design of horizontal & short vertical vessels. الأول : هو احنا هناخد إيه...

Vessel DesignDesign of Horizontal & Short Vertical Vessels

السكشن؟ : في النهاردة إيه هناخد احنا هو األولهناخد : Vessel Designالثاني

يوووووووووووووووووه : هناخد األول امتى؟ Reactorأمالال : سكشن على قصدك أنا non-isothermalالثاني يعني؟

ال على امبارح السكشن بتاعة االعالنات : MBC 2شفت وقالك Coming Soon on December ال شاشة على وحصريا فقط

MBC 2وقاعدين : كدة ورايقين فايقين ازاي انتو عارف مش أنا الثالث

أنا اللي بالكارثة حاسين ومش إيه هناخد ومش إيه هناخد تقولوافيها

!!! يابني؟ : إيه كارثة واحد نفس في االتنينإجابة : له أالقي ونفسي جدا ومحيرني مصيري بجد سؤال الثالث

قلبي : وقعت بقى وتقول تخلص ما ياعم األولترى : يا !!!!!!!!!!!!!!!!!!!sheetالثالث مسألة؟ كام النهاردة

A Real Tall Vertical Vessel

Sheet 5: 2 Problems

Design of Short Vertical Vessels (L < 6m)

Sheet 5: 2 Problems

In designing short vessels, we firstly calculate the

thickness of shell and heads according to the

operating pressure [i.e. internal or external]. In this

case we will not do checks on the thickness as done

in tall vessels so, we will design the support directly.

Lug Support

The use of lugs is typically limited to vessels of small to medium diameter (1 to 10 ft.) and moderate height-to-diameter ratios in the range of 2:1 to 5:1.

And of Course Sheet5: 2 problems

Design of Lug support:

After calculating fs, you should select the dimension of pipe (lug) and check on your selected dimensions [i.e. check if the lug supports will withstand the load applied on it]. Following are the steps used to select the suitable pipe dimensions:

1. From the following table, assume nominal diameter to get the inside and

outside diameter of the pipe. Begin your assumption with nominal

diameter = 2" [always take the Schedule number = 80].

Sheet5 : 2 Problems

Sheet 5: 2

Problems

2. Calculate the radius of gyration (r) from the following

equation:

3. Calculate the value of h’/r.

4. Make the check on the selected pipe dimensions

according to the value of h’/r . Those values are

summarized in the following table:

r

h' 60

'

r

h 200

'60

r

h 200

'

r

h

The Check

Relation pipeallpipe

s

A

f

2

.

.

'*

11

rhA

f

pipe

pipe

all

all

pipe

s

..min

.min'2

'

**

*5

cal

critical

scritical

IIh

IEF

fF

5. If the corresponding check is not correct, assume another nominal

diameter [greater than 2"] and repeat the above steps.

Assume:

Design of Bearing Plate:

In order to check on this assumption, use the following formula:

Design of Anchor Bolts:

If σtension) max = - ve value: the number of bolts equal 4 used for fixation.

If σtension) max = + ve value: the number of bolts calculated from the

following equation:

Design of Horizontal Vessels

Hello !?I just want to

tell u that sheet5 : 2 problems

Design of Saddle Support: or

Design of Horizontal Vessels

Sheet5: 2 Problems

In Mass Transfer?

!

Assume:

I’ll go to the section now .

I don’t know which subject but they told

me that Sheet5: 2 Problems

Design of Bearing Plate:

Assume:

Design of Anchor Bolts: only 4 bolts for fixation

Sheet5: 2 problems?

Yes

Sheet 5

1. A pressurized vessel lined internally with 4 mm Nickel material is to be fabricated and

installed out of doors in Mostorod area. The vessel has the following specifications:

Shell inside diameter 1.5 m

Shell length 4 m

Maximum internal pressure 20 atm.gage

Operating temperature 150ºC

Lug support height 2 m

No. of lugs 6

Corrosion allowance 1 / 16 in.

Insulation thickness 2 in.

Shell material C.steel

Allowable tensile strength of material of construction 15000 psi

Head type Dished

Specify the design for:

- Shell & heads.

- Lug support, bearing plate & anchor bolts.

- Maximum permissible vacuum applied in the vessel.

2. A process horizontal vessel is to be fabricated and installed out of doors. The vessel

has the following specifications:

Shell inside diameter 1.1 m

Shell length 2.1 m

Maximum internal pressure 10 bar

Distance between two supports 1.25 m

Operating temperature 150ºC

Support height 1 m

Fluid Heavy hydrocarbon

Corrosion allowance 3 mm

Insulation thickness 50 mm

Shell material Carbon steel

Allowable tensile stength of material of construction 1000 kg/cm2

Type of heads Dished

Specify the design for:

- Shell & heads.- Support, bearing plate and anchor bolts.