concerns-"ingénieur, et, technicien" exploitation🛢

Canal cerrado

⛽️tout☣️ les concours ☢️"ingénieur, et, technicien" exploitation🛢 (لا يُؤْمِنُ أحَدُكُمْ حتى يحب لِأَخِيهِ ما يحب لنفسه)

Francia7 481 Educación42 538

3 198

Suscriptores

-224 horas

-87 días

-2530 días

176

Visitas de la publicación

~ 9924 horas

~ 12248 horas

5.50%

Tasa de compromiso

Sin datos

Mensajes por día

Ads index

beta

Carga de datos en curso...

Canales Similares

Sin datos

¿Algún problema? Por favor, actualice la página o contacte a nuestro gerente de soporte.

Menciones Entrantes y Salientes

---

Atraer Suscriptores

junio '26

+23

en 0 canales

mayo '26

+41

en 0 canales

Get PRO

abril '26

+20

en 0 canales

Get PRO

marzo '26

+29

en 0 canales

Get PRO

febrero '26

+12

en 0 canales

Get PRO

enero '26

+14

en 0 canales

Get PRO

diciembre '25

+21

en 0 canales

Get PRO

noviembre '25

+28

en 0 canales

Get PRO

octubre '25

+34

en 0 canales

Get PRO

septiembre '25

+21

en 0 canales

Get PRO

agosto '25

+19

en 0 canales

Get PRO

julio '25

+23

en 0 canales

Get PRO

junio '25

+18

en 0 canales

Get PRO

mayo '25

+27

en 0 canales

Get PRO

abril '25

+21

en 0 canales

Get PRO

marzo '25

+19

en 0 canales

Get PRO

febrero '25

+31

en 0 canales

Get PRO

enero '25

+34

en 0 canales

Get PRO

diciembre '24

+1 505

en 1 canales

Get PRO

noviembre '24

+645

en 1 canales

Get PRO

octubre '24

+26

en 0 canales

Get PRO

septiembre '24

+70

en 0 canales

Get PRO

agosto '24

+174

en 1 canales

Get PRO

julio '24

+245

en 0 canales

Get PRO

junio '24

+92

en 0 canales

Get PRO

mayo '24

+192

en 1 canales

Get PRO

abril '24

+1 168

en 1 canales

Fecha	Crecimiento de Suscriptores	Menciones	Canales
27 junio	0
26 junio	0
25 junio	0
24 junio	0
23 junio	0
22 junio	0
21 junio	0
20 junio	0
19 junio	0
18 junio	0
17 junio	0
16 junio	+1
15 junio	+1
14 junio	+3
13 junio	+4
12 junio	+1
11 junio	0
10 junio	+2
09 junio	+1
08 junio	0
07 junio	0
06 junio	+5
05 junio	+1
04 junio	0
03 junio	+2
02 junio	+2
01 junio	0

Publicaciones del Canal

Proper distributor design, packing selection, and solvent choice are the three most important factors in achieving maximum gas removal efficiency while minimizing pressure drop and operating costs. #AbsorptionTower #GasAbsorption #PackedTower #MassTransfer #ChemicalEngineering #ProcessEngineering #IndustrialEquipment #EnvironmentalEngineering #ScrubberSystem #AirPollutionControl #OilAndGas #Refinery #ProcessIndustry #EngineeringKnowledge #EngineeringWorld

