Devise of a W serpentine shape tube heat exchanger in a hard chromium electroplating process

Tanthadiloke, S., Kittisupakorn, P., Boriboonsri, P., Mujtaba, Iqbal M.

19 April 2018

Yes / In a hard chromium electroplating process, a heat exchanger is employed to remove the heat produced from the high current intensity in an electroplating bath. Normally, a conventional U shape heat exchanger is installed in the bath but it provides low heat removal. Thus, this study designs a novel W serpentine shape heat exchanger with identical heat transfer area to the conventional one for increasing heat removal performance. The performance of the heat exchange is tested with various flow velocities in a cross-section in range of 1.6 to 2.4 m·s− 1. Mathematical models of this process have been formulated in order to simulate and evaluate the heat exchanger performance. The results show that the developed models give a good prediction of the plating solution and cooling water temperature and the novel heat exchanger provides better results at any flow velocity. In addition, the W serpentine shape heat exchanger has been implemented in a real hard chromium electroplating plant. Actual data collected have shown that the new design gives higher heat removal performance compared with the U shape heat exchanger with identical heat transfer area; it removes more heat out of the process than the conventional one of about 23%.

Experimental studies and CFD simulations of conical spouted bed hydrodynamics

Wang, Zhiguo

11 1900

Conical spouted beds have been commonly used for drying suspensions, solutions and pasty materials. They can also be utilized in many other processes, such as catalytic partial oxidation of methane to synthesis gas, coating of tablets, coal gasification and liquefaction, pyrolysis of sawdust or mixtures of wood residues. The main objectives of this work include both the experimental research and mathematical modelling of the conical spouted bed hydrodynamics. For experimental research, pressure transducers and static pressure probes were applied to investigate the evolution of the internal spout and the local static pressure distribution; optical fibre probes were utilized to measure axial particle velocity profiles and voidage profiles; the step tracer injection technique using helium as the tracer and thermal conductivity cells as detectors was used to investigate the gas mixing behaviour inside a conical spouted bed. It was found that many factors might affect calibration of the effective distance of an optical fibre probe. Therefore, a new calibration setup was designed and assembled, and a comprehensive sensitivity analysis was conducted to calibrate the optical probes used in this study. For mathematical modelling, a stream-tube model based on the bed structure inside a conical spouted bed was proposed to simulate partial spouting states. By introducing an adjustable parameter, this model is capable of predicting the total pressure drop under different operating conditions, and estimating axial superficial gas velocity profiles and gauge pressure profiles. A mathematical model based on characteristics of conical spouted beds and the commercial software FLUENT was also developed and validated using measured experimental data. The proposed new CFD model can simulate both stable spouting and partial spouting states, with an adjustable solids-phase source term. At stable spouting states, simulation results agree very well with almost all experimental data, such as static pressure profiles, axial particle velocity profiles, voidage profiles etc. A comprehensive sensitivity analysis was also conducted to investigate the effect of all possible factors on simulation results, including the fluid inlet profile, solid bulk viscosity, frictional viscosity, restitution coefficient, exchange coefficient, and solid phase source term. The proposed new CFD model was also used successfully to simulate gas mixing behaviours inside a conical spouted bed, and simulate cylindrical packed beds as well as cylindrical fluidized beds in one code package.

Computational Fluid Dynamics (CFD)

Conical spouted bed

Mathematical modeling/simulation

Hydrodynamics

Residence Time Distribution (RTD)

Gas mixing

Experimental studies and CFD simulations of conical spouted bed hydrodynamics

Wang, Zhiguo

11 1900

Conical spouted beds have been commonly used for drying suspensions, solutions and pasty materials. They can also be utilized in many other processes, such as catalytic partial oxidation of methane to synthesis gas, coating of tablets, coal gasification and liquefaction, pyrolysis of sawdust or mixtures of wood residues. The main objectives of this work include both the experimental research and mathematical modelling of the conical spouted bed hydrodynamics. For experimental research, pressure transducers and static pressure probes were applied to investigate the evolution of the internal spout and the local static pressure distribution; optical fibre probes were utilized to measure axial particle velocity profiles and voidage profiles; the step tracer injection technique using helium as the tracer and thermal conductivity cells as detectors was used to investigate the gas mixing behaviour inside a conical spouted bed. It was found that many factors might affect calibration of the effective distance of an optical fibre probe. Therefore, a new calibration setup was designed and assembled, and a comprehensive sensitivity analysis was conducted to calibrate the optical probes used in this study. For mathematical modelling, a stream-tube model based on the bed structure inside a conical spouted bed was proposed to simulate partial spouting states. By introducing an adjustable parameter, this model is capable of predicting the total pressure drop under different operating conditions, and estimating axial superficial gas velocity profiles and gauge pressure profiles. A mathematical model based on characteristics of conical spouted beds and the commercial software FLUENT was also developed and validated using measured experimental data. The proposed new CFD model can simulate both stable spouting and partial spouting states, with an adjustable solids-phase source term. At stable spouting states, simulation results agree very well with almost all experimental data, such as static pressure profiles, axial particle velocity profiles, voidage profiles etc. A comprehensive sensitivity analysis was also conducted to investigate the effect of all possible factors on simulation results, including the fluid inlet profile, solid bulk viscosity, frictional viscosity, restitution coefficient, exchange coefficient, and solid phase source term. The proposed new CFD model was also used successfully to simulate gas mixing behaviours inside a conical spouted bed, and simulate cylindrical packed beds as well as cylindrical fluidized beds in one code package.

