Inputs for agitator design: Design pressure: 6 kg/cm 2 / F.V. Design temperature: 75°C to 200°C Vessel working capacity: 6.3 KL Vessel inside diameter (D): 1950 mm Vessel T.L.-T.L. Length: 2200 mm Maximum mixing speed (N): 150 RPM Density of working fluid: 1000 kg/m 3 Viscosity of working fluid: 10000 CP MOC: Hastelloy C-22. Chemical engineering calculations to assist process, plant operation and maintenance engineers.
I desire to design an Agitator for Lime Mixing tank Diameter:2m,Height:6m in my company with capacity. The density of the fluid is 1300Kg m3. I need steps in selecting the shaft,Motor rating.
Разработчик Imran Pinjara
- Категория:Utilities
- Дата выхода: 2019-12-28
- Текущая версия: 1.0
- Adult рейтинг: 4+
- Размер файла: 59.42 MB
- Разработчик: Imran Pinjara
- Совместимость: Требуется iOS 10.0 или выше.
This App Used for Agitator Design Calculations or Mixer Design Calculations. In this App Agitator Power Requirement Calculations for all types of Blades of Agitation, Agitator Shaft Diameter Calculation, Agitator Shaft Design Checking for Critical Speed and Elastic Limits for Design Safety, Stuffing Box Design Calculations re available in one simple Tool so that Designer can do handy Calculation on any time anywhere. This App is Useful for those who are working in Process Equipment Manufacturing and Agitation and Mixing Equipment Manufacturing Industry.Apps Features:1. No Internet Required.2. Ads Free. No Irritating ads to Disturb Users.3. User Friendly4. Handy Design Calculations.5. Higher Performance.In this App Following Calculators are Available :1. Agitator Power Calculator.2. Agitator Shaft Diameter Calculator.3. Agitator Shaft Design Checker.4. Stuffing Box Design Calculator.In This App Following Blades Options Are Available :1. Straight Blades with 2 Nos, 4 Nos and 6 Nos Leafs to Each Blade2. Pitched Blades with 2 Nos, 4 Nos and 6 Nos Leafs to Each Blade3. Curved Blades4. Disc Type Blades5. Anchor Blades6. Propeller Blades7. Hydrofoils Blades.How to Use This Calculators :1. Agitator Power Calculator : This Calculator is useful for Agitation Power Requirement Calculation. In this tool you have to enter input as Agitator Sweep Diameter in mm, Agitator Speed in RPM, Content Material Density in Kg/m3 and No. of Agitator on one Shaft in Vessel. and then select Agitator Blade Types from the list and Press Calculate Button to Generate Result Output. in Output Page you will get result as Power of Agitation in HP, Gland loss in HP and Transmission Loss in HP and Total Power Requirement for Agitator in HP.In this Calculator Gland Loss are assumed as 10% and Transmission loss as 20% of the Power of Agitation.2. Agitator Shaft Diameter Calculator : This Tool is used for Calculating Shaft Diameter for Transmitting Desired Power Requirement for Agitation Process. In this Calculator you have to give input as Total Power of Agitation in HP, Agitator Speed in RPM and Shaft Material Permissible Shear Stress in N/mm2 and then click on Calculate Button to Get Shaft Diameter then Popup Notification is highlighted with Desired Shaft Diameter in mm. and after dismiss this notifier Design Checking for Critical Speed and Elastic Limit Option is Open.3. Agitator Shaft Design Checker : This Tool is used for Checking Shaft Diameter Safety to withstand required Designed Conditions by Verifying it on the Basis of Critical Speed and Material Elastic Limit for Material Safety. In this Design Checker Option First Design is Check Shaft Diameter for Material strength by Checking Condition as Calculated elastic limits should be less than Material Permissible Elastic Limits then Design is Safe if it not Satisfy this Condition you have to Increase Shaft Diameter and recheck again. if Shaft Diameter Satisfy First Condition then it is Check for Critical Speed Condition. in this Design Condition it is Checked that Critical Speed of the Shaft Should be in the range of 40 % to 65 % of the Actual Speed. If Shaft not satisfy this condition then you have to again increase shaft diameter and recheck again. If Shaft satisfy this condition design is Safe. In this tool you have to enter Shaft Diameter in mm, Material Elastic Limit in N/mm2, Agitator Sweep Diameter in mm, Modulus of Elasticity in N/mm2 and Agitator Shaft Overhang length in mm and then click on calculate button to check Design conditions.4. Stuffing Box Design : This Tool is used to Calculate Stuffing Box Dimension to withstand internal pressure and material stress and Calculate Stud Diameter Calculations. In this Tool you have to enter Internal Pressure in N/mm2, Shaft Diameter in mm, Permissible stress for Stuffing Box Material in N/mm2, No of Studs and Permissible Stress for Stud Material then it will give result as S.B ID, OD, Thickness and Stud Diameter.
Providing mixing solutions to help you process fluids faster, more profitably, and more reliably. By working with UET Mixers, mixing will be one less thing you have to worry about.
For the past 30 plus years we have been lucky enough to work with many amazing companies. If you are one of them, thank you for the opportunity to be part of your success. If you are new to UET Mixers, please consider this a warm welcome from all of us.
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Agitator Types
Design Philosophy
UET Mixers uses proprietary mixer design software, computational fluid dynamics (CFD), and good old-fashioned experience to delivery custom mixer designs that meet the requirements of your specific application. We will work with you to completely analyze your process and design the perfect mixing solution.
Tank Agitator Design
A division of Downeast Machine & Engineering, Inc.
26 Maple St.
Mechanic Falls, ME 04256
Agitator Mixer Design
Phone:207-345-3330
Fax:207-345-3301
E-Mail: sales@uetmixers.com