CALCINED PETROLEUM COKE (CP COKE) 50,000 TONS/ANNUM

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Coke is a fuel with few impurities and a high carbon content, usually made from coal. It is the solid carbonaceous material derived from destructive distillation of low-ash, low-sulphur bituminous coal. Cokes made from coal are grey, hard, and porous. While coke can be formed naturally, the commonly used form is synthetic. The form known as petroleum coke, or pet coke, is derived from oil refinery coker units or other cracking processes. Coke is used in preparation of producer gas which is a mixture of carbon monoxide (CO) and nitrogen (N2). Producer gas is produced by passing air over red-hot coke. Coke is also used to manufacture water gas. Petroleum coke (often abbreviated pet coke or petcoke) is a carbonaceous solid delivered from oil refinery coker units or other cracking processes. Coking processes that can be employed for making petcoke include contact coking, fluid coking, flexicoking and delayed coking. Other coke has traditionally been delivered from coal. This coke can either be fuel grade (high in sulfur and metals) or anode grade (low in sulfur and metals). The raw coke directly out of the coker is often referred to as green coke In this context, “green” means unprocessed. The further processing of green coke by calcining in a rotary kiln removes residual volatile hydrocarbons from the coke. The calcined petroleum coke can be further processed in an anode baking oven in order to produce anode coke of the desired shape and physical properties. The anodes are mainly used in the aluminium and steel industry. The Petroleum Coke category consists of two substances; green coke and calcined coke. These two substances are grouped together in a category based on their similarity of manufacturing processes which results in similar physical chemical characteristics and chemical composition. The principal difference is the amount of residual hydrocarbon (also termed volatile matter) in the two products. Petroleum coke (both green and calcined) is a black-colored solid produced by the high pressure thermal decomposition of heavy (high boiling) petroleum process streams and residues. Green coke is the initial product from the cracking and carbonization of the feedstocks to produce a substance with a high carbon-to-hydrogen ratio. Green coke undergoes additional thermal processing to produce calcined coke. The additional processing removes volatile matter and increases the percentage of elemental carbon, which results in a lower potential for toxicity for calcined coke. The green coke must have sufficiently low metals content in order to be used as anode material. Green coke with this low metals content is referred to as anode grade coke. The green coke with too high metals content will not be calcined and is used for burning. This green coke is called fuel grade coke. Petcoke is over 90 percent carbon and emits 5 to 10 percent more carbon dioxide (CO2) than coal on a per-unit-of-energy basis when it is burned. As petcoke has a higher energy content, petcoke emits between 30 and 80 percent more CO2 than coal per unit of weight. The difference between coal and coke in CO2 production per unit energy produced depends upon the moisture in the coal (increases the CO2 per unit energy?—?heat of combustion) and volatile hydrocarbon in coal and coke (decrease the CO2 per unit energy). The basic raw material, Green Petroleum Coke (GPC), is calcined into the end product called Calcined Petroleum Coke (CPC). Rotary Calcination Technology is being adopted for the Plant as this process shall produce good quality of CPC. The calcined coke industry is considered part of the pyro-processing industry. Its profitability is usually controlled by the aluminium industry’s performance, blending quality, cost of feed stocks and transportation costs. Calcined Petroleum Coke (CPC) is a form of highly electrically conductive, densed Carbon with very low specific Electrical Resistance, and having fixed Carbon of approximately 99.5%. CPC is used extensively as Anode in Alumina Smelters, as Soderberg’s Electrode for Ferroalloy Industries, and in the manufacturing of Graphite/ Graphite Electrodes, and Thermal Paste for Ferro Alloys & allied industries in Submerged Arc Furnaces. CPC is also used in various Steel Industries for – Melting of Steel, Recurburisation and for making Special Steels & Alloys. Calcined petroleum coke (CPC) is the product from calcining petroleum coke. This coke is the product of the coker unit in a crude oil refinery. The calcined petroleum coke is used to make anodes for the aluminium, steel and titanium smelting industry. Calcined Petroleum Coke (CPC) is a form of highly electrically conductive, densed Carbon with very low specific Electrical Resistance, and having fixed Carbon of approximately 99.5%. CPC is used extensively as Anode in Alumina Smelters, as Soderberg’s Electrode for Ferroalloy Industries, and in the manufacturing of Graphite/ Graphite Electrodes, and Thermal Paste for Ferro Alloys & allied industries in Submerged Arc Furnaces. CPC is also used in various Steel Industries for – Melting of Steel, Decarburization and for making Special Steels & Alloys. The feedstock for the project is the Green Petroleum Coke which is a byproduct of the oil refining industry. The quality and impurities of the product comes from the crude oil and depends mainly on the refining process parameters. The calcined petroleum cokes are used in production of aluminum anode-grade, graphite electrode, needle-grade, titanium dioxide pigments.

