Article
Computer Science, Information Systems
Sydney Mambwe Kasongo
Summary: In recent years, advances in technologies such as cloud computing, vehicular networks systems, and the Internet of Things (IoT) have led to a spike in the amount of information transmitted through communication infrastructures. Consequently, attackers have increased their efforts to exploit vulnerabilities in network systems. Therefore, it is crucial to enhance the security of these network systems. This study implements an IDS framework using Machine Learning techniques and evaluates its performance using benchmark datasets.
COMPUTER COMMUNICATIONS
(2023)
Article
Computer Science, Interdisciplinary Applications
Kurniabudi, Deris Stiawan, Mohd Yazid Bin Darmawijoyo, Mohd Yazid Bin Idris, Sarjon Defit, Yaya Sudarya Triana, Rahmat Budiarto
Summary: The presence of the internet of things allows smart devices to connect and interact with each other. However, IoT is vulnerable to new types of attacks. The massive IoT traffic requires large resources for intrusion detection systems to identify attacks. Therefore, a lightweight IDS is needed to identify new types of attacks.
JOURNAL OF COMPUTATIONAL SCIENCE
(2022)
Article
Computer Science, Information Systems
Mohamed ElKashlan, Mahmoud Said Elsayed, Anca Delia Jurcut, Marianne Azer
Summary: The demand for electric vehicles is increasing rapidly, requiring a secure ecosystem. This paper proposes a machine learning algorithm for detecting malicious traffic in the IoT environment. By using real IoT traffic data, the algorithm is evaluated on different traffic models, providing stability and eliminating cyberattacks on electric vehicle charging stations.
Article
Multidisciplinary Sciences
Prabhat Kumar, Govind P. Gupta, Rakesh Tripathi
Summary: The paper introduces an intelligent cyber attack detection system for IoT networks, utilizing a novel feature reduction approach to improve detection efficiency. Experimental comparisons demonstrate the model's high accuracy and detection rate in cyber attack detection.
ARABIAN JOURNAL FOR SCIENCE AND ENGINEERING
(2021)
Review
Chemistry, Analytical
Khalid Albulayhi, Abdallah A. Smadi, Frederick T. Sheldon, Robert K. Abercrombie
Summary: This paper surveys deep learning approaches for intrusion detection systems in the Internet of Things, provides a comparative study of IDSs, evaluates anomaly-based IDSs on DL methods, and analyzes the performance metrics and classification algorithms. The study model shows promising outcomes for all classes of attacks in IoT ecosystems using empirically based datasets.
Article
Computer Science, Artificial Intelligence
Wathiq Laftah Al-Yaseen, Ali Kadhum Idrees, Faezah Hamad Almasoudy
Summary: This paper proposes an efficient feature selection method for intrusion detection systems to reduce redundant and irrelevant features, improve system performance, and decrease processing time. The experiments demonstrate that the proposed method significantly enhances the accuracy and efficiency of IDS.
PATTERN RECOGNITION
(2022)
Article
Computer Science, Information Systems
Manal Alanazi, Ahamed Aljuhani
Summary: The security issues of the Internet of Things (IoT) pose a significant challenge, and anomaly detection based on machine learning is an effective solution to mitigate the risk of IoT cyberattacks. This paper proposes an intelligent, effective, and lightweight detection approach that can accurately and efficiently predict multiple types of IoT attacks.
CMC-COMPUTERS MATERIALS & CONTINUA
(2022)
Article
Computer Science, Information Systems
Wenjuan Wang, Xuehui Du, Dibin Shan, Ruoxi Qin, Na Wang
Summary: This study utilizes deep learning to automatically extract essential feature representations in the cloud computing environment and designs a novel cloud intrusion detection system. By integrating deep learning and shallow learning techniques, it effectively reduces analytical overhead and achieves higher detection performance on intrusion detection evaluation datasets.
IEEE TRANSACTIONS ON CLOUD COMPUTING
(2022)
Article
Computer Science, Information Systems
Vu-Duc Ngo, Tuan-Cuong Vuong, Thien Van Luong, Hung Tran
Summary: Internet of Things (IoTs) has been widely used in various sectors and is vulnerable to cyber-attacks. This paper compares feature extraction and feature selection methods for machine learning-based intrusion detection in IoT networks. The comparison is based on performance metrics and the UNSW-NB15 dataset.
