Detailed Project Report on plastic granule/polymer manufacturing unit
Detailed Project Report on plastic granule/polymer manufacturing unit
₹ 0 INR
Why Choose Us
- More than 40 years of experience
- Managed by expert industrial consultants
- ISO 9001-2015 Certified
- Registered under MSME, UAM No: DL01E0012000
How we work
- 24/5 Research Support
Get your quesries resolved from an industry expert. Ask your queries before report or book purchase. - Custom Research Service
Speak to the our consultant to design an exclusive study to serve your research needs. - Quality Assurance
All reports are prepared by highly qualified consultants & verified by a panel of experts. - Information Security
Your personal & confidential information is safe & secure.
PLASTIC GRANULE/POLYMER
MANUFACTURING UNIT
[CODE NO.4001]
“Plastic is an organic material which on application of adequate heat and pressure can be caused to flow and take up a desired shape which will be retained when the applied heat and pressure are withdrawn.” Chemically, a polymer is defined as a substance composed of very large molecules. The molecular structure corresponds to a chain composed of many small molecules joined by chemical bonds. One or more types of small molecules, also known as monomers, are incorporated into the polymer as it is synthesized in control conditions.
Basic Ingredient of plastic is-
The major chemical elements making up petroleum are oxygen (O), hydrogen (H), and carbon(C)."
Petroleum is decomposed under heat into gasoline, kerosene, naphtha, light oil, heavy oil, etc. Most plastics use naphtha as main raw material. Naphtha is further decomposed thermally and separated utilizing the difference in the boiling point (temperature at which the phase change from liquid to gas occurs) to form ethylene and propylene, which are the raw materials for plastics. However, many of these gases and liquids are not ready for use as they are.
About "mono" and "poly"
To produce a high-molecular compound, it is necessary to first produce low-molecular compounds and bond them together. This reaction is known as polymerization, the low-molecular compounds as “monomers," and the high-molecular-weight substance as a " high-molecular compound" or "polymer." The word "mono" means "single" while "poly" means "multiple."
The formation of polymers from monomers uses heat, light, and additives such as enzymes (polymerization initiators). In this way, ethylene and propylene, which are monomers, are polymerized into polyethylene and polypropylene.
Simply stated, the " high-molecular substances" as referred to by the Japan Industrial Standard mean " substances with very high-molecular weights synthesized chemically." Substances are classified into low-molecular, intermediate-molecular, and high-molecular substances according to their molecular weights. For example, the molecular weight of oxygen is 32 and that of sugar is 342.
On the other hand, the molecular weights of rubber and proteins exceed 10000. Natural "high-moleculara?? compounds include, natural resins such as natural rubber and rosin, cellulose, silk, proteins, and many other substances. The substances produced in imitation of these substances are synthetic rubber, synthetic resins, and synthetic fiber. Thus, plastics are high-molecular compounds produced artificially. They are called " synthetic resin" or simply " resin" in comparison to natural resin.
The definition of plastics
The Japan Industrial Standard (JIS K 9600-1977) defines "plastics" as "solids artificially formed into useful shapes using high-molecular substances as main raw materials. However, fiber, rubber, paints, and adhesives are excluded."
Plastics, materials made up of large, organic (carbon-containing) molecules thatcan be formed into a variety of products. The molecules that compose plastics arelong carbon chains that give plastics many of their useful properties. In general,materials that are made up of long, chainlike molecules are called polymers. The word plastic is derived from the words plasticus (Latin for “capable of molding”) and plastikos (Greek “to mold,” or “fit for molding”).
Plastics can be made hard asstone, strong as steel, transparent as glass, light as wood, and elastic as rubber.Plastics are also lightweight, waterproof, chemical resistant, and produced inalmost any color. More than 50 families of plastics have been produced, and newtypes are currently under development.
It is very difficult to realise how important plastics have become to our everyday lives. We always seem to have known these materials, and we tend to take it for granted that they occur every day and all around us, for example in our clothing, the pen that we write with, the chair that we sit on or the wrapping of the food that we eat.
So it is sometimes hard to believe that plastics have only been commonly available for about the last one hundred years. Yet in this time the impact that they have made upon the quality of our lives and on the products that we have access to has been enormous. Plastics give us the possibility of manufacturing well-designed, beautiful products from the very many different types of plastics materials that are commonly available today. Within manufacturing technology there is a very high degree of technological understanding of plastics and a range of sophisticated technological processes that enable us to make them and shape them in numerous ways. This book aims to show you a little of what can be done.
