Hygiène, Sécurité et environnement(HSE)
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Browsing Hygiène, Sécurité et environnement(HSE) by Author "Zennir Youcef"
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Item A Comparative Study of STPA Hierarchical Structures in Risk Analysis: The case of a Complex Multi-Robot Mobile System(Hal open science journal.Volume 18, 2019.pp 163-174, 2019-01-01) Zennir Youcef; Bensaci ChaimaAutonomous multi-robot systems are among the most complex systems to control, especially when those robots navigate in fully hazardous and dynamic environments such as chemical analysis laboratories which include dangerous and harmful products (poisonous, flammable, explosive...). This paper presents an approach for systems-complex and theoretic safety assessment, also it considers their coordinating, cooperating and collaborating using different control architectures (centralized, hierarchical and modified hierarchical). We classified at first those control architectures according to their properties using Bowtie analysis method, and then we used a systems-theoretic hazard analysis technique (STPA) to identify the potential safety hazard scenarios and their causal factors .Item A New Approach to System Safety of humanmulti-robot mobile system control with STPA and FTA(ALGERIAN JOURNAL OF SIGNALS AND SYSTEMS (AJSS). Vol. 5, Issue 1.pp79-85, 2020-03-01) Bensaci Chaima; Zennir YoucefAutonomous Mobile multi-robots are among the most complex systems in their control. Especially when those robots navigate in hazardous and dynamic environments such as chemical analysis laboratories which include dangerous and harmful products (poisonous, flammable, explosive ...). This study deals the safety problem in a robotic analysis laboratory and investigates the possibility to use those autonomous multirobots in such environments with the presence of human workers without serious hazards. We used a systems-theoretic hazard analysis technique (STPA) in addition to fault tree analysis to identify the potential safety hazard scenarios, their causal factors and we conclude by a set of recommendations.Item A systematic approach for risk assessment in LPG storage tanks area – SKIKDA refinery.(Algerian Journal of Environmental Science and Technology. Vol.X. NoX. (YYYY), 2021-05-17) ; Mechhoud El-Arkam; ; Zennir YoucefIn this work we present a risk assessment methodology, Implemented based on the integration of two methods D-HIGRAPH and HAZOP. The approach is applied on the LPG storage Area in SKIKDA refinery (the most important refinery in Algeria). Several recommendations raised from the study to improve the plant safety. The study is completed by simulating the effects resulted from an explosion in the sphere S-151 (for butane storage) using ALOHA Software. In simulation, the following cases are considered: the explosion effect, the toxic material release and the thermal effect of flammable material release, the results are mapped on the refinery map to indicate the exact threated zonesItem Adaptive Sliding Mode Control Improved by Fuzzy-PI Controller: Applied to Magnetic Levitation System †(Journal Engineering Proceedings.. 2022, 14, 14. https://doi.org/10.3390/engproc2022014014.pp 01-09, 2022-02-08) ; Zennir YoucefThis study mainly concerns the use of Fuzzy-PI adaptive sliding control (Fuzzy-ASMC) to force the stat space of MAGLEV to track a desired trajectory. The usage of adaptive sliding mode control allows the MAGLEV to operate in an uncertain environment and in the presence of external disturbances. The Fuzzy-PI schema is designed to improve the performance of adaptive sliding mode control and reduce the main drawback caused by the discontinuous term of this method, which is the well-known chattering phenomenon. The results of our study prove the effectiveness of the proposed approach in achieving desired performancesItem An Intelligent Optimization Algorithm for Scheduling the Required SIL Using Neural Network †(Journal Engineering Proceedings.Eng. Proc. 2023, 29, 5. https://doi.org/10.3390/engproc2023029005.pp 1-10., 2023-01-11) ; ; Zennir YoucefThe purpose of safety analysis is to ensure that hazards and risks that could be a possible source of harm and damage are reduced well enough by dealing with all phases of the safety lifecycle and design of suitable safety barriers. It is known that any error or failure to perform the function of each proposed safety barrier can cause extreme damage to the environment, facilities and humans, and even loss of life. Therefore, it is necessary to ensure the effectiveness of the study or analysis. However, even with the major development in control system fields the problems of uncertainties, classification and optimization are still considered unsolved issues. In recent years several tools are developed based on artificial intelligence to deal with such difficulties. In this work, an approach based on Artificial Neural Networks (ANN) is developed to schedule the SIL values of the safety integrity functions (SIF) of an industrial-fired heater. The SIFs are first deduced from HAZOP study for the fired heater. The SIL risk of the consequences related to personnel health and safety, the economic SIL and environment SIL are considered as inputs of the multilayer network with a predefined hard limit activation function.Item Analyzing Storage Tank Incidents: Utilizing Fishbone Diagram and Fault Tree Methods(International Journal of Automation and Safety (IJAS). Vol.02, N°: 0.pp 47-56, 2024-06-30) Zennir YoucefOil and gas are the most important energies in the word. To exploit them both, go through a set of steps such as exploration; drilling, extraction, refining and storage. In this last step (storage), there are several methods of storage using floating Roof Tanks, Fixed Roof Tanks, Fixed Roof Tanks with internal floating Roof, Sphere…. etc. In storage phase happen many accidents and incidents. This paper divided in two main parts, the first part reviews storage tank types, storage tanks accidents types and accident locations. And in the second parts we used Fish bone Diagram (Ishikawa Diagram) and Fault tree method to investigate the causes of storage tanks accidents/incidents and their mitigation action. The statical analysis of the accident shows that 74%of accident happened between refinery facilities and the most common accidents are Fire and Explosion by 80%. While the most two major causes of accidents are Lightning by 33%, followed by human Error by 30%Item Application of STPA for Comprehensive Risk Analysis of Naphtha Explosion Hazards Case study: Column C-63 at Skikda-RA1K refinery(ALGERIAN JOURNAL OF SIGNALS AND SYSTEMS (AJSS).Vol. 9, Issue 3.pp153-161, 2024-09-30) Zennir YoucefChemical accidents always result in significant losses due to the flammable, explosive, and toxic characteristics of hazardous chemicals. Analysis of process safety parameters is an effective way to prevent hazardous chemical accidents and reduce losses. System-theoretic process analysis (STPA) is a newer hazard analysis technique that is based on systems theory. It has been shown to be effective in identifying hazards in other industries, but its application in oil and gas plants is still rare and limited due to systems complexities and other challenges. This paper aims to apply the STPA method to a complex system “column C-63” at the Skikda RA1K refinery to prevent the explosion scenario of naphtha. The results show that STPA was able to identify the root causes of the explosion scenario, which is important for preventing chemical risks.Item Approche distribuée de l'apprentissage : Application au contrôle de la trajectoire d'un robot hexapode(Journal Européen des Systèmes Automatisés. Volume 39- n°8. pp 965-993, 2005-10-01) Zennir YoucefUne approche distribuée de l’apprentissage par renforcement de type Q-learning est proposée dans laquelle des groupes d’agents contribuant à une même tâche mènent leur apprentissage en tenant compte ou non de l’existence des autres agents. L’approche est appliquée à la commande d’un robot hexapode pour qu’il apprenne à marcher et à changer de trajectoire tout en contrôlant sa posture. Les résultats de simulation valident l’approche proposée. D’autres travaux de recherche relatifs au domaine sont discutés.Item Automated depandability analysis of the HDPE Reactor using D-higraphs HAZOP assistant(ALGERIAN JOURNAL OF SIGNALS AND SYSTEMS (AJSS). Vol. 2, Issue 4.pp 255-265, 2017-12-01) Mechhoud El-Arkam; Zennir YoucefIn this paper we present a HAZOP Assistant based on D-higraphs and dedicated to a functional modeling technique that gathers functional and structural information of the process under study. This work is applied to the study of an industrial case - High Density Polyethylene reactor part of the CP2K plant situated in the petrochemical platform of Skikda- and its results are compared with the conventional HAZOP study and SADT method.Item Autonomous Obstacle Avoidance for a Hexapod Robot Using Proximity Sensors(international Journal of Automation and Safety (IJAS)Vol.02, N°: 01.pp 01-06, 2024-06-30) Zennir YoucefThe hexapod walking robot serves as a versatile mobile platform, adept at navigating challenging terrains owing to its stable leg-based locomotion. Demonstrating high stability in both static and dynamic states, it effectively traverses terrains with obstacles. In this paper, we propose a method for obstacle avoidance utilizing proximity sensors, integrated with an Intelligent Walking Algorithm (IWA) for locomotion control, and a tripod gait algorithm for walking. Our simulations were conducted using the CoppeliaSim simulator with the Python interface. The results were highly satisfactory, as the robot consistently avoided obstacles with a remarkable combination of stability and precision.Item Cost and Risk Prediction in Road Transportation of Hazmat by ANFIS Trained with PSO, FA, HBBO and ICA(International Journal of Safety and Security Engineering.Vol. 12, No. 4, August, 2022, pp. 429-439, 2022-08-01) ; Zennir Youcef;This paper proposes adaptive neuro-fuzzy inference system (ANFIS) to predict the risk with its aggregated cost (CR) of an accident in road transportation of hazardous material, the aim is to provide a more accurate and reliable data for the safety of transportation. The determination risk index by the conventional methods such as Risk graphs and deterministic approaches may lead to imprecise values due to the uncertainties, in both parameters and models. The proposed technique is a hybrid schema, which combines the main advantageous of fuzzy logic (address uncertainties) and neural network (learn from a given data). In other hand our study seeks to tune the parameters of the proposed model by particle swarm optimization (PSO), firefly algorithm (FA), imperialist competitive algorithm (ICA) and human based-behavior optimization (HBBO) and hence optimize the performance of ANFIS. The simulation result of this work and the