CLUSTER COMPUTING-THE JOURNAL OF NETWORKS SOFTWARE TOOLS AND APPLICATIONS
(2023)
Article
Chemistry, Analytical
Anjum Nazir, Zulfiqar Memon, Touseef Sadiq, Hameedur Rahman, Inam Ullah Khan
Summary: The Internet of Things and network-enabled smart devices are crucial in today's digitally interconnected society. However, they also pose challenges to cybersecurity, particularly in the research and development of intrusion-detection systems. This paper proposes a wrapper-based feature-selection algorithm that can improve accuracy while reducing the number of features and false positive rate.
Article
Computer Science, Information Systems
Xiangyu Liu, Yanhui Du
Summary: With the widespread use of the Internet of Things, security issues have become increasingly prominent. The accurate detection of network attacks in the IoT environment with limited resources is a critical problem that needs to be urgently solved. This work proposes a feature selection method based on a genetic algorithm to address the problem of a large number of traffic features in the intrusion detection system. Experimental results show that this method achieves high detection accuracy and improves training time compared to other methods.
Article
Computer Science, Information Systems
Deris Stiawan, Ahmad Heryanto, Ali Bardadi, Dian Palupi Rini, Imam Much Ibnu Subroto, Kurniabudi, Mohd Yazid Bin Idris, Abdul Hanan Abdullah, Bedine Kerim, Rahmat Budiarto
Summary: This study aims to find the best relevant selected features for intrusion detection system by using six feature selection methods, combining them with four classification methods to generate optimized ensemble IDSs, and evaluating them through various validation approaches to improve performance.
Article
Chemistry, Analytical
Rami Ahmad, Raniyah Wazirali, Qusay Bsoul, Tarik Abu-Ain, Waleed Abu-Ain
Summary: Wireless Sensor Networks (WSNs) are currently facing challenges in terms of energy and security, with a focus on protection against Denial of Service (DoS) and Distributed DoS (DDoS) attacks. Machine learning-based systems are considered essential for addressing these security threats, especially as network data traffic becomes more complex. Techniques such as feature selection with machine learning algorithms have been shown to improve DoS anomaly detection and impact the lifetime of WSNs. Additionally, introducing new algorithms like CH_Rotations can enhance anomaly detection efficiency and network lifetime in comparison to standard protocols. Evaluation results have highlighted the effectiveness of certain feature selection methods, such as Water Cycle (WC), in improving performance accuracy and reducing network lifetime compared to traditional scenarios.
Article
Computer Science, Information Systems
Abdallah A. Alhabshy, Bashar I. Hameed, Kamal Abdelraouf Eldahshan
Summary: This study introduces a distributed computing-based security model to protect big data systems from various cyber-attacks. The model combines multiple binary classifiers into a single model through stacking to detect normal behavior and abnormal attacks in a network.
Review
Automation & Control Systems
M. Di Mauro, G. Galatro, G. Fortino, A. Liotta
Summary: Machine Learning techniques are becoming increasingly important in network intrusion detection for uncovering hidden cyber-threats in abnormal flows. However, dealing with the vast diversity and number of features in data traffic is a challenging problem.
ENGINEERING APPLICATIONS OF ARTIFICIAL INTELLIGENCE
(2021)
Article
Engineering, Multidisciplinary
Dan Wang, Tao Hai
Summary: The present study numerically analyzed the hydrothermal characteristics of a pin-fin heatsink with a splitter using a two-phase mixture model. The results showed that the splitter heatsink had higher heat transfer coefficients and lower pumping power than the heatsink without a splitter. Additionally, the splitter heatsink had lower CPU temperatures, indicating better hydrothermal performance.
ENGINEERING ANALYSIS WITH BOUNDARY ELEMENTS
(2023)
Article
Engineering, Multidisciplinary
Tao Hai, Hayder A. Dhahad, Jincheng Zhou, Anas Abdelrahman, Sattam Fahad Almojil, Abdulaziz Ibrahim Almohana, Abdulrhman Fahmi Alali, Teeba Ismail Kh, Kamal Sharma, Masood Ashraf Ali, Khaled Twfiq Almoalimi
Summary: This study investigated the energy utilization of a radiant floor system with phase change materials (PCMs) in the external walls and roof of a building through numerical analysis. The results showed that PCMs can significantly reduce energy consumption in specific climate conditions, and an artificial neural network (ANN) can accurately predict the energy utilization.