Computational Fluid Dynamics (CFD)

Conical spouted bed

Mathematical modeling/simulation

Hydrodynamics

Residence Time Distribution (RTD)

Gas mixing

Proposta de arquitetura de controle para exoesqueleto robótico de reabilitação da marcha antropomórfica / Control architecture proposal for robotic exoskeleton for human gait rehabilitation

Floriano-Batista, Rayanne, 1988-

24 August 2018

Orientador: João Maurício Rosário / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecânica / Made available in DSpace on 2018-08-24T03:06:34Z (GMT). No. of bitstreams: 1 Floriano-Batista_Rayanne_M.pdf: 3969597 bytes, checksum: fb7104633c8e24f84be507eaef10073d (MD5) Previous issue date: 2013 / Resumo: Nesta dissertação realiza-se um estudo cinemático e dinâmico da marcha humana tendo como base a biomecânica e a antropomorfia dos membros inferiores, assim como nos paradigmas que regem a reabilitação assistida por meio da robótica. Propõe-se uma estratégia de controle de um exoesqueleto robótico para membros inferiores através do cálculo do torque computado, com a finalidade terapêutica de reabilitação da marcha. Adota-se a marcha dinâmica como inspiração para o modelo do sistema, usando uma estrutura simplificada que atuará em dois modos de funcionamento, onde a transição entre um módulo e outro será controlada por meio do formalismo de sistema de eventos. O sistema foi modelado a partir do desenvolvimento de suas equações dinâmicas e implementação em Matlab®, como também através do uso da plataforma SimMechanics® que permitiu a modelagem de componentes externas com maior grau de complexidade. Através de simulação computacional verificou-se que sistema em estudo apresentou um desempenho preciso no desenvolvimento da marcha, onde se considerou, inclusive, os efeitos do impacto que ocorrem a partir da interação do pé com solo / Abstract: In this dissertation is executed a cinematic and dynamic study of human's gait based on the field of knowledge of biomechanics and the anthropomorphic characteristics of human's leg, based as well on paradigms the rules the assisted rehabilitation with the use of robots. Here it's proposed and strategy of control of robotic exoskeletons for lower limbs through the computed torque with therapeutic goal to improve the human gait. The dynamic gait inspire the system's model, it's used a simplified structure which will function in two distinctive modes of operation, the transition between the modes is control by a system of discrete events. The modeled system is developed from its dynamic equations in Matlab® and also with the use of SimMechanics® simulation platform the allowed the inclusion of external components with greater complexity in the model. Through the computational simulation is concluded that the studied system had a precise performance in development of the gait, the control simulation included the effects of the impact that occurs when the foot interact with the solo / Mestrado / Mecanica dos Sólidos e Projeto Mecanico / Mestra em Engenharia Mecânica

Robótica na medicina

Controle

Reabilitação

Marcha humana

Modelagem matemática e simulação

Robotics in medicine

Control

Rehabilitation

Human gait

Mathematical modeling Simulation

DeltaTick: Applying Calculus to the Real World through Behavioral Modeling

Wilkerson-Jerde, Michelle H., Wilensky, Uri

22 May 2012

Certainly one of the most powerful and important modeling languages of our time is the Calculus. But research consistently shows that students do not understand how the variables in calculus-based mathematical models relate to aspects of the systems that those models are supposed to represent. Because of this, students never access the true power of calculus: its suitability to model a wide variety of real-world systems across domains. In this paper, we describe the motivation and theoretical foundations for the DeltaTick and HotLink Replay applications, an effort to address these difficulties by a) enabling students to model a wide variety of systems in the world that change over time by defining the behaviors of that system, and b) making explicit how a system\''s behavior relates to the mathematical trends that behavior creates. These applications employ the visualization and codification of behavior rules within the NetLogo agent-based modeling environment (Wilensky, 1999), rather than mathematical symbols, as their primary building blocks. As such, they provide an alternative to traditional mathematical techniques for exploring and solving advanced modeling problems, as well as exploring the major underlying concepts of calculus.

info:eu-repo/classification/ddc/510

ddc:510