Description

INTRODUCTION
COKE
PETROLEUM COKE
CLASSIFICATION
CALCINED PET COKE
PROPERTIES
SPECIFICATIONS
PHYSICAL PROPERTIES
CHEMICAL PROPERTIES
STANDARD SIZES (GRANULOMETRY)
TYPICAL PROPERTIES:
PHYSICAL: HD ND
CHEMICAL:
USES AND ITS APPLICATION
USES:
ANODES
FUEL
GRAPHITE ELECTRODES
APPLICATIONS
B.I.S. SPECIFICATION
PROCESS FLOW CHART
TECHNOLOGICAL DEVICES AND EQUIPMENT:
PRODUCTION PROCESS
MAIN STEPS ARE GIVEN BELOW
COKE CALCINING TECHNOLOGY
(A) ROTARY KILN TECHNOLOGY
BASIC CALCINING PROCESS
HOW IT WORKS
ROTARY KILN
COOLING:
AFTERBURNER:
FLEXIBILITY IN OPERATIONS
(B) ROTARY HEARTH CALCINER
SCHEMATIC OF ROTARY HEARTH CALCINER
(C) VERTICAL SHAFT TECHNOLOGY
VERTICAL SHAFT KILN
FIG: ZONAL SECTION OF VERTICAL KILN
KILN FIRING AND HEATING PROCESS
(D) EMISSION CONTROL TECHNOLOGY
(1) WET SCRUBBING SYSTEMS
(2) SEMI-DRY SCRUBBING SYSTEMS
(3) DRY SCRUBBING SYSTEMS
BAGHOUSE OPERATION
(F) STORAGE TECHNOLOGY
LOADING
UNLOADING
DUST AND FIRE PREVENTION
FIRE EXTINGUISHING
COKE BLENDING
MARKET POSITION
ADVANTAGES OF USING PETCOKE
CHALLENGES IN USING PET COKE
RECENT PROBLEMS
INDUSTRY TRENDS
PETCOKE MARKET, BY GRADE
PETCOKE MARKET, BY PHYSICAL FORM
PETCOKE MARKET, BY APPLICATION
PETCOKE MARKET, BY REGION
COMPETITIVE PETCOKE MARKET SHARE
PETCOKE INDUSTRY BACKGROUND
RAIN INDUSTRIES LTD MANAGEMENT DISCUSSIONS.
CAUTIONARY STATEMENT
OVERVIEW
INDUSTRY STRUCTURE
CARBON PRODUCTS
CALCINED PETROLEUM COKE (“CPC”) & GREEN PETROLEUM COKE (“GPC”)
COAL TAR PITCH (“CTP”) AND OTHER CARBON PRODUCTS
THREATS & CHALLENGES
CO-GENERATED ENERGY
2. CHEMICALS
RESINS & MODIFIERS
SUPER PLASTICIZERS
AROMATIC CHEMICALS
THREATS & CHALLENGES
3. CEMENT
CURRENT POSITION
NEAR FUTURE
THREATS & CHALLENGES
2. DISCUSSION ON FINANCIAL PERFORMANCE
3. OVERALL BUSINESS AND GROWTH STRATEGIES
4. INTERNAL CONTROL SYSTEMS AND THEIR ADEQUACY
5. HUMAN RESOURCE DEVELOPMENT AND INDUSTRIAL RELATIONS
6. STATUTORY COMPLIANCE
CALCINED PETROLEUM COKE MARKET OVERVIEW
GROWING IN TANDEM WITH ALUMINIUM INDUSTRY
FIGURE 1: FOR EVERY TON OF ALUMINIUM, SMELTING
PROCESS CONSUMES 0.4 TONS OF CPC
PLANT LAYOUT
MANUFACTURERS/SUPPLIERS OF CALCINED COKE
SUPPLIERS OF RAW MATERIALS
GREEN PET COKE
SUPPLIERS OF HDPE BAGS
SUPPLIERS OF PLANT AND MACHINERIES
CHINA SUPPLIERS OF ROTARY KILN
ROTARY KILNS
SUPPLIERS OF STEAM POWER PLANTS
CRUSHING PLANT
SUPPLIERS OF BALL MILL
EOT CRANE
SUPPLIERS OF POWER TRANSFORMER
SUPPLIERS OF ELECTRICAL PANEL
SUPPLIERS OF COOLING TOWER
EFFULENT TREATMENT PLANT
AIR POLLUTION CONTROL EQUIPMENTS
AIR CONDITIONING EQUIPMENTS
AIR COMPRESSORS
PLATFORM WEIGHING MACHINE
MATERIAL HANDLING EQUIPMENTS
FIRE FIGHTING EQUIPMENTS
JIGS AND FIXTURE
SUBMERSIBLE WATER PUMP

APPENDIX – A:

01. PLANT ECONOMICS
02. LAND & BUILDING
03. PLANT AND MACHINERY
04. OTHER FIXED ASSESTS
05. FIXED CAPITAL
06. RAW MATERIAL
07. SALARY AND WAGES
08. UTILITIES AND OVERHEADS
09. TOTAL WORKING CAPITAL
10. TOTAL CAPITAL INVESTMENT
11. COST OF PRODUCTION
12. TURN OVER/ANNUM
13. BREAK EVEN POINT
14. RESOURCES FOR FINANCE
15. INSTALMENT PAYABLE IN 5 YEARS
16. DEPRECIATION CHART FOR 5 YEARS
17. PROFIT ANALYSIS FOR 5 YEARS
18. PROJECTED BALANCE SHEET FOR (5 YEARS)

Additional information

Plant Capacity

167 Ton/Day

Land and Building

(35000 sq.mt)

Plant & Machinery

US$ 1032858

Rate of Return

34%

Break Even Point

58%