ENGINEERING ANALYSIS WITH BOUNDARY ELEMENTS
(2023)
Article
Engineering, Multidisciplinary
Hai Tao, Mohammed Suleman Aldlemy, Omer A. Alawi, Haslinda Mohamed Kamar, Raad Z. Homod, Hussein A. Mohammed, Mustafa K. A. Mohammed, Abdul Rahman Mallah, Nadhir Al-Ansari, Zaher Mundher Yaseen
Summary: A flat-plate solar collector was used to evaluate the energy and economic estimates through numerical simulation. Two different shapes and concentrations of nanofluids were tested, and hybrid nanocomposites were compared. CuO-Platelets showed the highest pressure drop and thermal enhancement, as well as a reduction in collector size. CuO@Cu-Spherical required a larger collector size. CuO-Platelets, CuO-Cylindrical, Cu-Platelets, and Cu-Cylindrical had the lowest total cost, while the total cost of CuO-Cu-Platelets varied depending on the mixing ratio.
ENGINEERING APPLICATIONS OF COMPUTATIONAL FLUID MECHANICS
(2023)
Article
Green & Sustainable Science & Technology
Tao Hai, Yao Liu, Jincheng Zhou, Shaoyi Li, Jasni Mohamad Zain, Marina Yusoff, Sana Ben Moussa, Hala H. Abd El-Gawad
Summary: In the development of building energy sector, the use of smart energy plants with advanced control strategies is crucial for energy reduction and improved inhabitant comfort. The combination of solar Photovoltaic-Thermal (PVT) panels with a reversible heat pump was designed and analyzed to provide electricity, cooling, and heating energies for a case study building. The performance of the plant was assessed in terms of capital cost, CO2 saving ratio, and payback period. The results showed that the proposed building energy plant has a 5 year payback period, 1.93 CO2 saving ratio, and a capital cost of 513328 $. The volume of storage tanks was also found to have a significant impact on economic indicators and CO2 saving ratio.
JOURNAL OF CLEANER PRODUCTION
(2023)
Article
Materials Science, Composites
Tao Hai, Fahad Mohammed Alhomayani, Teeba Ismail Kh, Rishabh Chaturvedi, Masood Ashraf Ali
Summary: The present study focuses on chemically modifying polyethylene glycol (PEG) to enhance shear thickening fluids (STFs) and improve the ballistic impact and quasi-static resistance performance of 3D E-glass fabrics. Two agents, oxalic acid and glutaric acid, were used to modify the carrier fluid (PEG 200), and the modified PEGs were characterized using FTIR analysis. Rheological analysis showed that the modified STFs (G/STF and O/STF) had higher peak viscosity compared to pure STF (P/STF). The improved viscosity resulted in enhanced ballistic resistance and quasi-static performance of the modified STF-treated fabrics.
JOURNAL OF COMPOSITE MATERIALS
(2023)
Article
Green & Sustainable Science & Technology
Tao Hai, Masood Ashraf Ali, As 'ad Alizadeh, Hayder A. Dhahad, Sattam Fahad Almojil, Abdulaziz Ibrahim Almohana, Abdulrhman Fahmi Alali, Vishal Goyal, Babak Farhang
Summary: This paper proposes and analyzes two novel configurations for hybridization of geothermal and biomass energies. In Configuration 1, geothermal heat is used for feed water heating, while in Configuration 2, geothermal energy is used for steam generation for the low pressure steam turbine stage. The method of hybridization of geothermal and biomass resources in this paper is different from previous researches and can utilize geothermal resources with various temperature levels.
SUSTAINABLE ENERGY TECHNOLOGIES AND ASSESSMENTS
(2023)
Article
Green & Sustainable Science & Technology
Tao Hai, Masood Ashraf Ali, Hayder A. Dhahad, As 'ad Alizadeh, Kamal Sharma, Sattam Fahad Almojil, Abdulaziz Ibrahim Almohana, Abdulrhman Fahmi Alali, El-Awady Attia
Summary: An integrated refrigeration system is designed to utilize waste heat from an ejector-expansion trans-critical CO2 (EETRCC) cooling scheme for cooling both above and below zero degrees Celsius. The system employs the waste heat through an absorption refrigeration system and a CO2 trans-critical refrigeration cycle, resulting in significantly better performance compared to a standalone EETRCC cycle. Economic considerations and thermodynamic models are used to assess feasibility and estimate the cost of produced cooling.
