics, Atomic and molecular physics, Biophysics, Chemical physics, Civil engineering, Cluster physics, Computational physics, Condensed matter, Cosmology, Device physics, Fluid dynamics, Geophysics, High energy particle physics, Laser, Mechanical engineering, Medical physics, Nanotechnology, Nonlinear science, Nuclear physics, Optics, Photonics, Plasma and fluid physics, Quantum physics, Robotics, Soft matter and polymers.

Mathematics Section:

Actuarial science, Algebra, Algebraic geometry, Analysis and advanced calculus, Approximation theory, Boundry layer theory, Calculus of variations, Combinatorics, Complex analysis, Continuum mechanics, Cryptography, Demography, Differential equations, Differential geometry, Dynamical systems, Econometrics, Fluid mechanics, Functional analysis, Game theory, General topology, Geometry, Graph theory, Group theory, Industrial mathematics, Information theory, Integral transforms and integral equations, Lie algebras, Logic, Magnetohydrodynamics, Mathematical analysis.
Latest Journals
Gongcheng Kexue Yu Jishu/Advanced Engineering Science
Journal ID : AES-13-11-2022-398

Abstract :

Sillenite bismuth ferrite (S-BFO) was prepared by a co-precipitation-low temperature hydrothermal technique. The catalytic performance of S-BFO was evaluated by activating peroxymonosulfate (PMS) to remove ciprofloxacin (CIP). The results showed that adding 0.675 mmol/L PMS and 1000 mg/L of catalyst at the condition of initial pH value (6.5±0.1) and reaction temperature (25±1)℃, the removal rate of CIP (5.0 mg/L) was reached 84.8%. Under the same reaction conditions, the degradation efficiency of S-BFO activated PMS for CIP was higher than persulfate (PS). The morphology and crystal structure of S-BFO were analyzed by scanning electron microscopy (SEM) and X-ray diffraction (XRD), respectively. The effects of PMS concentration and initial pH value on the degradation of CIP in S-BFO/PMS system were investigated. The application potential of S-BFO/PMS system in the treatment of pollutants under real water conditions was evaluated. The results of ROS quenching experiments indicated that 1O2 is the main ROS in the S-BFO/PMS system, rather than $\cdot \mathrm{SO}_4^{-} $ or ·OH. The mechanism of degradation of CIP in the S-BFO/PMS system was also proposed. Finally, the 9 main products and intermediates of CIP were analyzed using liquid chromatography tandem mass spectrometry (LC/MS/MS) technology, and two possible degradation pathways was proposed including hydroxyl addition reaction (Pathway Ⅰ) and decarboxylation reaction (Pathway Ⅱ). This study provides important theoretical support for advanced oxidation technology based on persulfate in the field of wastewater treatment.

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Gongcheng Kexue Yu Jishu/Advanced Engineering Science
Journal ID : AES-13-11-2022-397

Abstract :

The rapid development of new energy has brought opportunities and challenges to the electric power and chemical industry. On the one hand, the consumption of renewable energy leads to a large amount of waste of energy such as water and light. On the other hand, replacing carbon-based fossil energy ammonia with green hydrogen as raw material can greatly reduce the carbon emissions of the chemical industry. Therefore, the use of hydropower, photovoltaics, and other renewable energy sources to electrolyze water to produce hydrogen can provide green raw materials for ammonia synthesis, which can significantly improve the capacity of renewable energy consumption, reduce energy consumption, and carbon emissions, and serve the national goal of “carbon peaking and carbon neutrality”. However, the fluctuation of renewable energy power is difficult to meet the stability requirements of the traditional synthetic ammonia production process, and there are still many challenges in the design and operation of large-scale renewable energy electrolysis of water to produce hydrogen and synthetic ammonia. There is an urgent need to carry out systematic research and breakthroughs in key technologies for the integration and regulation of large-scale electrolysis of water for hydrogen production to ammonia synthesis systems that adapt to the fluctuating characteristics of renewable energy. In this regard, the process and its topology structure of the renewable energy electrolysis water and the synthesis ammonia process are firstly introduced, including the electrolysis water hydrogen production section, the compression buffer section, and the chemical ammonia synthesis section. Furthermore, the key technical system for the construction of the system was proposed, including the synthetic ammonia process multi-stable optimization and flexible control technology under the fluctuating conditions of renewable energy, the modular integration and cluster dynamic control technology for large-scale hydrogen production system by electrolytic water with “electricity–heat–mass” coupling, “source—grid—hydrogen—ammonia” system-wide coordinated control technology for the volatility of renewable energy and multi-stable characteristics of the chemical industry, comprehensive security protection and market operation for electricity, hydrogen, ammonia, and other elements mechanism. Contents include: Aiming at the optimization of the synthetic ammonia process and multi-stage cooperative regulation technology suitable for flexible production, a high-fidelity proxy model for synthetic ammonia is developed by integrating the subsystems of the synthetic tower, compressor, gas separation, and heat transfer network, considering the hydrogen storage and supply quantity and the performance of the catalyst. The adaptation scheme and collaborative control technology of each subsystem of water electrolysis for hydrogen production and ammonia synthesis under the fluctuation of renewable energy supply and market demand are studied. Aiming at the modular integration and cluster dynamic control technology of large-scale water electrolysis and hydrogen production system, the multi-time-scale time-domain simulation method of the cluster system is studied based on singular perturbation and surrogate model technology, and the multi-physical coupling state space model of the electrolytic cluster system is established. Considering the module startup-shutdown unit commitment scheduling, scheduling and power allocation between the modules, and safe operation of the interval constraint and electro-thermal interface features, to improve the hydrogen yield, improve energy efficiency, improve the power tracking and grid load frequency control as the goal, to build the multi-objective hierarchical cluster system scheduling and control model. Aiming at the whole system cooperative control technology of hydrogen energy participating in the power grid, the flexible operation method of multiple sections with steady-state operation characteristics of hydro-solar complementary power generation, power-to-hydrogen production, hydrogen storage, ammonia synthesis, and ammonia storage is studied, and the flexible dynamic cooperative control method of electric hydrogen production and ammonia synthesis system is also studied. The simulation model of electric hydrogen production and ammonia synthesis system with static equivalent and parameter aggregation methods is integrated. The optimal control method and technical index of the system with hydrogen and ammonia in the source grid are studied. Combined with the characteristics of frequency modulation and peak regulation, the strategy of power-to-hydrogen production and ammonia synthesis system participating in power system auxiliary service is studied. It has significant social benefits and strategic significance to improve the local consumption rate of renewable energy and the friendliness of grid-connected scheduling and reduce chemical carbon emissions and reduce chemical carbon emissions by building a large-scale water electrolysis system for hydrogen production and ammonia synthesis with renewable energy.

