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Biodegradable Products, Recyclable, Disposable, Eco-Friendly Plastics, Bioplastics, Compostable, Biodegradable Packaging for Food Products, Bio-based Polymers, Oxo-biodegradable Plastics, Bio-nanocomposites using Maize, Corn, Sugarcane Bagasse


Plastics have become an indispensable ingredient to modern life. But the environmentally degradable plastics are finding innumerable opportunities and application. Physical and chemical methods of pollution control were always in the forefront because they were easy to understand, easy to control and were reproducible. Biodegradation is the real mechanism of nature of balancing the material. A better option is to modify the materials, processes and products in such a way that one can rely upon the biodegradation in nature, recalcitrance and bioaccumulation problems are overcome. We are slowly changing our philosophy and are not merely targeting for clean-up or removal of pollutant but are aiming for prevention of pollution or facilitating biodegradation.

Bio plastics are biodegradable plastics, whose components are derived from renewable raw materials. These plastics can be made from abundant agricultural/animal resources like cellulose, starch, casein collagen, soy protein polyesters and triglycerides. Large scale use of these would help in preserving non-renewable resources like petroleum, natural gas and coal and contribute little to the problems of waste management. Biodegradable Plastics degrade over a period of time when exposed to sun and air. The demand for biodegradable Plastics is ever increasing. Biodegradable products are a great alternative to plastic and styrofoam products.  These products are toxic free, compostable, and easily affordable.  There are many eco-friendly products, which include PLA cold cups derived from corn bioresin, completely compostable hot cups, souffle cups, plates, utensils, bowls, and take-out containers that are made from discarded sugarcane fiber etc in the market. These biodegradable products can replace plastic and Styrofoam consumption and help in minimizing the impact on environment byreducing environmental waste and promoting sustainability while providing the highest quality biodegradable products available.

The main properties of the biodegradable plastics are: Low barriers of oxygen/water vapour transfer, best suited for short shelf life products, fully compostable in commercial composting facilities and above all will not biodegrade in landfill or other environments under ambient conditions but degrade at controlled conditions, temperature or organisms.

Manufacturing processes are rapidly changing and biodegradable products are fast replacing man-made, difficult to degrade products. Partially biodegradable shopping bags are already manufactured from thin matrix of conventional polythene filled in with starch.  Application areas identified in India for biodegradable plastics are agricultural mulch, surgical implants, industrial packaging, wrapping, milk sachets, foodservice, personal care, pharmaceuticals, medical devices, recreational etc.Over the past year packaging suppliers have been introducing various forms of biodegradable plastics made from a variety of plants, in the main corn, based on projections that consumers and recycling regulations will drive demand for environmentally-friendly packaging. Some companies are predicting that the market will grow by about 20 per cent a year.

In addition, a combination of pricing and retail uptake has led more and more processors to look at biodegradable products as an alternative to polyethylene terephthalate (PET). The biodegradable products include a variety of fiber-based trays, containers and clamshells for foodservice, retail-packaged meat and produce, frozen entrees and prepared foods. Approximately a dozen of inherently biodegradable plastics are now in the market, with range of properties suitable for various consumer products. Some examples are biodegradable films or other raw material (for biodegradable plastic articles). New market opportunities are emerging for the development of biodegradable and bio-based products as the next generation of sustainable, eco-friendly materials that meet ecological and economic requirements. The coming years will see a new revolution in the biodegradable products.


The global demand for biodegradable products is on an upward trend. This is due to increasing environmental concerns and legislation in favor of bioplastics. There is a growing need for eco-friendly plastic bags and biodegradable packaging for food products.

Biodegradable Plastic Manufacturing Process

All the raw materials for bioplastics are natural. The common ones are:

  • Corn oil
  • Peelings from oranges
  • Various plant materials

Polylactic acid, or simply PLA biodegradable plastic, is one of the most important eco-friendly plastics. You can manufacture it from cornstarch, tapioca roots, chips, or cane sugar. During the manufacturing of regular plastic non-biodegradable products, manufacturers often add chemical fillers. They release these fillers on combustion or decomposition, polluting the environment.

Biodegradable products manufacturing process does not use chemical fillers. They remain safe even when the decay or burn.

The first step in the bioplastic manufacturing process involves mixing and heating materials to a molten state. Secondly, you pour the melted mixture into molds to shape it into desired eco-friendly plastic products.

Common products include biodegradable paper, eco-plastic bags, and eco-friendly produce bags.

Steps to prepare Project report on Biodegradable Carry Bags

Bioplastics are the raw materials for making biodegradable carry bags. There is a huge demand for these bags in the world market. People prefer these bags because they are an affordable biodegradable product packaging alternative.

Environmentally friendly plastic bags do not pose any danger to humans or the environment when they decompose. Unlike regular plastics, they do not release any harmful chemicals when they decompose. 

There are a few guiding questions if you are keen on writing a project report on biodegradable carry bags.

  • What is the nature and type of carrying bags you will make? What will be their unique features?
  • Is there a demand for these types of carry bags in the target market? What are the present and future drivers of this demand?
  • Are you familiar with, and do you have the skills for biodegradable plastic manufacturing process?
  • What are the materials and machinery needed to make your preferred type of carrying bags?

To answer some of these questions and write a good project report, you must first review the feasibility study report for project viability.

How to start a Biodegradable Plastic Manufacturing Company?

Here are some of the preliminary steps to starting a biodegradable plastic firm.

1. Market research

First, you need to survey the market potential for biodegradable plastics. You should ask questions like:

  • Do I expect the demand for bioplastics to grow or decline shortly?
  • Considering the required inputs and market prices for bioplastic products, will the ideas remain feasible in the future?
  • What is the current and likely future government position? Is there a likelihood of it banning your product in the future?

2. Project report

After the market analysis, the next big step in making a project report. A project feasibility report tells you the level of investment for a biodegradable plastics company. It also tells you the available types and grades of polymers in the market and the ideal one for you.

3. Company registration

You cannot start a plastic manufacturing company before you clear all legal hurdles. Dealing with plastics will require that you first register your company. Next, the government will have to assess and certify that the biodegradable plastic manufacturing process is safe.