SUSTAINABLE ENERGY TECHNOLOGIES AND ASSESSMENTS
(2023)
Article
Thermodynamics
Tao Hai, Dler Hussein Kadir, Afshin Ghanbari
Summary: The objective of this study is to model the emission characteristics of hydrogen-enriched natural gas engines (HENGEs) using the multilayer perceptron neural network (MLPNN) and multi-output least squares support vector regression (MLS-SVR) methods. The MLS-SVR algorithm outperforms the MLPNN in accurately predicting the emissions of methane, carbon monoxide, and NOx. The MLS-SVR estimates the experimentally-measured emissions with an average relative deviation of 3.55%, 3.30%, and 4.22% for methane, carbon monoxide, and NOx, respectively.
Article
Engineering, Multidisciplinary
Tao Hai, Omar I. Awad, Shaoyi Li, Jasni Mohamad Zain, Ali A. H. Karah Bash
Summary: In this paper, a simulation is conducted on the nanofluid flow inside a U-shaped tube under a solar panel, using a turbulator to enhance heat transfer. The results show that the use of a turbulator reduces the panel temperature and increases the complete melting time of phase change material.
ENGINEERING ANALYSIS WITH BOUNDARY ELEMENTS
(2023)
Article
Engineering, Multidisciplinary
Guanwei Wang, Tao Hai, Johnny Koh Siaw Paw, Jagadeesh Pasupuleti, Ahmed N. Abdalla
Summary: The aim of this research was to numerically investigate the effect of using a perforated twisted tube turbulator on the energy and exergy yields of a concentrating photovoltaic thermal (PVT) device. The simulations were conducted under different Reynolds numbers (Re) and twist distances (TD) for both non-perforated and perforated turbulators. The results showed that the PVT device with a perforated turbulator had the best performance, while the device without a turbulator had the worst performance. Among the examined perforated turbulators, the one with 3 holes per pitch had the highest performance.
ENGINEERING ANALYSIS WITH BOUNDARY ELEMENTS
(2023)
Article
Materials Science, Composites
Tao Hai, Fahad Mohammed Alhomayani, Hussein Ajam, Ahmed S. M. Metwally
Summary: Shear thickening fluid (STF) impregnated fabrics enhance impact resistance. Modification of polyethylene glycol (PEG 200) improves the thickening behavior of STF by increasing viscosity. Increasing molecular length of PEG-based STF improves knife and spike stabbing impact resistance, quasi-static, and yarn pull-out performance. In addition, the energy absorption ability of STF-treated fabric composite increases with increasing impact velocity. The pull-out rate has a significant effect on the mechanical response of different materials.
JOURNAL OF COMPOSITE MATERIALS
(2023)
Article
Engineering, Environmental
Tao Hai, Walid El-Shafai, Riyadh AL-Obaidi, Bhupendra Singh Chauhan, Teeba Ismail Kh, Nasser M. Abd El-Salam, Babak Farhang
Summary: High-temperature Solid Oxide Fuel Cell (SOFC) technology has great potential, but faces challenges such as high operating costs and difficulty in integration with other components. This study proposes a novel system that uses carbon capture and utilization, flue gas condensation, and Molten Carbonate Fuel Cells (MCFC) to address these challenges. The system also includes a gasifier and vanadium chloride unit for syngas and clean hydrogen production. The findings show that the proposed system is effective, financially attractive, and contributes to reducing pollutants. The overall assessment of the importance of this article: 8/10.
PROCESS SAFETY AND ENVIRONMENTAL PROTECTION
(2023)
Article
Green & Sustainable Science & Technology
Tao Hai, Haitao Lin, Bhupendra Singh Chauhan, Hamdi Ayed, Hassen Loukil, Ahmed M. Galal, Deniz Yaman
Summary: This study analyzes a multi-generation system that produces power, heating, and domestic consumable water. The system utilizes renewable energy sources, particularly subterranean geothermal reservoirs, to generate power. The system consists of various cycles, including a geothermal system, a Kalina cycle, an Organic Rankine Cycle, a supercritical CO2 cycle, and a reverse osmosis cycle. The study evaluates the energy, exergy, entransy, and exergoeconomic aspects of the system. The study also discusses optimization scenarios and uses the Engineering Equation Solver for simulation purposes.
Article
Computer Science, Artificial Intelligence
Tao Hai, Jasni Mohamad Zain, Kengo Muranaka
Summary: This study proposes the utilization of the modified fluid search optimization (MFSO) algorithm to regulate the incremental conductance (INC) controller for maximum power tracking. A MATLAB/Simulink model is constructed to evaluate the performance of the proposed approach and has been tested across various weather conditions. The simulation results demonstrate the effectiveness of the suggested approach in monitoring the maximum power point under different environmental circumstances, achieving a performance rate exceeding 99.3%.
