德国汉堡工业大学最新一期的流态化技术培训课程即将与大家见面啦~快来共同探索流态化技术的无限可能吧！该课程由汉堡工业大学固体颗粒技术研究所（Institute of Solids Process Engineering and Particle Technology, SPE）联合多所知名院校及工业界合作伙伴共同打造，专为学术界和工业界人士设计，至今已成功举办十五期。第十六期培训课程将继续采用“线上+线下”相结合的形式，诚邀流态化技术领域的学者以及对该技术感兴趣的研发人员参与交流学习。

本次课程为期四天（ 德国时间2024年11月4日至7日），全程英文授课。课程内容将深入探讨流态化技术的基础理论及其在干燥、包覆、造粒、团聚等方面的实际应用，旨在搭建理论与工业实践之间的桥梁。

课程概况

TARGET AUDIENCE

The course is designed for people from various backgrounds (engineers, chemists, food and pharmaceutical technologists) and with different levels of experience, who need to understand the fundamentals of applications of modern and effi cient fluidized bed processes. The course language is English.

TOPIC

Fluidization technology has a tremendous economic importance in process engineering and is used for a wide range of physical and chemical processes like particle formulation, classification, drying, adsorption, heating and cooling of solids, combustion, pyrolysis, carbonization, gasification, calcination or gas-solid reactions.

In this course, we focus on the drying as well as on the spray granulation, coating and agglomeration in fluidized beds. The particle formulation processes plays an important role in the manufacturing of powder granules from liquid educts in the food, fine chemicals, biotechnological and pharmaceutical industries as dust-free and free-flowing particles with improved particle properties, like a defined particle size distribution, porosity or desired mechanical strength, can be produced in a process with intensive heat and mass transfer conditions and good solids mixing.

主讲人

From the Hamburg University of Technology

Prof. Stefan Heinrich

Dr. Swantje Pietsch-Braune

Vasyl Skorych, M.Sc.

From University Magdeburg

Prof. Evangelos Tsotsas

From Princeton University

Prof. Sankaran Sundaresan

From Industry

Prof. Mirko Peglow

Dr. Lennard Fries

Dr. Michael Jacob

Dr. Sören Lehmann

Prof. Frank Kleine Jäger

Dr. Paul Kieckhefen

课程内容

COURSE PROGRAM 

Introduction to fluid-mechanical principles

• The fluidization principle, forms and applications of fluidized beds

• Minimum fluidization velocity (measurement and calculation)

• Operation limits, segregation, elutriation, scale-up rules and state diagrams

• Dimensioning of gas distributors

+ Practical fluidization experiments in the laboratory

Local fluid mechanics

• Bubble development, growth and coalescence

• CFD modeling of the fluid mechanics

• DEM/CFD modeling of the fluid mechanics

Methods for the characterization of fluidized beds

• Particle velocity, concentration and moisture

• Particle attrition and mechanical strength

• Breakage behavior of granules and agglomerates

+ Practical particle characterization experiments in the laboratory

Heat transfer in fluidized beds

• between fluid and particles

• between fluidized bed and internals

• Influence of backmixing and bubbles

• Cooling and heating of solids (batch, continuous)

Mass transfer in fluidized beds

• Fundamentals

• Drying of solids (batch, continuous)

+ Practical drying experiments in the laboratory

+ Practical demonstration by company TEWS

Fundamentals of granulation and agglomeration

• Influence of material properties

• Processes and equipment for drying, rewetting and pressure agglomeration

• Adhesive forces and binding mechanisms

Fluidized bed spray granulation

• Fundamentals and micro-mechanisms

• Operation regime maps

• Influence of drying on granulation

• Processes, design options, equipment and scale-up

• Modeling of fluidized bed spray granulation (batch/continuous)

+ Practical granulation experiments in the laboratory

+ Practical demonstration by company PARSUM

Flowsheet simulation of complex solids processes

• Introduction

• Flowsheet simulation of continuous fluidized bed drying

• Steady-state and dynamic flowsheet simulation of continuous fluidized bed spray granulation and agglomeration

• Multi-scale simulation of fluidized bed granulation/agglomeration

+ Practical tutorials on flowsheet simulation software

HANDS-ON TRAINING AND DEMONSTRATIONS 

This course highlights the fundamentals and applications of various types and different scales of fluidized bed processes for drying, coating, granulation and agglomeration of particles with practical hints and extensive calculation examples. The focus is on fluid mechanics, mixing, heat and mass transfer and particle formulation mechanisms. Furthermore, actual applications as well as modern computational tools and measuring techniques are presented.

The knowledge transfer is supported by different experts from industry, who will present procedures and approaches used in plant construction and optimization, in operation of processes for chemical, food and pharmaceutical industry as well as novel measuring techniques. The hands-on trainings, demonstrations and tutorials offered during practical sessions will strengthen the learning experience.

课程信息

课程时间：

开始时间：Monday, November 4th, 2024, 11:00 a.m.

结束时间：Thursday, November 7th, 2024, 3:00 p.m.

（以上均为德国时间，请注意时差）

本次课程分为线上和线下两种形式，线下参会地点在德国汉堡工业大学；线上会议服务平台为Zoom，课程资料、参会链接以及个人密码将在课程开始前通过电子邮件发送。

课程注册费：

1800欧元/人（同一单位同时注册两人及以上1300欧元/人；博士研究生1150欧元/人；如需发票，需另加增值税）；课程费用包含讲座课件和实践课程材料、茶点、咖啡、第三晚的正餐；2024年10月25日前可免费取消注册；过时将无法退款，但可以指定其他参会者。 

报名及咨询：

Ms. Bettina Bartels

Phone: +49 40 428 78-3750; +49 40 42878-3239

Email: spe@tuhh.de

URL: http://tuhh.de/spe/fluidization-course

Address: 

Hamburg University of Technology

Institute of Solids Process Engineering and Particle Technology (SPE)

Denickestraße 15

21073 Hamburg, Germany

供稿：课程会务组

编辑：《颗粒学报》编辑部