In some countries, you will have to produce a prototype and submit to a government agency for approval. Here, they might consider the product's quality, specifications, and environmental impact.

Lastly, you need to ensure compliance with ISO standards and tax requirements.

4. Land and buildings

Manufacturing bioplastics be it biodegradable cleaning products or carry bags, requires a store for materials and products. You need land for setting up the factory and constructing stores. You may also need room to fix some equipment such as melting and molding machines.

Pre-feasibility report for Biodegradable Products

Do you intend to start a business in biodegradable products?  in that case, that you have already identified several possible ideas. The question now is, how do you tell which of these ideas is the most practical?

What you need is a pre-feasibility report. This report helps decide whether to proceed, do technical feasibility reports, and market feasibility reports.

What is a pre-feasibility study?

This preliminary study helps you decide between several biodegradable product ideas. It helps critiques each bioplastic produce idea. You will consider technical skills, knowledge, and financial requirements for each idea.

How important is a pre-feasibility report?

The pre-feasibility report is critical in the biodegradable products industry for the following reasons:

  • Biodegradable plastic products are quite diverse. Not all can be feasible in your target market. It is also cheaper if you specialize in a specific product.
  • It is expensive to do a feasibility study report in bioplastics due to the diversity of the industry. You need to look at the feasibility report example to understand the importance of a pre-feasibility study.



Reasons for buying our reports:

This report helps you to identify a profitable project for investing or diversifying into by throwing light to crucial areas like industry size, market potential of the product and reasons for investing in the product

This report provides vital information on the product like its characteristics and segmentation

This report helps you market and place the product correctly by identifying the target customer group of the product 

This report helps you understand the viability of the project by disclosing details like machinery required, project costs and snapshot of other project financials

The report provides a glimpse of government regulations applicable on the industry

The report provides forecasts of key parameters which helps to anticipate the industry performance and make sound business decisions.


Our Approach:

Our research reports broadly cover Indian markets, present analysis, outlook and forecast for a period of five years.

The market forecasts are developed on the basis of secondary research and are cross-validated through interactions with the industry players

We use reliable sources of information and databases. And information from such sources is processed by us and included in the report


We can provide you detailed project reports on the following topics. Please select the projects of your interests.

Each detailed project reports cover all the aspects of business, from analysing the market, confirming availability of various necessities such as plant & machinery, raw materials to forecasting the financial requirements. The scope of the report includes assessing market potential, negotiating with collaborators, investment decision making, corporate diversification planning etc. in a very planned manner by formulating detailed manufacturing techniques and forecasting financial aspects by estimating the cost of raw material, formulating the cash flow statement, projecting the balance sheet etc.

We also offer self-contained Pre-Investment and Pre-Feasibility Studies, Market Surveys and Studies, Preparation of Techno-Economic Feasibility Reports, Identification and Selection of Plant and Machinery, Manufacturing Process and or Equipment required, General Guidance, Technical and Commercial Counseling for setting up new industrial projects on the following topics.

Many of the engineers, project consultant & industrial consultancy firms in India and worldwide use our project reports as one of the input in doing their analysis.

We can modify the project capacity and project cost as per your requirement.
We can also prepare project report on any subject as per your requirement.

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Polylactic Acid (PLA) Production