Article
Energy & Fuels
Tao Hai, Farhan A. Alenizi, Husam Rajab, Pradeep Kumar Singh, Ahmed Sayed Mohammed Metwally, Hasan Sh. Majdi
Summary: Global warming has caused problems, and renewable energy is seen as a possible solution. In this research, a multi-generation system is modeled, including various components to produce power, cooling load, desalinated water, and hydrogen. The system is optimized using a genetic algorithm in MATLAB, resulting in improved energy and exergy efficiencies, as well as increased power production.
Article
Construction & Building Technology
Gabriele Bernardini, Tiago Miguel Ferreira, Pilar Baquedano Julia, Rafael Ramirez Eudave, Enrico Quagliarini
Summary: This research offers a methodology for combined spatiotemporal flood risk assessment, considering hazard, physical vulnerability, user exposure, and vulnerability. It adopts a mesoscale approach and investigates indoor and outdoor users' exposure and vulnerability, using the Analytical Hierarchy Process to combine risk factors.
SUSTAINABLE CITIES AND SOCIETY
(2024)
Article
Construction & Building Technology
Ying Liu, Chunli Chu, Ruijun Zhang, Shaoqing Chen, Chao Xu, Dongliang Zhao, Chunchun Meng, Meiting Ju, Zhi Cao
Summary: This study investigates the effects of increasing road, wall, and roof albedo on mitigating the urban heat island (UHI) effect in different areas of Tianjin. The results reveal that increasing road albedo is more effective in fringe areas, while increasing wall and roof albedo is more effective in central areas. The temperature changes induced by albedo changes also show seasonal characteristics.
SUSTAINABLE CITIES AND SOCIETY
(2024)
Article
Construction & Building Technology
Xisheng Lin, Yunfei Fu, Daniel Z. Peng, Chun-Ho Liu, Mengyuan Chu, Zengshun Chen, Fan Yang, Tim K. T. Tse, Cruz Y. Li, Xinxin Feng
Summary: This study employed computational fluid dynamics and neural network models to investigate and predict pollutant dispersion in urban environments, providing valuable insights for designing effective strategies to mitigate the impacts of hazardous pollutants.
SUSTAINABLE CITIES AND SOCIETY
(2024)
Article
Construction & Building Technology
Dipanjan Nag, Arkopal Kishore Goswami
Summary: Future-oriented urban planning should continue to focus on the principles of accessible and walkable cities. The perception of people is crucial for developing better urban walking infrastructure, but current evaluation tools often neglect the "perceived" features of the walking network. This study used conjoint analysis to evaluate users' perception of link and network attributes, revealing the importance of considering both in improving the walking environment.
SUSTAINABLE CITIES AND SOCIETY
(2024)
Article
Construction & Building Technology
Yongxin Su, Tao Zhang, Mengyao Xu, Mao Tan, Yuzhou Zhang, Rui Wang, Ling Wang
Summary: This study proposes an optimization method for household integrated demand response (HIDR) by combining rough knowledge and a dueling deep Q-network (DDQN), aiming to address uncertainties in a household multi-energy system (HMES). The simulation results demonstrate that the proposed method outperforms rule-based methods and DDQN in terms of energy cost savings.
SUSTAINABLE CITIES AND SOCIETY
(2024)
Article
Construction & Building Technology
Sijia Sun, S. F. A. Batista, Monica Menendez, Yuanqing Wang, Shuang Zhang
Summary: This paper comprehensively analyzes the energy consumption characteristics of electric buses (EBs) and diesel buses (DBs) on different bus lane configurations and operational conditions. The study shows that EBs consume less energy in suburban areas when using regular lanes, while both EBs and DBs save substantial energy when operating on dedicated bus lanes in downtown areas. Notably, shared-use bus lanes have the highest energy consumption.
SUSTAINABLE CITIES AND SOCIETY
(2024)
Article
Construction & Building Technology
Shangshang Shen, Dan Yan, Xiaojie Liu
Summary: This study developed a comprehensive theoretical framework for evaluating, diagnosing, and optimizing multi-functional urban agriculture. The framework was applied in Xiamen, China to identify the obstacles that impede its coordinated development and propose optimized modes for its development. Results showed that urban agriculture in Xiamen exhibits sound social function, moderate economic function, and poor ecological function.
