* Cantinho Satkeys

Refresh History
  • FELISCUNHA: ghyt74   49E09B4F  e bom feriado   4tj97u<z
    Hoje às 10:39
  • JPratas: try65hytr Pessoal  h7ft6l k7y8j0
    Hoje às 03:51
  • j.s.: try65hytr a todos  4tj97u<z
    30 de Outubro de 2024, 21:00
  • JPratas: dgtgtr Pessoal  4tj97u<z k7y8j0
    28 de Outubro de 2024, 17:35
  • FELISCUNHA: Votos de um santo domingo para todo o auditório  k8h9m
    27 de Outubro de 2024, 11:21
  • j.s.: bom fim de semana   49E09B4F 49E09B4F
    26 de Outubro de 2024, 17:06
  • j.s.: dgtgtr a todos  4tj97u<z
    26 de Outubro de 2024, 17:06
  • FELISCUNHA: ghyt74   49E09B4F  e bom fim de semana
    26 de Outubro de 2024, 11:49
  • JPratas: try65hytr Pessoal  101yd91 k7y8j0
    25 de Outubro de 2024, 03:53
  • JPratas: dgtgtr A Todos  4tj97u<z 2dgh8i k7y8j0
    23 de Outubro de 2024, 16:31
  • FELISCUNHA: ghyt74  pessoal   49E09B4F
    23 de Outubro de 2024, 10:59
  • j.s.: dgtgtr a todos  4tj97u<z
    22 de Outubro de 2024, 18:16
  • j.s.: dgtgtr a todos  4tj97u<z
    20 de Outubro de 2024, 15:04
  • FELISCUNHA: Votos de um santo domingo para todo o auditório  101041
    20 de Outubro de 2024, 11:37
  • axlpoa: hi
    19 de Outubro de 2024, 22:24
  • FELISCUNHA: ghyt74   49E09B4F  e bom fim de semana  4tj97u<z
    19 de Outubro de 2024, 11:31
  • j.s.: ghyt74 a todos  4tj97u<z
    18 de Outubro de 2024, 09:33
  • JPratas: try65hytr Pessoal  4tj97u<z classic k7y8j0
    18 de Outubro de 2024, 03:28
  • schmeagle: iheartradio
    17 de Outubro de 2024, 22:58
  • j.s.: dgtgtr a todos  4tj97u<z
    17 de Outubro de 2024, 18:09

Autor Tópico: Udemy - Gas Absorption & Stripping in Chemical Engineering  (Lida 224 vezes)

0 Membros e 1 Visitante estão a ver este tópico.

Online mitsumi

  • Moderador Global
  • ***
  • Mensagens: 115395
  • Karma: +0/-0

Udemy - Gas Absorption & Stripping in Chemical Engineering
WEBRip | English | MP4 | 1280 x 720 | AVC ~1195 kbps | 30 fps
AAC | 128 Kbps | 48.0 KHz | 2 channels | Subs: English (.srt) | ~15 hours | 7.21 GB
Genre: eLearning Video / Engineering, Physics
Model Separation Processes involving Absorption such as Packed Towers and Tray Columns

What you'll learn

Understand the principle behind gas Absorption and Stripping
Design & Operate Packed Towers
Design & Operate Tray Columns
Calculate the required values for a given Separation Process using Absorption/Stripping
Solve analytically via Kremser Brown Souders Equation
Understand the concept of "operation line" and "equilibrium line"
Calculate the total required stages via Graphical Method
Learn about Absorption Column Equipment (Trays, Packings, Column Internals)
Calculate & Understand the minimum L/G ratio
The HETP method for Packings
The MTU, Method of Transfer Units for Packed Towers
Model Co-Current and Counter-Current Operations
Solve relevant problems involving Gas Absorption and Stripping

Requirements

Mass Transfer Basics
Transport Phenomena (Recommended)
Thermodynamics
Mass and Energy Balances
Physical Chemistry

Description

Introduction:

Gas Absorption is one of the very first Mass Transfer Unit Operations studied in early process engineering. It is very important in several Separation Processes, as it is used extensively in the Chemical industry.

Understanding the concept behind Gas-Gas and Gas-Liquid mass transfer interaction will allow you to understand and model Absorbers, Strippers, Scrubbers, Washers, Bubblers, etc...