Polylactic Acid (PLA) Production. A Biodegradable and Bioactive Polyester. Most Common Bioplastic in Today’s Use Polylactic Acid (PLA) Polylactic acid or polyactide (PLA) is a biodegradable and bioactive polyester made up of lactic acid building blocks. Polylactic acid (PLA) is at present one of the most promising biodegradable polymers (biopolymers) and has been the subject of abundant literature over the last decade. PLA can be processed with a large number of techniques and is commercially available (large-scale production) in a wide range of grades. It is relatively cheap and has some remarkable properties, which make it suitable for different applications. Polylactic acid (PLA) is the most common bioplastic in use today. First, corn or other raw materials are fermented to produce lactic acid, which is then polymerized to make polylactic acid (PLA). Bioplastics are expected to make major contributions to environmental protection, because they reduce CO2 and because they are biodegradable. The range of applications for bioplastics is growing, from materials used in automobile interiors to packaging for foods and cosmetics, to agricultural sheeting, to household appliances. Application: PLA is biocompatible and thus suitable for medical use, for instance in absorbable suture threads. PLA is also one of the few plastics that are suitable for 3D printing. PLA (polylactic acid) is adapted to classical processing equipments and allows the manufacturing of food contact packagings, bottles for cosmetics application, textile fibers etc. Early applications of high-density PLA were mostly limited to biomedical areas due to its ability to be safely absorbed biologically. Over the past decades, the development of economical production methods and a rising environmental consciousness in consumers lead to the widespread use of PLA as packaging material for consumer goods. Market Outlook Polylactic Acid (PLA) Market is expected to garner $5.2 billion by 2020, registering a CAGR of 19.5% during the forecast period 2013-2020. Polylactic acid (PLA) is a bio-degradable thermoplastic aliphatic polymer produced from lactic acid using various crops like corn, sugarcane, tapioca etc. as a raw material. Increasing consumer awareness, government incentives and easy availability of raw materials are the major factors driving market growth. However, the cost of PLA is comparatively higher than synthetic plastics, thus becoming a primary restraining factor for the market growth. In terms of volume consumption Polylactic acid accounts for highest consumed bio plastic. Government is taking initiatives, providing subsidies and support for increasing usage of bio degradable products. Pollution control and environment safety are the major reasons why more and more stakeholders are turning towards bio plastic usage rather than conventional plastic synthesised from petroleum. Technological advancement, technological transfer from developed countries and high consumer demand in developing countries are responsible for upcoming new set ups in packaging, textiles and electronics industries. These industries’ demand for Polylactic acid is the key market growth driver in developing countries. Increasing usage in creams, shampoos, and body care products as it enhances skin lightening effects, improves collagen and elastin synthesis, accelerates exfoliation and cell renewal is expected to propel industry expansion over the forecast period. Rising demand for personal care products, owing to the introduction of sophisticated products along with the formulation development for a particular consumer group is expected to create new growth avenues for the lactic acid market. There are different types of packaging available in the market such as metal packaging, rigid packaging, flexible packaging, glass packaging, cardboard, and paper packaging. Some common objectives of packaging are physical protection, barrier protection, containment or agglomeration, marketing, security, and convenience. The key driver responsible for the growth of the market is the increasing demand for plastics in packaging from the developing countries such as China and India. The countries like Brazil, India, China, and Russia (BRIC) are global leaders in the Packaging industry with a total 30% of the market share. The Polylactic acid Market is segmented based on product form which is further sub-divided into films and sheets, coatings, and fibers; and also on the basis of the application which is again sub-divided into packaging, catering, technical material, consumer goods, agriculture, construction materials and others. Packaging is the main application of PLA since almost 46% of PLA is consumed for manufacturing packaging materials. Packaging material again has two categories, film packaging, and bottle packaging. In this category, most of the PLA is used for making of plastic bags. Around 19000 tons i.e. 18% of total PLA is used for making plastic bottles. The major players in global Polylactic acid production market are collaborating in order to provide innovative solutions to meet the specific demand for Polylactic acid. Most of European and American firms are taking initiatives via technology and expertise transfer to increase the production of Polylactic acid in Asia pacific market, which is highest growing market. Indian Scenario: Poly lactic acid is not presently produced in India. Tags #Polylactic_Acid_Production, #Poly_Lactic_Acid_Production_Pdf, #How_to_Make Polylactic_Acid, #Poly_Lactic_Acid_Production_in_India, #Polylactic_Acid Properties_and_Uses, Polylactic Acid Manufacture, #PLA_Manufacturing, Process for Producing Polylactic Acid, #Commercial_Production_of_PLA, #Polylactic_Acid_Manufacturing_Plant, Polylactic Acid Industry, Polylactic Acid (PLA) Industry, Production Process for Polylactic Acid (PLA), Production of Polylactic Acid, Poly (Lactic Acid), Poly (Lactic Acid) or Polylactic Acid or Polylactide (PLA), #Project_Report_on_Polylactic_Acid_Manufacturing, Industry, #Detailed_Project_Report_on_Polylactic_Acid_Production, Project Report on Polylactic Acid Production, Pre-Investment Feasibility Study on Polylactic Acid Production, #Techno_Economic_feasibility_study_on_Polylactic_Acid_Production, Feasibility report on Polylactic Acid Production, Free Project Profile on Polylactic Acid Production, Project profile on Polylactic Acid Manufacturing, Polylactic Acid Production, A Biodegradable and Bioactive Polyester, Most Common Bioplastic in Today’s Use
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Polyvinyl Alcohol (PVA) Manufacturing Industry