The word plastic itself comes from the Greek word plasticos, which means to be able to be shaped or moulded by heat. As we will see, shaping plastics by using heat is a basic part of nearly all plastics manufacturing processes. Like timbers, which can be divided into hardwoods and softwoods, and metals that can be divided into ferrous and nonferrous metals, plastics can also be divided into categories:
Natural plastics - these are naturally occurring materials that can be said to be plastics because they can be shaped and moulded by heat. An example of this is amber, which is a form of fossilised pine tree resin and is often used in jewellery manufacture.
Semi synthetic plastics - these are made from naturally occurring materials that have been modified or changed but mixing other materials with them. An example of this is cellulose acetate, which is a reaction of cellulose fibre and acetic acid and is used to make cinema film.
Synthetic plastics - these are materials that are derived from breaking down, or ’cracking’ carbon based materials, usually crude oil, coal or gas, so that their molecular structure changes. This is generally done in petrochemical refineries under heat and pressure, and is the first of the manufacturing processes that is required to produce most of our present day, commonly occurring plastics.
Synthetic and semi synthetic plastics can be further divided into two other categories. These two categories are defined by the ways in which different plastics react when heated.
COST ESTIMATION
Plant Capacity 100 MT/Day
Land & Building (6000 sq.mt.) Rs. 4.68 Cr
Plant & Machinery Rs. 1.20 Cr
Working Capital for 1 Month Rs. 23.66 Cr
Total Capital Investment Rs. 3.17 Cr
Rate of Return 61%
Break Even Point 24%
INTRODUCTION
BASIC INGREDIENT OF PLASTIC IS-
ABOUT "MONO" AND "POLY"
THE DEFINITION OF PLASTICS
THE EARLY HISTORY OF POLYMERS
A PLASTICS TIMELINE:-
PROJECT LOCATION
HOSUR, TAMILNADU
MAP
CLIMATE:-
TRANSPORTATION:-
HOSUR BY AIR
HOSUR BY RAIL
HOSUR BY ROAD
STRUCTURE OF POLYMERS
POLYETHYLENE DESIGNATIONS
POLYETHYLENE IS...
POLYETHYLENE IS CLASSIFIED BY DENSITY RANGES, AS DEFINED BY ASTM:
LDPE
LLDPE -GENERAL INFORMATION
MODIFYING POLYMERS
BLOWING AGENTS.
COLOURANTS.
FILLERS.
PROTECTIVE AGENTS.
IMPACT MODIFIERS.
LUBRICANTS.
PLASTICISERS.
GENERAL PROPERTIES OF PLASTICS
CHEMISTRY OF PLASTICS
PLASTIC GRANULES PROPERTIES & SIZE
USES AND APPLICATION
USES AND APPLICATION.
LDPE APPLICATIONS
LDPE COMMON APPLICATIONS
HDPE APPLCATION:-
PLASTICS AND THE ENVIRONMENT
CLASSIFICATION OF PLASTICS
THERMOPLASTICS
1/ POLYOLEFINS
2/ VINYL POLYMERS
3/ POLYSTYRENES
4/ ACRYLATE AND METHACRYMATE POLYMERS
6/ POLYCARBONATES
8/ LINEAR POLYESTER
9/ POLYFLUORETHANE
10/ POLYACETAL
12/ POLYPHENYLENE SULFIDE
13/ MODIFIED POLYPHENYLENE OXIDE (PPO)
THERMOSETTING PLASTIC
1/ UNSATURATED POLYSTER
2/ PHENOL FORMALDEHYDE RESINS
3/ MELAMINE RESINS
4/ POLYEPOXIDES
5/ POLYIMIDE
6/ POLYURETHANE
7/ POLYORGANOSILOXANES
DIFFERENT TYPES OF PLASTICS AND THEIR CLASSIFICATION
MANUFACTURING PROCESS (HDPE, LDPE, LLDPE GRANULES)
HDPE GRANULES:-
HDPE PROCESS CONSISTS OF:
LDPE & LLDPE GRANULES:-
THE LDPE PROCESS CONSISTS IN FIVE OPERATIONS:
MANUFACTURING TECHNIQUES
TWO MAIN POLYMERIZATION PROCESSES CAN PRODUCE HDPE
CO-ORDINATION POLYMERIZATION CARRIED OUT IN FOLLOWING STEPS
WHERE KP IS THE RATE CONSTANT OF THE PROPAGATION REACTION.
