Incinerator Scope of Work

Product Description

Incinerator Scope of Work

The Incinerator Plant is output wastes incineration from Different petrochemical units. In this project we want to incinerate all output wastes from petrochemical units and also produced high pressure steam from incinerator plant heat generated.

At first output waste from petrochemical collects and transfers to transit and sorting center in various forms. Input feeds of incinerator plant are shown in below table:

 

Waste streams of petrochemical unit collect and store in Transit and Sorting Center.

In Transit and Sorting Center one laboratory must be considered.

In this center, waste will be classified in two groups:

• Unsuitable for burning
• Suitable for burning

Unsuitable waste for burning can be divided into the 4 categories:

• Buried materials
• Materials (wastes) that need to be stabilized before buried
• Materials (wastes) that can be sold.
• Wastes that can be returned to petrochemical.

Suitable wastes are classified into the two categories:

• Input wastes to rotary kiln, consist of solids and waste fluids.
• Input wastes to static kiln, consist of clean fluids and gasses.

All solid wastes must be transferred to storage pit from Transit and Sorting Center. Solid wastes storage pit is input of rotary kiln.

All fluid wastes must be stored and stabilized in Transit and Sorting Center. All storage and stabilization devices or facility must be considered. Storage and stabilization devices (facility) consist of:

Tanks, Pumps (Transfer, Loading & Unloading), Agitator (Mixer), Blanketing System, Flare system, Instrumentation and Control Systems, etc

Storage and stabilization capacity must be considered based on worst case (shut down).

Generally incinerator plant consists of two similar trains (capacity of each train is 100%). Each train consists of a rotary kiln and a static kiln.

Based on client request, efficiency of incinerator plant is 99.8% for all components and for aromatic must be higher than that amount.

Please be attention, produce high pressure steam from output heat of incinerator plant is in this scope of work.

 

 

Summery Table Waste to Incinerator
Item	Type of Waste	Qty. (Kg/h)
1	Liquid Waste	7,500
2	Solid Waste	250

 

For detail information of Waste, please see next page,

 

 

 

 

 

 

Phase 1 :

ITEN

STATE

UNIT ORGIN

WASTE DEFINITION

Elemental composition(wt%)

LHV (kcal?kg)

P(barg)

t(⁰C)

ρ(kg/m3)

V(cp)

Flow

C

H

N

O

S

CL

H2O

Metah

Source #1

1

Liq

steam cracker

unit process bottom

_

_

_

_

_

_

_

Atm

_

650

0.7

26(m3/yr)

2

Liq

steam cracker & PP

Catalyst diluted in Hc

ü

ü

_

_

_

_

_

_

3

Liq

steam cracker

process Drain

ü

ü

_

_

_

_

ü

_

4

Liq

steam cracker

Condensate From wet flare drum

_

_

_

_

_

_

ü

_

_

_

80~10 0

1000

_

5

Liq

steam cracker

Tar water phase

ü

ü

_

_

_

_

ü

_

_

6 bara (@KP C   B.L)

70 Min:40

920

0.706 Max:20

10.4(m3/hr) Min :6.5(m3/hr)

6

Solid

steam cracker

Gasoline phase or light oil

ü

ü

_

_

_

_

ü

_

_

0

peak :26 (m3/hr)

7

Solid

steam cracker

Cock from decocking & quench oil purge filter

ü

ü

_

_

_

_

_

_

_

6500 _ 8000

_

AMB

1200

42012 (ton/yr)

8

Solid

steam cracker

polymer fron spent caustic/cellulose filter

ü

ü

_

_

_

_

ü

_

_

_

_

_

_

_

Source #2

9

Solid

Rubber

Rubber from Cleaning

Note 1

Note 1

Note 1

Note 1

Note 1

Note 1

Note 1

Note 1

Note 1

AMD

25

Note 1

35

120 T/y

10

Solid

Rubber

Activated carbon

90-100%

0

0

0

0

0

0

0

NA

AMD

AMD

480

NA

10 T/y

11

Liq

Rubber

purg from Decanter Reflux (LW1A)

Note 2

Note 2

Note 2

Note 2

Note 2

Note 2

Note 2

Note 2

Note 2

AMD

AMD

Note 2

Note 2

0.5 m3/hr

12

Liq

Rubber

Bottoms of Heavies DistillationColumn(LW1B)

Note 3

Note 3

Note 3

Note 3

Note 3

Note 3

Note 3

Note 3

AMD

AMD

Note 3

Note 3

30-50 kg/hr

13

Liq

Rubber

Bottoms of Raw Butadiene Purification Column(LW1C)

Note 4

Note 4

Note 4

Note 4

Note 4

Note 4

Note 4

Note 4

Note 4

AMD

AMD

Note 4

Note 4

10-30 kg/hr

14

Liq

Rubber

Washing Solvent

Note 5

Note 5

Note 5

Note 5

Note 5

Note 5

Note 5

Note 5

Note 5

AMD

AMD

Note 5

Note 5

_

15

Liq

ABS

Tk-6303 Emptying

Note 6

Note 6

Note 6

Note 6

Note 6

Note 6

Note 6

Note 6

Note 6

AMD

AMD

Note 6

Note 6

2900 T/y

16

Solid

ABS

Condensate & Polymers samples

_

_

_

_

_

_

_

_

9500

AMD

AMD

1040

NA

2.2 T/y

17

Solid

ABS

Filters Media for Monomers ,Rubber Dissolution

Note 7

Note 7

Note 7

Note 7

Note 7

Note 7

Note 7

Note 7

Note 7

AMD

AMD

_

_

3.4 T/y

18

Solid

ABS

Cleaning Materials

_

_

_

_

_

_

_

_

_

AMD

AMD

_

_

1.5 T/y

19

Liq

1-Butene

Spent Catalist

63.7

12

1.6

11.9

0

0

0

10.8

2.434

AMD

AMD

766.9

0.39

27 kg/h

20

Liq

BD

Regeneration Residue

40

9

2

0

0

0

50

0

_

AMD

AMD

_

_

105 T/y

21

Solid

BD

Poly Butadiene

Note 8

Note 8

Note 8

Note 8

Note 8

Note 8

Note 8

Note 8

_

_

_

_

_

72 T/y

Source #3

22

Liq

WASTE METHANOL(for only emergensy case)

2500 kg/hr

23

Liq

OILY WATER(for only emergensy case)

5 m3/yr

Source #4

24

Liq

OILY WATER

AMD

AMD

752

1.7

250 L/d

25

Liq

OILY WATER

AMD

40

850

65

20m3/yr

SOLID WASTE(PPC)

SOLID WASTE(PPC)

HIPS

GPSS

EPS Flame Retardant Grade (FR) – Emissions

Total Loss

Total Loss

Total Loss

Substance

Te/y

Te/y

Substance

Te/y

Polystyrene fines

30

30

EPS fines

52

Polystyrene oversize

20

20

EPS oversize

21

Catalyst for TBC (note4)

10.8

Total

73

SOLID WASTE(PPC)

LIQUID EMISSIONS(PPC)

EPS Standard Grade (R) – Emissions

HIPS

GPSS

Total Loss

Total Loss

Total Loss

Substance

Te/y

Substance

Te/y

Te/y

EPS fines

410

Water (From pelletiser)

3469

3469

EPC oversize

Minimal

Water (From Organic Trap)

5639

5639

Total

410

Die Fume Waste

4

4