Polyvinyl Alcohol (PVA) Manufacturing Industry. The Global Polyvinyl Alcohol (PVA) Market is expected to Reach USD 1.21 Billion by 2025 Polyvinyl alcohol, also known as PVOH, PVA, or PVAL, is a synthetic polymer that is soluble in water. It is effective in film forming, emulsifying, and has an adhesive quality. It has no odor and is not toxic, and is resistant to grease, oils, and solvents. It is ductile but strong, flexible, and functions as a high oxygen and aroma barrier. Polyvinyl Alcohol (PVA) is produced by polymerization of vinyl acetate monomer followed by hydrolysis. PVA finds application in various end-use industries such as food packaging, paper, textile, construction, coatings, and pharmaceutical. Polyvinyl Alcohol exhibits resistance to moisture and therefore, is predominantly used in the food packaging. Due to high water solubility and biodegradability, PVA has increasingly been used in the packaging industry. Uses: Polyvinyl Alcohol use is growing in packaged food products due to the benefits associated with it such as film forming and retention of taste & texture of the product. It is also used in the nutritional supplement pills, tablets and capsules owing to its viscosity. Polyvinyl alcohol is used as an additive in mortar and cement in order to increase of their cohesion and fluidic properties, reducing the drying time for the concrete surface. This increases the coating adaptability and prevents concrete cloth from chapping. Polyvinyl alcohol is widely used to strengthen textile yarn and papers, particularly to make the latter more resilient to oils and grease. It is also used in freshwater sports fishing. PVA is added into bags that are filled with oil-based or dry fishing bait and attached to the hook. As PVA is soluble in water, when the bag lands on the bed of the water, it breaks down, leaving the hook bait surrounded by pellets and ground bait. This attracts fish to the hook bait, although the PVA does cause the plastic to dissolve in water. PVA may also be used as a coating agent for food supplements and does not pose any health risks as it is not poisonous. One of the leading industrial uses for PVA is for food packaging, accounting for 31.4 percent of the global share in 2016. To combat moisture formation from foodstuff, PVA film is created to be thin and water-resistant. Its crosslinking density and resistance to moisture are added benefits to its usability in this area. Polyvinyl alcohol is a resin, a natural or synthetic organic compound made of non-crystalline or viscous substance. Hence, it is often utilized as the starting point for the creation of other resins such as polyvinyl butyral (PVB) or polyvinyl formal (PVF). PVB has an adhesive quality and is a water-resistant, plastic film, which is often used to laminate safety glass for vehicles. PVF is commonly used to insulate wires. It is also interesting to note that in another growing market, the pharmaceutical market, use of polyvinyl alcohol for coating of medicinal tablets is quite prominent. Its various chemical properties have shown the benefit of its use in health applications, and in particular in pharmaceutics. However, extensive experimentation and pharmaceutical use of PVA/PVOH has been limited due to regulations on food and drugs. Market Outlook The global polyvinyl alcohol (PVA) market is expected to reach USD 1.21 billion by 2025, reflecting a compound annual growth rate of 4.59%. PVA finds application in various end-use industries including food packaging, paper, textile, construction, coatings, and pharmaceutical. Polyvinyl alcohol is available in a wide-range of grades, which is also a major positive for the product as it allows end users a wider option to select from. Moreover, the product’s high resistance to moisture, high water solubility and biodegradability makes it suitable for various industrial application. The product is increasingly being used in manufacturing sustainable packaging owing to it physiochemical characteristics. Factors as such are expected to support the global market for PVA during the review period. Increasing need for biocompatible and non-toxic packaging solutions in food & beverage industry is expected to drive the growth. PVA is extensively used in food packaging industry owing to its advantageous properties such as good crosslinking density and moisture content. The demand for PVA is expected to boost owing to the growth in various end-use industries in the Asia Pacific region. Different grades of polyvinyl alcohol are used in the papermaking process with high, intermediate and low viscosities. These grades can be either fully, partially or intermediately hydrolyzed in nature. In addition, changing packaging trends in the cosmetics, and food & beverage industries are also fueling the growth of this region. Furthermore, rising use of biodegradable material by packaging industry in order to prevent pollution is also contributing to the increasing demand for PVA. Rising innovation in packaging coupled with consumers’ demand for properties such as convenience, safety, technology, and sustainability, is expected to fuel the demand for PVA during the forecast period. The demand for PVA is expected to boost owing to the growth in various end-use industries in the Asia Pacific region. Different grades of polyvinyl alcohol are used in the papermaking process with high, intermediate and low viscosities. These grades can be either fully, partially or intermediately hydrolyzed in nature. Asia Pacific is the fastest growing market for Polyvinyl Alcohol as a result of rapidly growing demand from packaging industry especially pertaining to convenience food, from the working class in the developing economies such as India, China, Thailand, and South Korea. The product demand for packaged food products is growing due to convenience and longer shelf life of the products. Growing healthcare industry is also propelling the market growth with respect to rising disease burden among the consumers. Increasing need for bio-based PVA alcohol products is key growth factor to drive polyvinyl alcohol market growth. In addition, rising demand from Asia Pacific region is further propelling the demand over the forecast period. By end use industry, the market has been segmented into packaging, paper, construction, electronics, textile, and medical. Currently, packaging is the leading segment while the textile segment is likely to be the fastest growing segment. The intensive use of PVOH in biodegradable packaging aids the packaging segment to gain the leading position in the market, and currently accounts for 38.2% share of the market. The textile segment is expected to expand at a CAGR of 5.49% owing to extensive use of PVOH for wrap sizing applications. Moreover, increased demand for textiles has resulted in the consistent growth of the textile industry. The polyvinyl alcohol market is segmented into North America, Europe, Asia Pacific, Latin America, and the Middle East & Africa regions for the purpose of the regional analysis. The Asia Pacific region has emerged as the most rapidly developing market in 2017 and is projected to develop at a strong CAGR of 5.45 percent through the review period and is anticipated to touch USD 791.3 million by the end of 2023. The reinforcing growth of the application industries such as textile, food packaging, and construction can be credited towards this development. The demand for sustainable packaging can be accredited to the market growth in the region. The North American region is another major region in the market for polyvinyl alcohol with growing demand for the product as a polymerization aid. Demand for Polyvinyl Alcohol as an emulsifying and dispersing agent also boosts the growth of the market. Furthermore, Polyvinyl Alcohol is also used in vinyl-based emulsion in an array of applications including paints & coatings, textile, re-dispersible powders, and construction which adds to the growth of the market. Growing constructional activities are expected to provide an opportunity for the Global Polyvinyl Alcohol Market as it is used in a number of construction chemicals. However, volatility in the price of raw materials might act as a setback to the growth of the Global Polyvinyl Alcohol Market. Tags #Manufacture_of_Polyvinyl_Alcohol, #Polyvinyl_Alcohol_(PVA), #Polyvinyl_Alcohol_Production, #Preparation_of_Polyvinyl_Alcohol_(PVA), Poly (Vinyl Alcohol) (PVA), #Production_of_Polyvinyl_Alcohol, Manufacturing of Polyvinyl Alcohol, #Polyvinyl_Alcohol_Manufacturing_Plant, Polyvinyl Alcohol, Also Known as PVOH, PVA, or PVAL, Properties and Applications of Polyvinyl Alcohol, Manufacturing Process and Application of Polyvinyl Alcohol, Polyvinyl Alcohol (PVA) Manufacturing Process, Polyvinyl Alcohol Uses, Polyvinyl Alcohol Production Business, Process for the Manufacture of Polyvinyl Alcohol, Chemical Compound, Polyvinyl Alcohol Manufacturing Unit, Manufacture of Polyvinyl Alcohol, #Project_Report_on_Polyvinyl_Alcohol_(PVA)_Manufacturing_Industry, #Detailed_Project_Report_on_Polyvinyl_Alcohol_(PVA)_Manufacturing, Project Report on Polyvinyl Alcohol Production, #Pre_Investment_Feasibility_Study_on_Polyvinyl_Alcohol_Production, Techno-Economic feasibility study on Polyvinyl Alcohol (PVA) Manufacturing, #Feasibility_report_on_Polyvinyl_Alcohol_Production, Free Project Profile on Polyvinyl Alcohol Production, Project profile on Polyvinyl Alcohol Production, Download free project profile on Polyvinyl Alcohol (PVA) Manufacturing
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Return: 1.00%Break even: N/A
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Polyester Fiber from Corn/Starch

PLA has been utilized as biodegradable plastics for short-term use, such as rigid packaging containers, flexible packaging films, cold drink cups, cutlery, apparel and staple fibres, bottles, injection- and extrusion-moulds, coatings, and so on. All of them can be degraded under industrial compositing conditions.Polyester staple fiber is a material produced from synthetic chemical compounds with a variety of uses in the textile, automotive and furniture industries. India Polyester Staple Fibre (PSR) Market is anticipated to post robust growth by 2023, owing to the growing consumer shift towards sustainable fashion due to rising environment-consciousness. Sustainable Fashion refers to as the adoption of environment friendly fibres such as the polyester stable fibre that can act as an alternative to cotton at a much lesser price.This facilitates the development of new technologies and ensures a high quality product. Few Indian major players are as under • AppolloFibres Ltd. • Arora Fibres Ltd. • B L S Ecotech Ltd. • Futura Polyesters Ltd. • Ganesha Ecosphere Ltd. • India Polyfibres Ltd.
Plant capacity: Polyester Fiber : 80 MT/DayPlant & machinery: Rs. 11660 lakhs
Working capital: -T.C.I: Cost of Project : Rs. 15974 lakhs
Return: 14.00%Break even: 54.00%
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Biodegradable Plastic Bags from Corn Starch