We will cover:

REVIEW: Of Mass Transfer Basics required
GAS-LIQUID interaction in the molecular level, the two-film theory
ABSORPTION Theory
Application of Absorption in the Industry
Counter-current & Co-current Operation
Several equipment to carry Gas-Liquid Operations
Bubble, Spray, Packed and Tray Column equipments
Solvent Selection
Design & Operation of Packed Towers
Pressure drop due to packings
Design & Operation of Tray Columns
Single Component Absorption
Single Component Stripping/Desorption
Diluted and Concentrated Absorption
Basics: Multicomponent Absorption
Software Simulation for Absorption/Stripping Operations (ASPEN PLUS/HYSYS)
Solved-Problem Approach:
All theory is backed with exercises, solved problems, and proposed problems for homework/individual study.

At the end of the course:

You will be able to understand mass transfer mechanism and processes behind Absorption and Stripping. You will be able to continue with a Distillation Theory and more Mass Transfer Unit Operation Course and/or Separation Processes Course.

About your instructor:

I majored in Chemical Engineering with a minor in Industrial Engineering back in 2012.

I worked as a Process Design/Operation Engineer in INEOS Koln, mostly on the petrochemical area relating to naphtha treating. There I designed and modeled several processes relating separation of isopentane/pentane mixtures, catalytic reactors and separation processes such as distillation columns, flash separation devices and transportation of tank-trucks of product.

Who this course is for:

Chemical Engineers refreshing their Mass Transfer and Separation Processes course
Students on the relevant fields (chemical, mechanical, process engineering)
Teachers / Professors requiring extra knowledge on Mass Transfer
Engineers working with Absorbers / Strippers or Scrubbers / Washing Gases
Stack Gas Engineers

        General
Complete name                            : 068 Introduction to Tray Columns.mp4
Format                                   : MPEG-4
Format profile                           : Base Media
Codec ID                                 : isom (isom/iso2/avc1/mp41)
File size                                : 41.1 MiB
Duration                                 : 4 min 18 s
Overall bit rate                         : 1 332 kb/s
Writing application                      : Lavf58.12.100

Video
ID                                       : 1
Format                                   : AVC
Format/Info                              : Advanced Video Codec
Format profile                           : Main@L3.1
Format settings                          : CABAC / 4 Ref Frames
Format settings, CABAC                   : Yes
Format settings, RefFrames               : 4 frames
Codec ID                                 : avc1
Codec ID/Info                            : Advanced Video Coding
Duration                                 : 4 min 18 s
Bit rate                                 : 1 195 kb/s
Nominal bit rate                         : 3 000 kb/s
Width                                    : 1 280 pixels
Height                                   : 720 pixels
Display aspect ratio                     : 16:10
Frame rate mode                          : Constant
Frame rate                               : 30.000 FPS
Color space                              : YUV
Chroma subsampling                       : 4:2:0
Bit depth                                : 8 bits
Scan type                                : Progressive
Bits/(Pixel*Frame)                       : 0.043
Stream size                              : 36.9 MiB (90%)
Writing library                          : x264 core 148
Encoding settings                        : cabac=1 / ref=3 / deblock=1:-1:-1 / analyse=0x1:0x111 / me=umh / subme=6 / psy=1 / psy_rd=1.00:0.15 / mixed_ref=1 / me_range=16 / chroma_me=1 / trellis=1 / 8x8dct=0 / cqm=0 / deadzone=21,11 / fast_pskip=1 / chroma_qp_offset=-3 / threads=22 / lookahead_threads=3 / sliced_threads=0 / nr=0 / decimate=1 / interlaced=0 / bluray_compat=0 / constrained_intra=0 / bframes=3 / b_pyramid=2 / b_adapt=1 / b_bias=0 / direct=1 / weightb=1 / open_gop=0 / weightp=2 / keyint=60 / keyint_min=6 / scenecut=0 / intra_refresh=0 / rc_lookahead=60 / rc=cbr / mbtree=1 / bitrate=3000 / ratetol=1.0 / qcomp=0.60 / qpmin=0 / qpmax=69 / qpstep=4 / vbv_maxrate=3000 / vbv_bufsize=6000 / nal_hrd=none / filler=0 / ip_ratio=1.40 / aq=1:1.00

Audio
ID                                       : 2
Format                                   : AAC
Format/Info                              : Advanced Audio Codec
Format profile                           : LC
Codec ID                                 : mp4a-40-2
Duration                                 : 4 min 18 s
Bit rate mode                            : Constant
Bit rate                                 : 128 kb/s
Channel(s)                               : 2 channels
Channel positions                        : Front: L R
Sampling rate                            : 48.0 kHz
Frame rate                               : 46.875 FPS (1024 SPF)
Compression mode                         : Lossy
Stream size                              : 3.95 MiB (10%)
Default                                  : Yes
Alternate group                          : 1   

Screenshots
   



   

Download link:
Só visivel para registados e com resposta ao tópico.

Only visible to registered and with a reply to the topic.

Links are Interchangeable - No Password - Single Extraction