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Gongcheng Kexue Yu Jishu/Advanced Engineering Science
Journal ID : AES-13-11-2022-396

Abstract :

To solve the problems of low penetration, serious wear and low rock-breaking efficiency during traditional disc cutter rock breaking under the geological conditions of hard rock, many new auxiliary rock breaking methods have been proposed, such as creating pre-cutting grooves on the rock through laser, water jet, and other non-contact rock-breaking methods to assist disc cutter rock breaking. To clarify the rock breaking mechanism of the disc cutter under the condition of the pre-cutting grooves, the particle discrete element method is used to establish two auxiliary rock breaking simulation models for the pre-cutting grooves at the side of the disc cutter (side-type) and in front of the disc cutter (front-type). The influences of the depth of the pre-cutting grooves and the cutter spacing on the propagation of rock-breaking cracks by the disc cutter are explored. The research results show that: 1) The pre-cutting grooves in the side-type auxiliary rock-breaking model mainly affect the expansion of cracks, and the lateral cracks propagate to the bottom of the pre-cutting grooves during the process of inducing rock breaking. The pre-cutting grooves in the front-type auxiliary rock-breaking model mainly affect the initiation of cracks, and only lateral cracks are generated at the early stage of penetration, and the lateral cracks are promoted to propagate to both sides; 2) The vertical force of the disc cutter and the number of cracks decreases with the increase of the depth of the pre-cutting grooves, while the vertical force of the disc cutter increases with the increase of the cutter spacing, and the number of cracks first increases and then decrease with the increase of the cutter spacing; 3) Under the same condition, the side-type auxiliary rock-breaking model is higher than that of the front-type auxiliary rock-breaking model, but the vertical force of the disc cutter in the front-type auxiliary rock-breaking model is much smaller than the vertical force of the disc cutter in the side-type auxiliary rock-breaking model. The auxiliary effect of the pre-cutting grooves can be fully utilized by further increasing the penetration of the disc cutter in the front-type auxiliary rock-breaking model; 4) When the penetration of the disc cutter is constant, the side-type auxiliary rock-breaking model is suitable for the case where the depth of the pre-cutting grooves is greater than the penetration of the disc cutter, and the front-type auxiliary rock-breaking model is suitable for the case where the depth of the pre-cutting grooves is less than the penetration of the disc cutter

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Gongcheng Kexue Yu Jishu/Advanced Engineering Science
Journal ID : AES-11-11-2022-391

Abstract : Electroencephalography, or EEG, is a biological signal that aids in understanding how the human brain functions and its state. It is mostly utilized in neuroscience and healthcare administration. In the medical sectors, precision and accuracy are extremely important. While there are various strategies we use to preserve this accuracy, VLSI is one that offers a significant advantage. We may simulate and analyze the EEG signal with the aid of both MATLAB and VIVADO software, and the results can be examined for further investigation. In order to comprehend the patient's state and respond appropriately, brain movements are turned into signals. Electroencephalogram (EEG) signal artefacts can be caused by a number of things, including head movement, electrode interferences, power line interferences, and other external interferences. These types of noise make it more difficult to thoroughly analyze the EEG data and to obtain accurate medical information. The proposed concept will be implemented utilizing a single port ROM, as shown in the paper's generation of EEG. This study's main objective is to create EEG signals using ASIC/FPGA technology. Most of the information required to generate the EEG signal is found in MATLAB datasheets. Memory design is one of the challenging areas, where we need to be very careful depending on the applications. To evaluate the Simulations and Synthesis of these designs, utilize XlinixVivado 2019.1..
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Gongcheng Kexue Yu Jishu/Advanced Engineering Science
Journal ID : AES-10-11-2022-388

Abstract : Pre-cast building components are manufactured in factories and assembled at the site. The pre-cast components are connected on site. A Connection is an assembly of joints that transmits forces and moments at the interface of a structural member. A connection comprises many loads transmitting joints. The connection of discrete elements in pre-cast concrete structures has a vital role in the overall continuity of the building. In the present study, different connections and connectors are subjected to various dynamic loading conditions under analytical, experiment and numerical investigations. Most studies focused on the impact of connections for various pre-cast structural elements. The development of the finite element model, dimensions and connection material of the pre-cast wall panel connections and connectors were evaluated. This paper focuses primarily on the case studies of actual pre-cast elements subjected to various loading in experiment, analytical and numerical investigation. The paper also discusses the current issues and possible challenges..
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