Biodegradable shopping bags are made of polymers that degrade, or decompose, when exposed to air, water, or sunlight. Biodegradable packaging provides natural and easily degradable protection when used mainly for the presentation and packaging of the products from the moment the production process begins until the product is administered or consumed. Biodegradable Plastics Market by Type (PLA, PHA, PBS, Starch-Based Plastics, Regenerated Cellulose, PCL), by Application (Packaging, Fibers, Agriculture, Injection Molding, and Others) - Global Trends & Forecasts to 2020 says biodegradable plastics market is projected to be worth more than USD 3.4 billion by 2020 growing at around 10% CAGR. Thus, due to demand it is best to invest in this project. Few Indian major players are as under • Arihant Industries Ltd. • Baroda Polyplast Ltd. • Jain Plastics & Chemicals Ltd. • Karwa Consolidated Mktg. Ltd. • Paradise Plastics Enterprise Ltd. • Shakun Polymers Ltd.
Plant capacity: Biodegradable Plastic Bags (Per Bag 25 gms Size): 360 MT/AnnumPlant & machinery: 298 lakhs
Working capital: -T.C.I: Cost of Project: Rs 606 lakhs
Return: 25.00%Break even: 61.00%
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Bio-Degradable Plates From Areca Nuts Tree Leaf, Barks and Bamboo

Areca Leaf Plates are made from areca leaf, which are eco friendly and sanitized, Manufacturing in high Quality in various standard designs in products range and can be exclusive designs based on the customer reference of shapes and sizes. The areca palm tree leaves are fresh in nature, thick, which is non-toxic, free from any chemicals and pest. The global disposable plates the market is expected to reach a value exceeding US$ 117 Billion by 2023, exhibiting a CAGR of more than 2% during 2018-2023. Disposable Plates Market is projected to grow at a CAGR of 5.9% during The Forecast Period 2017–2027. As a whole any entrepreneur can venture in this project without risk and earn profit.
Plant capacity: Bio-Degradable Areca Leaf/Barks/- Bamboo Plates (Size 10"/12"): 1600 Pkts/Day Bio-Degradable Areca Leaf/Barks/- Bamboo Plates (Size 6"): 1600 Pkts/DayPlant & machinery: 206 lakhs
Working capital: -T.C.I: Cost of Project: Rs 1049 lakhs
Return: 21.00%Break even: 48.00%
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Gasket Shellac Compound

Gasket Shellac is a slow-drying, hard setting liquid design to coat, seal and repair most gaskets. Use it to seal metal gaskets and threaded connections. seals metal gasket and threaded connection for light duty service. It is dark brown viscous liquid which characteristics alcoholic odour. Heat and pressure tested heavy bodied adhesive unaffected by petrol, oil, grease and water. Features: • Easy to maintain • Easy to install • Durable • Long lasting • Unmatched quality • Free from defects
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Return: 1.00%Break even: N/A
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Biodegradable Disposable Cups and Plates Using Sugarcane Bagasse

Sugarcane bagasse products are perfect solution for biodegradable food packaging which are environment friendly. These eco-friendly food containers are very easy for food takeaways which why is they are called as green food packaging or biodegradable disposable takeaways. These no plastic food containers not help nature but also our health too. The packaging industry in India is expected to reachUS$73 billion in 2020 from US$32 billion in FY15growing at a CAGR of 18%. Around US$ 3.6 Bn is the global disposable plates and cups market standing in 2017 and it is estimated to reach an evaluation of about US$ 6.4 Bn by 2027. This facilitates the development of new technologies and ensures a high quality product.
Plant capacity: 2800 Kgs/DayPlant & machinery: Rs 940 lakhs
Working capital: -T.C.I: Cost of Project: Rs 1369 lakhs
Return: 26.00%Break even: 44.00%
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Biodegradable Plates Production from Areca Nuts Tree Leaf, Barks and Bamboo

