BIODEGRADABLE CARRY BAGS AND GARBAGE BAGS

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The plastic materials currently used in SUPCB manufacture are usually sourced from fossil-based resources. However the continued use of fossil-derived carbon as the raw material source for shortlife plastic products raises serious sustainability questions around resource security and carbon impact.

Bio-plastics can be defined as plastics where part or all of the material is derived from renewable biomass resources. For the purposes of clarity we will refer to bio-based plastics as those made from plant-based molecular sources. The term ‘bio-based’ must not be confused with the term ‘biodegradable’ which refers to the natural breakdown of a material at the end of life disposal phase. Not all bio-based polymers are biodegradable and not all biodegradable polymers are bio-based; some biodegradable polymers only biodegrade under specific circumstances.

With the introduction of plant-based bio-PE as a ‘drop-in’ alternative to fossil-derived PE (offering a direct replacement to its fossil based equivalent), coupled with an increase in the production capacity of these bio-polymers, it is becoming increasingly difficult to ignore the potential that bioplastics offer to improving the sustainability of plastic products. They are making an impact on the wider plastics market, in part because:

• As a result of increased demand and finite supply there is a long term upward trend in the cost of fossil based resources. As a result demand for bio-plastics is rising strongly year on year at a rate of 20-100%.

• The resources used to make bio-polymers are predominantly annual crops (such as corn and sugar beet) or perennial cultures (such as cassava and sugarcane) and as such are considered renewable.

• Bio-based plastics present a unique opportunity to reduce greenhouse gas (GHG) emissions or even become carbon neutral.

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Description

INTRODUCTION
TABLE AVERAGE PRODUCTION COST OF BIO-ETHYLENE
TABLE CAPACITY AND STATUS OF KNOWN PLANTS AND PROJECTS
(BIO-PE AND BIO-E)
BIOPOLYMERS
INGREDIENTS:
TYPES OF BIO PLASTIC
1) STARCH BASED OR BIOBASED (HYDRODEGRADABLE)
EXAMPLES OF POLYMERS WITH WHICH STARCH IS COMMONLY USED:
2) ADDITIVE BASED (OXODEGRADABLE/PHOTODEGRADABLE):
A) PROS & CONS OF STARCH BASED TO ADDITIVE BASED FILM/BAG
PROS:
CONS:
COMPARISON OF PHYSICAL PROPERTIES COMPARE TO OTHER POLYMERS:
THE BREAK DOWN CAUSED BY MICROORGANISM CAN BE OF THREE
DIFFERENT TYPES:
STARCH BASED PLASTICS
BACTERIA BASED PLASTICS
SOY BASED PLASTICS
CELLULOSE BASED PLASTICS
LIGNIN BASED PLASTIC
USES AND APPLICATION OF BIODEGRADABLE FILM/BAGS
COMMON MATERIALS USED FOR BIODEGRADABLE/DEGRADABLE FILM:
AVAILABLE THICKNESS
TOLERANCES:
BIODEGRADABLE/DEGRADABLE BAGS CAN BE USED FOR ANY
APPLICATION HOWEVER IT IS POPULAR FOR FOLLOWING USE:
CURRENTLY USED:
TYPES OF BAGS
POSITIVES OF USING BIODEGRADABLE BAGS AND IT’S IMPACT ON ENVIRONMENT
REASON FOR USING BIODEGRADABLE BAGS IN INDIA AND FUTURE
IN INDIAN MARKET
MARKET OVERVIEW OF BIODEGRADABLE PLASTIC BAGS IN INDIA
OVERVIEW OF BIODEGRADABLE PLASTIC & PACKAGING
TWO MARKET SEGMENTS ARE DRIVING THE SURGE:
MARKET OVERVIEW OF BIODEGRADABLE BAGS
MANUFACTURERS/SUPPLIERS OF BIODEGRADABLE
CARRY BAGS/GARBAGE BAGS
MANUFACTURING PROCESS OF BLOWN FILM EXTRUSION PROCESS
AND BAG MAKING
PROCESS FLOW DIAGRAM
PROCESSING STEPS TO MANUFACTURE FILM & BAGS
EXTRUSION PROCESS
ELEMENTS OF BLOWN FILM
BLOW-UP RATIO (BUR)
COEXTRUSION OF BLOWN FILM
BIOPLASTICS AND BIODEGRADABLE PLASTICS
BIOPLASTICS
A RECIPE FOR PLA BIOPLASTICS
BIODEGRADABLE PLASTICS
SWOT ANALYSIS
PRINCIPLES OF PLANT LAYOUT
PLANT LOCATION FACTORS
EXPLANATION OF TERMS USED IN THE PROJECT REPORT
PROJECT IMPLEMENTATION SCHEDULES
SUPPLIERS OF RAW MATERIALS
BIODEGRADABLE GRANULES
SUPPLIERS OF PRINTING INKS
SUPPLIERS OF PACKAGING MATERIALS
SUPPLIERS OF LUBRICANTS
SUPPLIERS OF RAW MATERIALS (IMPORTED)
SUPPLIERS OF PLANT AND MACHINERY
DIE CUTTING PUNCHING MACHINE
FLEXOGRAPHIC PRINTING MACHINE
BOTTON SEALING & SIDE SEALING MACHINE
SLITTING MACHINE
LOOP HANDLE MAKING MACHINE
SUPPLIERS OF AIR COMPRESSORS
SUPPLIERS OF D.G. SETS
SUPPLIERS OF DIES
SUPPLIERS OF LABORATORY EQUIPMENTS
SUPPLIERS OF INSTRUMENTATION & PROCESS CONTROL EQUIPMENTS

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

2160 Kgs 80-90 Kgs/hr

Land and Building

(252 Sq.Mtr)

Plant & Machinery

US$ 19857

Rate of Return

40%

Break Even Point

49%