CHAIN TRANSFER WITH MONOMER:
CHAIN TRANSFER WITH HYDROGEN
MANUFACTURING PROCESS
SLURRY POLYMERIZATION
SOLUTION PHASE POLYMERIZATION
COMMON STEPS INVOLVED IN ALL PROCESSES:
SLURRY PROCESS DESCRIPTION
PROCESS FLOW DIAGRAM
HDPE GRANULES
LLDPE, MDPE, HDPE, MLLDPE
MARKET SURVEY
KEY PLAYERS IN THE GLOBAL PLASTIC GRANULES
PRODUCT INSIGHTS
APPLICATION INSIGHTS
REGIONAL INSIGHTS
CAPACITY OF PLANT
OVERALL MATERIAL BALANCE:
MIXER
1ST REACTOR:
2NDREACTOR:
CENTRIFUGE
DRYER
MACHINERY SUPPLIERS
HEAT EXCHANGER
COMPRESSOR
DRYER
STORAGE SILO
EXTRUDER
RAW MATERIAL SUPPLIERS
ETHYLENE
NITROGEN
HYDROGEN
TICL4 CATALYST
(C2H5)3AL CATALYST
PRODUCT PHOTOGRAPHS
PLASTIC GRANULES
HDPE GRANULES
LDPE GRANULES
NEW ITEMS
MACHINERY PHOTOGRAPHS
HEAT EXCHANGER
COMPRESSOR
SEPARATORS
HIGH-SPEED CENTRIFUGE
DRYER
SCRUBBER
STORAGE SILO
SINGLE SCREW EXTRUDER
HIGH SPEED MIXER
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)
How to Make Project Report?
Detailed Project Report (DPR) includes Present Market Position and Expected Future Demand, Technology, Manufacturing Process, Investment Opportunity, Plant Economics and Project Financials. comprehensive analysis from industry covering detailed reporting and evaluates the position of the industry by providing insights to the SWOT analysis of the industry.
Each report include Plant Capacity, requirement of Land & Building, Plant & Machinery, Flow Sheet Diagram, Raw Materials detail with suppliers list, Total Capital Investment along with detailed calculation on Rate of Return, Break-Even Analysis and Profitability Analysis. The report also provides a birds eye view of the global industry with details on projected market size and then progresses to evaluate the industry in detail.
We can prepare detailed project report on any industry as per your requirement.
We can also modify the project capacity and project cost as per your requirement. If you are planning to start a business, contact us today.
Detailed Project Report (DPR) gives you access to decisive data such as:
- Market growth drivers
- Factors limiting market growth
- Current market trends
- Market structure
- Key highlights
Overview of key market forces propelling and restraining market growth:
- Up-to-date analyses of market trends and technological improvements
- Pin-point analyses of market competition dynamics to offer you a competitive edge major competitors
- An array of graphics, BEP analysis of major industry segments
- Detailed analyses of industry trends
- A well-defined technological growth with an impact-analysis
- A clear understanding of the competitive landscape and key product segments
Need Customized Project Report?
- Ask for FREE project related details with our consultant/industry expert.
- Share your specific research requirements for customized project report.
- Request for due diligence and consumer centric studies.
- Still haven't found what you're looking for? Speak to our Custom Research Team
About Engineers India Research Institute:
EIRI Board is a single destination for all the industry, company and country reports. We feature large repository of latest industry reports, leading and niche company profiles, and market statistics prepared by highly qualified consultants and verified by a panel of experts.
Note: We can also prepare project report on any subject based on your requirement and country. If you need, we can modify the project capacity and project cost based on your requirement.
Our reports provide an expansive market analysis of the sector by covering areas like growth drivers, trends prevailing in the industry as well as comprehensive SWOT analysis of the sector.
Our Approach
- Our research reports comprehensively cover Indian markets (can be modified as per your country), present investigation, standpoint and gauge for a time of five years*.
- The market conjectures are produced on the premise of optional research and are cross-accepted through associations with the business players
- We use dependable wellsprings of data and databases. What's more, data from such sources is handled by us and incorporated into the report
Why buy EIRI reports?
- Our project reports include detailed analysis that help to get industry Present Market Position and Expected Future Demand.
- Offer real analysis driving variables for the business and most recent business sector patterns in the business
- This report comprehends the present status of the business by clarifying a complete SWOT examination and investigation of the interest supply circumstance
- Report gives investigation and top to bottom money related correlation of real players/competitors
- The report gives gauges of key parameters which foresees the business execution
25 Dec
0
12 Aug
0