Biodegradable Plates Production from Areca Nuts Tree Leaf, Barks and Bamboo. Eco-Friendly Disposable Areca Leaf Plates Manufacturing Business Areca nuts tree leaf plate is made of completely organic material, which is a fallen leaf collected from areca palm trees. Palm Leaf plates are made by Mother Nature from the naturally fallen Areca Palm tree leaves found in India. The leaf or Sheath is collected for the tableware. Areca Leaf plates are commonly known as Areca Plate / Areca Palm Leaf Plates / Palm Leaf Plates / Bio Plate / Natural plates, Disposable Plates / Eco friendly Bio-Degradable Dinner Plates / Kitchenware / Dinnerware. Features: • Unique • Variegated sizes • Intricate designs Currently no other alternative product in the world can match the unique properties of areca palm leaf plates present in nature. • Hygienic & Odourless • Do not alter taste of the food on the plate • Freezer, Microwave & Oven Safe • Leak Proof • The strongest and most heat tolerant disposable plate • Economical & Commercially Viable • Biodegradable, Compostable & Sustainable • 100% Natural, Non-Toxic & Organic • Naturally biodegrade within 6-8 weeks • After use, it can be utilized as cow fodder Areca leaf plates are made from the naturally shed leaf sheaths of Areca Nut Tree. The areca leaves are simply collected, pressure washed, scrubbed, sun dried and then with the application of heat and pressure formed into appropriate shaped plates. Plates once used can be used as a good fertilizer which enhances plants growth, a good source of organic manure. The disposable plates and bowls are an alternative to plastic and paper plates. The products are natural, compostable and biodegradable yet look stylish. The demand is high within the country too. Areca leaf plates are good replacement of thermocol plates, paper plates and plastic plates as they are eco-friendly. They are made in India and exported all over the world. So, there is a large export market for areca plates. The countries that import areca leaf plates from India are shown in the pie chart below given. Areca Leaf Plate exporters in India supply these plates which are in supreme demand owing to their low cost and solid construction on top of it environmental friendly nature. The products are made from high-quality leak proof and defect free palm sheath. The top countries that constitute to export market for areca leaf plates made in India are: • USA (36%) • Netherlands (17%) • Germany (16%) • Spain (10%) • UK (6%) Some facts on Arecanut production in India • India is leading producer of Arecanut in the world. • In India Karnataka leads other states in production, which is at whopping 47%. • Again, in Karnataka, Shimoga ranks first in area and production, 23% and 21%, respectively. • The nut derived from dried arecanut fruit is called Arecanut, Supari, Betelnut. The disposable tableware is mainly made from paper, pulp, Polyethylene terephthalate, polyethylene, Starch Blends, biodegradable CPLA, PLA and Talc, etc. including the disposable plates, disposable bowls, disposable cups and disposable silverware. The main applications of disposable tableware are household and commercial use. Commercial use is dominating the end market, occupy for about 79.6 % of market share. The Asia-Pacific will occupy for more market share in following years, especially in China, also fast growing India and Southeast Asia regions. Compostable tableware’s products are used for serving food. These products are biodegradable and release valuable nutrients into the soil, aiding the growth of trees and plants when they breakdown. Compostable plates can be placed into the compost bin after use. These products degrade within several months in an industrial composting facility and produce no toxic residues. These plates are reusable and are made up of renewable resources. These renewable sources are made from all-natural materials such as agricultural residues, palm leaves, bagasse, bamboo, and cornstarch-based PLA plastic. These eco-friendly tableware’s are sturdy enough to hold hot or cold food and easily gets biodegraded after use. Compostable plates and bowls are the perfect solutions for emerging green businesses. The growing awareness about the adverse effects of plastic such as massive plastic pollution and its grave consequences on aquatic and aerial creatures after dumping this product into the sea are the major driving factors for the growth of compostable tableware market. The increasing demand for safe, sustainable and environmental friendly cutlery owing to the rising number of fast food restaurants and cafeterias is boosting the compostable tableware market. Compostable disposables are a viable alternative that provides the convenience of disposable plates when used in catering for parties, picnics or other occasions along with an added advantage of no negative impact to the eco-system. However, the lack of awareness about the benefits of compostable tableware’s and the poor management of organic waste hampers the growth of compostable tableware market. The cost of compostable tableware is also higher as compared to the traditional disposables. Moreover, the rising enforcement of environmental laws and the growing need for better waste management is anticipated to create an opportunity for the growth of compostable tableware market. Biodegradable Food Service Disposables Market The global market for foodservice disposables is anticipated to see a steady growth between 2017 and 2021. By the end of 2021, the global foodservice disposables market is estimated to bring in US$ 27,187 Million revenue. Increasing number of restaurants are using disposable plates, cups, trays, bowls, etc., to serve various food items. Majority of the restaurants have started providing catering services, hence the use of foodservice disposables have also increased. Manufacturers are also providing customized foodservice disposables as per the requirement of restaurants. Moreover, increasing number of customers have started using catering services provided by restaurants, especially during celebrations. Meanwhile, in the recent years, retail stores and hospitality industry have also started using foodservice disposables to provide various food products. A rise in the number of restaurants in developing countries and popularity of takeaway meals is fueling the growth of foodservice disposables in Asia Pacific region. Moreover, continuous urbanization, sedentary lifestyles and on-the-go food culture are expected to further propel the growth of the market in the short and medium terms. Easy availability of raw materials used in the manufacturing of biodegradable food service disposables is another factor which will provide the manufacturers with ease of production, thereby increasing the availability of these products in the market. Increasing environmental concerns due to the rising usage and disposal of paper disposables have created strong potential for the biodegradable food service disposables market to grow in the coming years. Plastic ban in several countries and rising consumer awareness about the environmental impact posed by plastic and paper disposables have resulted into increased preference for completely biodegradable alternatives. The global food service disposable market is very competitive and encompasses some of the top players such as; • New Wincup holdings Inc, • Pactiv llc, • Anchor packaging Inc, • Dart Container Corporation • Gold Plast Spa • Georgia Pacific LLC • MDS Associates, Inc. • Biopac India Corporation Ltd. • H.T. Berry Company, Inc. • Sysco Corporation Tags #Biodegradable_Plates, #Eco_Friendly_Disposable_Plates, Eco-Friendly Dinnerware Biodegradable Compostable Disposable, #Compostable_Plates, Biodegradable Plates Manufacture, Biodegradable Plates Making Unit, Biodegradable Disposable Plates, #Areca_Leaf_Plates, Betel Nut Palm Leaf, Arecanut Leaf Plates Manufacturing, Areca Leaf, Palm Leaf Plates, Eco Friendly Leaf Plates, Areca Leaf Plates Business, Eco-Friendly Biodegradable Disposable Dinnerware, How are Areca Leaf Plates Made? Making of Arecanut Leaf Plates, #Arecanut_Leaf_Plate_Manufacturing_Business, Project Report for Areca Leaf Plate Making, #Ecofriendly_Disposable_Dinnerware, Areca Palm Leaf Plates, Betel Leaf Plate Making, #Leaf_Plate_Making_Business, Arecanut Palm Leaf Plates Manufacturing Business, Areca Leaf Plates Making Business, Arecanut Leaf Plates Manufacture in India, Areca Nut Leaf Plate Manufacturing in India, Manufacture of Areca Plates, How to Start a Disposable Plates Business, Bio-Degradable Plates from Areca Nuts Tree Leaf, Barks and Bamboo, Production of Areca Palm Plates, #Biodegradable_and_Compostable_Disposable_Plates, Project Report for Areca Leaf Plate Making Business, Biodegradable Disposable Plate Manufacture, Recyclable and Compostable Disposables Plates, Single-Use Disposable Foodservice Products, Foodservice Cup, Biodegradable and Compostable Alternatives to Conventional Plastics, Foodservice Single-Use Products, Foodservice Products, Project Report on Biodegradable Plates Manufacturing Business Industry, #Detailed_Project_Report_on_Biodegradable_Plates_Manufacturing_Business, Project Report on Biodegradable Plates Manufacturing Business, Pre-Investment Feasibility Study on Biodegradable Plates Manufacturing Business, Techno-Economic feasibility study on Biodegradable Plates Manufacturing Business, Feasibility report on Biodegradable Plates Manufacturing Business, Free Project Profile on Biodegradable Plates Manufacturing Business, #Project_profile_on_Biodegradable_Plates_Manufacturing_Business, Download free project profile on Biodegradable Plates Manufacturing Business, Biodegradable Plates Manufacturing Business
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Return: 1.00%Break even: N/A
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Biodegradable Diapers and Sanitary Napkins Production