SUSTAINABLE CITIES AND SOCIETY
(2024)
Article
Construction & Building Technology
Oluwafemi E. Adeyeri, Akinleye H. Folorunsho, Kayode I. Ayegbusi, Vishal Bobde, Tolulope E. Adeliyi, Christopher E. Ndehedehe, Akintomide A. Akinsanola
Summary: This study examines the impact of land cover, vegetation health, climatic forcings, elevation heat loads, and terrain characteristics on land surface temperature distribution over West Africa. The random forest model performs the best in downscaling predictands. The southern regions consistently exhibit healthy vegetation, while areas with unhealthy vegetation coincide with hot land surface temperature clusters. Positive Normalized Difference Vegetation Index trends in the Sahel highlight rainfall recovery and subsequent greening. Southwest winds cause the upwelling of cold waters, resulting in low land surface temperatures in southern West Africa. Considering LVCET factors is crucial for prioritizing greening initiatives and urban planning.
SUSTAINABLE CITIES AND SOCIETY
(2024)
Article
Construction & Building Technology
Yuchi Cao, Yan Li, Shouyun Shen, Weiwei Wang, Xiao Peng, Jiaao Chen, Jingpeng Liao, Xinyi Lv, Yifan Liu, Lehan Ma, Guodian Hu, Jinghuan Jiang, Dan Sun, Qingchu Jiang, Qiulin Liao
Summary: The study reveals significant disparities in urban green equity, with high property price areas having better access to green spaces than low property price areas. Landscape and greening have the most significant impact on urban green space differentiation.
SUSTAINABLE CITIES AND SOCIETY
(2024)
Article
Construction & Building Technology
Shaobo Sun, Kui Shan, Shengwei Wang
Summary: Economizer control is an important measure for energy savings in air-conditioning systems during moderate seasons. Humidity measurement uncertainties have a significant impact on enthalpy-based economizer control, and an uncertainty-tolerant control strategy is proposed to mitigate these effects.
SUSTAINABLE CITIES AND SOCIETY
(2024)
Article
Construction & Building Technology
Ding Mao, Peng Wang, Yi-Ping Fang, Long Ni
Summary: This study analyzes the structure, function, operation, and failure characteristics of district heating networks (DHNs) and proposes vulnerability analysis methods. The effectiveness of these methods is validated through application to a DHN in a Chinese city. The study finds that the heat source connectivity efficiency loss rate effectively characterizes topological and functional vulnerability. It also reveals that controllable DHNs have higher functional vulnerability under large area failure scenarios.
SUSTAINABLE CITIES AND SOCIETY
(2024)
Article
Construction & Building Technology
Hamid Karimi, Saeed Hasanzadeh, Hedayat Saboori
Summary: This paper presents a stochastic and cooperative approach for the operation of a cluster of interconnected multi-energy systems. The proposed model investigates the interaction among energy systems and integrates hydrogen and water systems into the overall energy structure. The model studies the performance of energy system agents in decentralized and cooperative scheduling.
SUSTAINABLE CITIES AND SOCIETY
(2024)
Article
Construction & Building Technology
Zhiyu Yan, Xiaogang Guo, Zilong Zhao, Luliang Tang
Summary: This study proposes a novel framework for fine-grained information extraction and dynamic spatial-temporal awareness in disaster-stricken areas based on social media data. The framework utilizes deep learning modules to extract location and water depth information from text and images, and analyzes the spatio-temporal distribution characteristics. The results show that the fusion of text and image-based information can enhance the perception of flood processes.
SUSTAINABLE CITIES AND SOCIETY
(2024)
Article
Construction & Building Technology
M. A. Pans, G. Claudio, P. C. Eames
Summary: This study simulated and optimized a speculative district heating system in an existing urban area in Loughborough, UK. The system used only renewable heat sources and thermal energy storage to address the mismatch between heat generation and demand. The study assessed the impact of long-term storage volume and charging temperature on system cost and energy efficiency.
SUSTAINABLE CITIES AND SOCIETY
(2024)
Article
Construction & Building Technology
Jianmei Zhong, Wei Zhang, Xiaoli Wang, Jinsheng Zhan, Tao Xia, Lingzhi Xie, Xiding Zeng, Kun Yang, Zhangyu Li, Ruiwen Zou, Zepu Bai, Qing Wang, Chenyang Zhang
Summary: This study aims to propose a suitable air distribution design and reduce the energy consumption of the BSL-4 laboratory. It analyzes the diffusion characteristics of aerosols, infection risk under different air distributions, and ventilation parameters. The results show that the proposed energy-saving operation strategy can reduce the energy consumption of the laboratory by 15-30%.
SUSTAINABLE CITIES AND SOCIETY
(2024)