comparative analysis shows that ANFIS yield height performance and the ANFIS-PSO was the outstanding one in the training phase, while ANFIS-FA gives better results in the testing process.Item Deep Q-Learning-Based Trajectory Optimization for Vehicle Navigation in CARLA(ALGERIAN JOURNAL OF SIGNALS AND SYSTEMS (AJSS).Vol. 9, Issue 2.pp 128-133, 2024-06-01) Zennir YoucefThis paper presents a comprehensive study that focuses on simulating a vehicle within the autonomousvehicle simulator, CARLA. The primary objective of this research is to enable the vehicle to accurately follow apredetermined trajectory while effectively avoiding obstacles in its environment. Deep QLearning algorithms areemployed to achieve this goal, aiming to optimize the safety of the vehicle'snavigation. The simulation of the vehicleserves as a platform for studying the rules of Deep Q-Networks (DQN) and their impact on the vehicle's navigation.The objective is to identify the most suitable rule that leads to improved optimization of the vehicle's trajectory. Byleveraging the capabilities of CARLA as the simulation environment and implementing state-of-the-art DQNalgorithms, this research contributes to the advancement of autonomous vehicle technology. The findings of this studyhave practical implications for enhancing the safety and efficiency of autonomous vehicle navigation systems, makingthem highly relevant to industryprofessionals, researchers, and academic scholars in this field.Item Design and Simulation of Graphical User interface for Cables Parallel Robot(ALGERIAN JOURNAL OF SIGNALS AND SYSTEMS (AJSS).Vol. 5, Issue 1.pp 66-72, 2020-03-01) Innal Fares; Zennir YoucefIn this paper, we have presented the 3D cables parallel robot in pyramid’s form. The dynamic equation has been established including the dynamic behavior, in this context; we investigated to use the Runge Kutta method of 4th order to solving non-linear partial differential equation of our system. The main contribution of this work is firstly: a graphical user interface (GUI) has been developed and implemented based on the geometric model, in order to visualizing the position of end effect or, taking account model uncertainties and payload variation. Secondly, we have studied and solved our system’s dynamical equation with implementation the PD control. This last, applied for different trajectories so as to test the accurate tracking the desired trajectory simulation using MATLAB software. As a result, the simulation tests on this robot verify the efficiency performance of the proposed controller.Item Design of Type 2 Fuzzy Logic Controller for FESTO Process Workstation †(Journal Engineering Proceedings.Eng. Proc. 2023, 29, 6. https://doi.org/10.3390/engproc2023029006. pp 8-8, 2023-01-01) ; Mechhoud El-Arkam; ; ; Zennir YoucefFuzzy logic is the most effective mathematical solution that has been presented in the last few years to deal with the problems in which imprecise and uncertain data exist. It can be defined as a generalization of classical binary logic, which admits only two logical states, true or false, by adding degrees of truth between the extreme values. Its basics were initiated by Lotfi Zadeh in the mid-1960s. However, in the last few years, a question was raised by different authors: yes, by using a fuzzy set or membership functions we can solve the problem of some kinds of uncertainties, but what is the situation in cases where the uncertainties exist in the membership function itself? To handle this situation, researchers introduce type 2 fuzzy logic. In our paper, we will introduce the design of a type 2 fuzzy logic controller to control the level in a FESTO process workstation. The mathematical model is first deduced, and after that the controller is designed. The simulation results show that the obtained controller gives very good transient characteristics for the system response work.Item Distributed vs. Hybrid Control Architecture Using STPA and AHP - Application to an Autonomous Mobile Multi-robot System(International Journal of Safety and Security Engineering.Vol. 11, No. 1.pp 1-12, 2021-02-17) Bensaci Chaima; Zennir Youcef; Innal FaresSystems composed of a fleet of autonomous mobile robots are among the most complex control systems. This control complexity is at a high level especially when those robots navigate in hazardous and dynamic environments such as chemical analysis laboratories. These systems include different dangerous and harmful products (toxic, flammable, explosive...) with different quantity. In order to perform its mission on a regular basis, this multi-robot system can be controlled according to multiple architectures. We propose, firstly, to apply the System Theoretic Process Analysis (STPA) on two selected control architectures, namely distributed and hybrid architectures in order to obtain a set of loss scenarios for each kind of architecture. For further assessment, the Analytic Hierarchy Process (AHP) is used to choose the best architecture. The proposed approach provides a risk analysis and a more practical comparison between the two control architectures of a mobile multi-robot system and facilitates decision-making, even in complex situations.Item Enhancing Mobility for Individuals with Disabilities: A Computer Vision-Based Approach to Electric Wheelchair Control(International Journal of Automation and Safety (IJAS) Vol.02, N°: 01.pp07-10, 2024-06-30) Zennir YoucefIn this work, we utilized a branch of artificial intelligence known as computer vision to provide easy and possible control of motorized wheelchairs in some special cases. We recognized that many disabled individuals who are unable to use their hands face challenges in operating traditional control sticks. Thus, we proposed a system that controls the wheelchair's movement by tracking the individual's head direction through a fixed camera placed in front of it. This means the wheelchair only moves based on the user's intended path as determined by their visual focus. This work has been successfully implemented in a simulated environment.Item Evaluation of safety barriers deduced from the HAZOP study of fired heater F201-101, ADRAR refinery, Algeria using ETA method.