Biodegradable Diapers and Sanitary Napkins Production. Compostable and Eco-Friendly Disposable Diapers and Sanitary Pads Manufacturing Business Biodegradable Diaper Diaper is an absorbent item used by babies or adults to defecate and urinate without going to the toilet. They are made from either non-biodegradable petrochemical based materials and plastics or from biodegradable fibers such as cotton, bamboo, starch, etc. Many baby diapers are not biodegradable and could take hundreds of years to degrade. While it’s unknown how many years biodegradable materials take to decompose, to serve more environmentally-conscious consumers, there is a growing trend to produce biodegradable baby diapers. Most of the baby diapers used today are not eco-friendly or biodegradable. In fact, disposable baby diaper takes centuries to decompose fully. In the US people throw around 49 Mn diapers per day and making it a third largest source of household garbage. However, baby diapers are one of the largest contributors to landfills and can harm animals, humans, as well as the environment. Thus, nowadays, consumers are demanding for eco-friendly baby diapers to prevent baby from rashes, keep them dry as well as reduce landfills. Moreover, various manufacturers are inclining towards the development of innovative solutions such as biodegradable baby diapers with non-chlorine, latex, and dye-free materials to meet growing consumers demand for environmentally friendly baby diapers. Manufacturers are also introducing biodegradable baby diapers made of cornstarch material instead of plastic and without bleaching with chlorine that emits toxins into the water and air. Consumers are seeking for environmentally friendly diapering options such as gDiapers, developing innovative technologies such as nanotechnologies that can minimize the environmental impact of disposable baby diapers, and increasing birth rate in developing countries are the factors influencing the growth of the biodegradable baby diapers market in the near future. Biodegradable Sanitary Napkins Menstrual hygiene is a subject matter of deep concern in India where women, especially in rural areas face challenges in acquiring hygienic absorbents and develop health risks. Over the years, there has been a significant rise in the awareness levels regarding the benefits offered by biodegradable sanitary napkins. They are environmentally sustainable which can easily be disposed of in natural soil. Moreover, it reduces the chances of infection and skin irritation and they are cost effective as well. On the other hand, non-compostable napkins use chemicals like dioxins, furans, chlorines and fragrances which causes health issues and cannot be recycled and takes hundreds of years to degrade. Market Outlook The global biodegradable diapers market is expected to grow at a CAGR of 10.3% during 2019-2024. Rising environment concerns represents a key factor driving the demand of diapers. Unlike biodegradable diapers, traditional diapers do not degrade well in a landfill. Moreover, they can take around hundreds of years to decompose. The huge amount of untreated waste added to the landfills every year through plastic diapers can also pollute the ground water. Additionally, disposable diapers also consist of several chemicals that can have a negative impact on health. These include dioxins, sodium polyacrylate, tributyl-tin, volatile organic compounds, dyes, fragrances, etc. These chemicals may cause itching and various health problems such as damaged immunity, hormone interferences, cancer, respiratory problems etc. Rising awareness on the negative impact of these chemicals is also driving consumers to shift towards biodegradable diapers which are made up of natural materials. Some of the other major factors driving the market include increasing awareness about personal hygiene, decreasing mortality rate among infants, rising demand for adult diapers, increasing government initiatives, etc. Companies are developing some eco-friendly and chlorine free diaper solutions, growing hygiene concern among consumers attributed to an increase in demand for biodegradable baby diapers during the forecast period. Moreover, various manufacturers are developing hybrid baby diapers by combining both cloth and eco-friendly disposable components, the rise in environmentally-conscious consumers, and growing product premiumization trend is expected to increase the biodegradable baby diapers market during the forecast period. Many companies are also focused on developing innovative cloth and reusable diapers to reduce disposable diaper waste. Moreover, development of ultra-absorbent core technology that enables the production of thinner biodegradable baby diapers and steady growth in online sales channel for distributing product direct to customers is the primary factor accelerating the growth of the biodegradable baby diapers market. However, in the foreseeable future, the biodegradable diapers segment is estimated to become more popular and witness a significant growth. The can be attributed to the less barrier entry faced with regulatory issues and environmental needs. Based on the absorption type, the high absorption diaper segment is expected to hold the major market share over the projection period. Moving forward, the rise of e-commerce has made a huge impact in the global baby diaper market. This is evident from the surge of online purchasing consumer base for baby diapers. E-commerce provides consumers with the benefits of convenience to online delivery, price comparison, and subscription services. Some of the other major factors driving the market include increasing awareness about personal hygiene, decreasing mortality rate among infants, rising demand for adult diapers, increasing government initiatives, etc. Some of the key players operating in the global biodegradable baby diapers market are GroVia, Naty AB, Hengan International Group Company Limited, Seventh Generation, Inc., The Honest Company, The Hain Celestial Group, Inc., Kimberly-Clark Corporation, Kao Corporation, Bumkins Company, The Procter & Gamble Company, Svenska Cellulosa AB, Ontex