2	Absorption Tower Overview: An Absorption Tower (also called an Absorber Column or Scrubbing Tower) is a mass transfer equipment used to remove unwanted gaseous components from a gas stream by dissolving them into a liquid absorbent. These towers are extensively used in chemical plants, refineries, fertilizer industries, power plants, and environmental protection systems. By maximizing gas-liquid contact, absorption towers efficiently remove pollutants, recover valuable chemicals, and improve process performance. ⚙️ What is an Absorption Tower? An Absorption Tower is a vertical vessel where a gas mixture comes into contact with a liquid solvent. The target gas component transfers from the gas phase into the liquid phase due to concentration differences, resulting in purified gas leaving the tower. Commonly absorbed gases include: ✔ Ammonia (NH₃) ✔ Sulfur Dioxide (SO₂) ✔ Hydrogen Sulfide (H₂S) ✔ Hydrogen Chloride (HCl) ✔ Carbon Dioxide (CO₂) ✔ Chlorine (Cl₂) --- 🔍 Major Components and Their Functions 🔹 Gas Inlet Introduces contaminated gas into the bottom section of the tower. 🔹 Liquid Inlet Feeds absorbent liquid into the top section. 🔹 Liquid Distributor Ensures uniform distribution of absorbent across the packing. 🔹 Packed Bed Provides large surface area for efficient gas-liquid mass transfer. 🔹 Redistributor Prevents liquid channeling in tall towers and improves efficiency. 🔹 Support Grid Supports packing material while allowing fluid flow. 🔹 Demister Pad Removes entrained liquid droplets from the exiting gas. 🔹 Clean Gas Outlet Discharges treated gas after absorption. 🔹 Rich Liquid Outlet Removes absorbent containing absorbed contaminants. 🔹 Manway Provides maintenance and inspection access. 🔹 Column Shell Contains all internal components and process fluids. 🔹 Skirt Support Transfers vessel load to the foundation. --- 🔄 Working Principle 1️⃣ Gas Entry Contaminated gas enters from the bottom of the tower. 2️⃣ Solvent Distribution Absorbent liquid enters from the top and spreads uniformly through the packing. 3️⃣ Counter-Current Contact Gas flows upward while liquid flows downward. This arrangement provides maximum contact efficiency. 4️⃣ Mass Transfer Target gas molecules transfer from the gas phase into the liquid absorbent. The packing creates a large wetted surface area, enhancing absorption. 5️⃣ Mist Removal The gas passes through a demister pad where liquid droplets are removed. 6️⃣ Clean Gas Exit Purified gas leaves through the top outlet. 7️⃣ Rich Solvent Collection The absorbent containing dissolved contaminants leaves through the bottom outlet for regeneration or disposal. --- 🌟 Key Advantages ✅ High gas removal efficiency ✅ Continuous operation ✅ Low operating costs ✅ Excellent mass transfer performance ✅ Suitable for large gas flow rates ✅ Can recover valuable chemicals ✅ Effective for corrosive gases ✅ Environmentally friendly pollution control method --- 🏭 Industrial Applications ⚗️ Chemical Plants Removal and recovery of process gases. 🛢️ Oil & Gas Industry H₂S and CO₂ removal from natural gas streams. 🌱 Fertilizer Plants Ammonia absorption and recovery systems. 🔥 Power Plants Flue gas desulfurization (SO₂ removal). 🏭 Steel & Metallurgical Industries Acid gas treatment and emission control. ♻️ Environmental Systems Air pollution control and odor removal. 💊 Pharmaceutical Plants Solvent vapor recovery and gas purification. --- 📊 Factors Affecting Absorption Efficiency 🔸 Gas flow rate 🔸 Liquid flow rate 🔸 Packing type and surface area 🔸 Tower height 🔸 Operating temperature 🔸 Operating pressure 🔸 Solvent selection 🔸 Gas-liquid contact time --- 💡 Engineering Insight The efficiency of an absorption tower depends heavily on the quality of liquid distribution. Even premium packing materials cannot perform effectively if the absorbent is unevenly distributed.	189
3	Sin texto...	150
4	Sin texto...	571
5	Lorsqu’on arrête une pompe et qu’on remarque qu’elle commence à tourner en sens inverse, qu’est-ce que cela signifie selon vous ?	501
6	Quel type de Quiz préférez-vous ?	473
7	Quel isomère du xylène cristallise en premier lors du refroidissement ?	532
8	Pourquoi la séparation des isomères du xylène est-elle difficile ?	463
9	Quel procédé industriel est le plus utilisé pour récupérer le para-xylène ?	369
10	Un point de rosée plus faible que la température ambiante signifie :	385
11	Dans un système d’air instrument, un point de rosée très bas signifie généralement :	396
12	Pourquoi le surge est-il considéré dangereux mécaniquement ?	406
13	Dans un système anti-surge, la vanne de recycle s’ouvre principalement pour :	369
14	Le surge d’un compresseur est principalement causé par :	393
15	Le surge (pompage) est observé principalement dans :	468
16	Quel facteur favorise la cavitation ?	581
17	و عليكم السلام ، نعم مزال يحتاجو الدم . و مش لازم اليوم ، بصح في أقرب وقت . "لي حابين يتبرعو يروحو للسبيطار لل cac (مركز محاربة السرطان في الطابق الثالث) يقولولهم حابين نتبرعو للمريضة : قندور الزاوية ، يعمرو ورقة يمدوهالهم من بعد يروحو لمصلحة نقل الدم جاية لتحت مين تولي داخلة للمستشفى على يدك اليمنى تبعي طريق السيارات يلقاوها لتم" و بارك الله فيكم ❤️	0
18	Sin texto...	0

Ver todas las publicaciones