(ALGERIAN JOURNAL OF SIGNALS AND SYSTEMS (AJSS).Vol. 5, Issue 1.pp 47-52, 2020-03-01) Zennir YoucefThis paper described the method of event tree analysis that is commonly used to identify, characterize and estimate the risk. Quantitative estimates for probability of breach or failure and the resulting consequences can be obtained using event trees. Qualitative depictions of potential failure modes and consequences can also be developed using event trees. An event tree analysis (ETA) is an inductive procedure that shows all possible outcomes resulting from an accidental (initiating) event. An event tree consists of a sequence of interconnected nodes and branches. Each node defines a random variable that represents an uncertain event or state of nature. Branches originating from a node represent each of branches to represent the likelihood for each event or condition. These probabilities are conditional on the occurrence of the preceding events to the left in the tree. Our work includes a HAZOP study to determine the necessary safety barriers as a first step. And as a second step is their evaluation using ETA method of fired heater F201-101, ADRAR refinery, Algeria. This particular method is well suited to estimating the risk stemming from process plant failure. Neither the initiators of industrial accidents nor the layers of protection that prevent them are typically complex, that is, they do not usually require analysis by redundant systems or the time for on-line repair. Thus, they can be accurately characterized with the probability multiplication methods that from the basis of event tree analysisItem Evaluation of Safety Instrumented System in a petroleum plant and its impact on the environment(Algerian Journal of Environmental Science and Technology.Vol.X. NoX. (YYYY), 2021-05-17) Mechhoud El-Arkam; Zennir YoucefThe purpose of this work is to check the calculations to consolidate the safety instrumented system (SIS) in order to preserve the safety of the plant and the environment,and consider the consequences in case of failure. The application of our study will be focused ontheNaphta Stabilizer-B Reflux Drum in Skikda refinery using the combination of HAZOP-LOPA-Fault Tree methods. The aim of this paper is to verify that the intended safety integrity level of a safety instrumented system is achieved. Otherwise propose a solution to ameliorate the safety instrumented system to mitigate the studied scenario. In case of failure of the safety instumented system, severe damage to the installation and serious impact on the environment will be considered; the use of petri nets allows us to model the behavior of the system. So the objective of our work is to ensure that the appropriate and efficient safety system is installed.Item Functional modeling using D-higraph for process hazard analysis(ALGERIAN JOURNAL OF SIGNALS AND SYSTEMS (AJSS).Vol. 7, Issue 2.pp 71-76, 2022-06-01) ; Zennir Youcef; Mechhoud El-ArkamThe main objective of this paper is presenting the use of D-higraph to perform hazard analysis. Dhigraph is a functional modeling technique; it is used to capture the functional and structural aspects of process plants. It presents not only the functionality of the system with its goals, but also the relation existing between these functions/goals and the devices that perform/achieve them. This work is applied to the study of an industrial case in a petroleum plant in Skikda refinery.Item Fuzzy approach for safety integrity level evaluation to improve the safety of an industrial fred heater(International Journal of Systems Assurance - Engineering and Management, 2023-08-22) ; Zennir Youcef; ;ct The study proposes an integrated frame imple mented based on HAZOP and fuzzy evaluation of risk matrix (used to evaluate the safety integrity level), the aim is the improvement of an industrial fred heater safety. The determination of target SIL of any safety-instrumented function by the conventional methods such as Risk graphs, LOPA…may give imprecise values due uncertainties, in both parameters and models. Fuzzy theory is a useful math ematical approach to deal with the problem of uncertainties, by applying the membership principle introduced by L.A Zadeh. In this paper, we will use the Fuzzy theory to evalu ate the target SIL for HAZOP recommended safety func tions of a fred heater. The results will be compared with other SIL values (called calculated SIL and deduced using practical data of Probability of failure under Demand (PFD values). Depending on these comparison, recommendations for improvement are raised. In our case and from the overall study more safety functions should be added and the design of others have to be modifed to respect the required safety level
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