Group, Unicharm Corporation, and others. GroVia provides one of the best environmentally-friendly hybrid biodegradable baby diapers solution that contains both cloth absorbency and a waterproof layer made from biodegradable and compostable materials. Current Scenario of the Disposal of Sanitary Napkins Usually, sanitary napkins are wrapped in plastic or paper and thrown along with the domestic waste. Some flush them down not realizing that it will ultimately block the sewer. Around 432 million pads/sanitary napkins are generated in India annually, weighing around 9000 tonnes. They can cover landfills spread over 24 hectares. The burning of sanitary napkins produces toxic fumes that contain dioxins and furan. These disposed menstrual products pose a threat to the health of the waste-pickers when they come in their contact to segregate them. The unhygienic and reckless means of disposing the used sanitary napkins adversely affect the environment. The heaps of soiled waste in the landfills contaminate the soil, air and water. The lack of standardized methods of sustainable sanitary waste disposal has paved the way for them to become a breeding ground for infections and diseases in India. Government launches Biodegradable Sanitary Napkins Launched by the Government of India on March 8, 2018, ‘Suvidha’ pads are oxo-biodegradable and will be made available in packs of 4, priced at Rs. 2.50 per pad. They will be found across 586 Indian districts, at Pradhan Mantri Bhartiya Janaushadhi centres. ‘Suvidha’ pads will be available by May 28, 2018, which is also World Menstrual Hygiene Day. These affordable sanitary pads promise to promote hygiene, ensure the ease of disposal, and keep the environment clean. These sanitary pads consist of pine wood paper, silicon paper, butter paper, non-woven paper and cotton. They are UV light radiated which helps kills germs. SUVIDHA napkin has special additive added in it, which makes it biodegradable when it reacts with oxygen after it is used and discarded. It will go long way in making basic hygiene requirement aid for women affordable especially for the underprivileged sections. The initiative will make the basic hygiene requirement aid affordable for the underprivileged women. Tags #Biodegradable_Diapers, #Eco_Friendly_Disposable_Diaper, Bio-Degradable Sanitary Pads, #Eco_Friendly_Sanitary_Napkin, Eco-Friendly Sanitary Napkins in India, Compostable Sanitary Pads, Biodegradable Diaper, Biodegradable Disposable Diapers, #Biodegradable_Diapers_(Eco_Friendly_&_Disposable), Biodegradable Nappy Pads, #Environmentally_Friendly_Sanitary_Napkins, Biodegradable & Organic Sanitary Pads in India, Eco-Friendly Sanitary Pads, Biodegradable Sanitary Napkins By Government, #Biodegradable_Sanitary_Pads, Biodegradable Sanitary Napkins Manufacturing Process, 100% Biodegradable Sanitary Napkins 'Suvidha', Sanitary Napkins, Indian Biodegradable Sanitary Napkin, Biodegradable Anti-Bacterial Sanitary Napkins, Full Biodegradable Sanitary Pads, Disposable Diapers, #Compostable_Diapers, Sanitary Napkins Manufacture, #Making_your_own_Eco_Friendly_Sanitary_Pads, Women Manufacturing Biodegradable Sanitary Pads, How to Make Biodegradable Sanitary Pads, 100% Biodegradable Sanitary Pads, #Sanitary_Napkins_'Suvidha', Set up a Bio-Degradable Pad Factory, Sanitary Napkin Manufacturing, Sanitary Napkin Production Unit, Biodegradable Sanitary Napkin Unit, Manufacturing Unit for Sanitary Napkin, Project Report on Sanitary Napkins (Biodegradable), How Disposable Diaper is Made, Biodegradable Diapers Manufacturing, Raw Material for Diaper Manufacturing, Diaper Production Cost, Diaper Manufacturing Process Pdf, Eco-Friendly Baby Diaper Production, Sanitary Napkins Manufacture, How to Make Biodegradable Sanitary Pads, Biodegradable Sanitary Pad Project, Low Cost Sanitary Napkin Making, Sanitary Napkin Manufacturing Project, Starting a Diaper Manufacturing, Disposable Baby Diaper Manufacturing Project, Disposable Baby Diaper Manufacturing Project, Project Report on Biodegradable Diaper and Sanitary Napkins Manufacturing Industry, Detailed Project Report on Biodegradable Diapers Manufacturing, #Project_Report_on_Biodegradable_Diaper_and_Sanitary_Napkins_Manufacturing, Pre-Investment Feasibility Study on Biodegradable Diaper and Sanitary Napkins Manufacturing, Techno-Economic feasibility study on Biodegradable Sanitary Napkins Manufacturing, Feasibility report on Biodegradable Diapers Manufacturing, Free Project Profile on Biodegradable Sanitary Napkins Manufacturing, Project profile on Biodegradable Sanitary Napkins Manufacturing, Download free project profile on Biodegradable Diapers Manufacturing, Biodegradable Diaper and Sanitary Napkins Manufacturing Business
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Return: 1.00%Break even: N/A
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Polylactic Acid (PLA) from Lactic Acid

Poly-lactic acid (PLA) is a rigid thermoplastic polymer that can be semi-crystalline or totally amorphous, depending on the stereo-purity of the polymer backbone. PLA is a unique polymer that in many ways behaves like PET, but also performs a lot like polypropylene (PP), a polyolefin. PLA is used broadly in textile applications for several reasons. Polyesters currently used for apparel and related fiber applications. The global polylactic acid (PLA) market was valued around US$ 2.23 Bn in 2017 and is anticipated to expand at a stable CAGR above 20.5% during the forecast period 2018 to 2026. The polylactic acid market is projected to reach USD 5.16 Billion by 2020, growing at a CAGR of 20.9% during the forecast period. This facilitates the development of new technologies and ensures a high quality product. Few Indian major players are as under • Astra Specialty Compounds India Pvt. Ltd. • Crest Composites & Plastics Pvt. Ltd. • Malladi Specialities Ltd. • Neelam Aqua & Speciality Chem Pvt. Ltd. • Network Polymers Pvt. Ltd. • Reichhold India Pvt. Ltd.
Plant capacity: 100 MT/DayPlant & machinery: Rs 260 Crore
Working capital: -T.C.I: Cost of Project: Rs 452 Crore
Return: 27.00%Break even: 29.00%
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