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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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Citric Acid Monohydrate Manufacturing Business

Citric Acid Monohydrate Manufacturing Business. Business Opportunities in Chemical Industry Citric acid is a weak organic acid with the formula C6H8O7. It is a natural preservative/conservative and is also used to add an acidic or sour taste to foods and drinks. In biochemistry, the conjugate base of citric acid, citrate, is important as an intermediate in the citric acid cycle, which occurs in the metabolism of all aerobic organisms. It consists of 3 carboxyl (R-COOH) groups. Citric acid is a commodity chemical, and more than a million tonnes are produced every year by fermentation. It is used mainly as an acidifier, as a flavoring, and as a chelating agent. Citric Acid is used in Food, Beverages, Flavor enhancer, Coloring. Citric Acid is used in Preservative, Detergents, Cleaners, Pharmaceuticals, Cosmetic. Citric Acid is used in Industrial and Chemical processing. Citric Acid is used in fluxes for galvanizing, soldering & tinning. Citric Acid Monohydrate is a tricarboxylic acid found in citrus fruits. Citric acid is used as an excipient in pharmaceutical preparations due to its antioxidant properties. It maintains stability of active ingredients and is used as a preservative. It is also used as an acidulant to control pH and acts as an anticoagulant by chelating calcium in blood. Application Citric acid monohydrate was used in the preparation of citric acid solution employed in the acetone method of 68Ga pre-purification and radiolabeling technique. It may be used: • As release-modifying agent to improve the release of diltiazem hydrochloride from melt extruded Eudragit RS PO tablets. • To prepare citrate buffer for use in the preparation of platelets for intravital microscopy. • To prepare Tris-citrate buffer employed for the electrophoresis of bacterial enzymes. Market Outlook The global citric acid market exceeded the volume of 2 Million Tons in 2018. The market is further projected to reach a volume of nearly 3 Million Tons by 2024, growing at a CAGR of 4% during 2019-2024. Due to its various advantageous properties, citric acid is widely used as an additive in food and beverages, personal care products, cleaners and detergents, adhesives and sealants, coatings, inks, plastics and polymers, pharmaceutical products and clinical nutrition, feed and pet food items. The rising demand for citric acid from the food and beverage industry as a food additive is set to remain the key driving factor for the growth of the global citric acid market during the forecast period. The significant demand for carbonated soft drinks and convenience and ready-to-eat products due to the growing urban population and changing consumer trends are contributing in a large way to the demand for citric acid in the food and beverage industry. Increasing industrial preferences for additives derived from natural sources over their synthetic counterparts are likely to contribute to product demand in the food and beverage, cosmetics, and pharmaceuticals industries. For instance, there is a growing demand for citric acid in the detergents and cleaners segment due to its non-toxic, non-corrosive, and biodegradable characteristics. The segment is expected to showcase substantial growth during the forecast period. High demand for the product to preserve food is expected to be a key driver for the industry growth. In addition, the growing demand for the compound in pharmaceutical industry for the manufacturing of digestive medicines is expected to positively drive the market over the forecast period. Citric acid helps manufacturers in offering a clean label to their products, and satisfying consumer demand for safe and permitted ingredients within their budget. However, manufacturers face intense competition from inter- and intra-industry peers in sourcing raw material, ultimately restraining the market growth to a significant extent. Citric acid is also used in the production of detergents and cleaners. Various environmental norms have resulted in the replacement of phosphate builders with citric acid in many formulations. Unlike phosphates, citric acid does not contribute to the eutrophication of water bodies and is desirable from an environmental perspective. Moreover, availability in abundance, low price, and large-scale applications boost the growth of the market. Molasses, waste feedstock and fruit peel, the raw materials used for the production of citric acid is cheap and is its availability is practically unlimited. However, the threat from lactic acid as a substitute to citric acid is likely to restrain the growth of the growth of the global citric acid market over the forecast period. The significant demand for carbonated soft drinks and convenience and ready-to-eat products due to the growing urban population and changing consumer trends are contributing in a large way to the demand for citric acid in the food and beverage industry. Increasing industrial preferences for additives derived from natural sources over their synthetic counterparts are likely to contribute to product demand in the food and beverage, cosmetics, and pharmaceuticals industries. For instance, there is a growing demand for citric acid in the detergents and cleaners segment due to its non-toxic, non-corrosive, and biodegradable characteristics. The segment is expected to showcase substantial growth during the forecast period. Citric acid is also used in dairy products, jellies, jams, and cake fillings to embed a tart-like flavor and to increase the shelf life. The global citric acid market analysis showed that growth in sales of detergents and household cleaning products is also contributing significantly to the sales of the chemical. Changing lifestyle and consumer inclination for easy-to-handle sophisticated products is, in turn, propelling the global citric acid market growth. The prominent manufacturers in the global citric acid market are Archer Daniels Midland Company (U.S.), Cargill, Incorporated (U.S.), Merck KGaA (Germany), Tate & Lyle (UK), COFCO Biochemical (Anhui) CO., LTD (China), Jungbunzlauer Suisse AG (Switzerland), HUANGSHI XINGHUA BIOCHEMICAL CO.LTD. (China), RZBC GROUP CO., LTD. (China), Weifang Ensign Industry Co., Ltd (China), Gadot Biochemicals Industries LTD. (Israel), S.A. Citrique Belge N.V. (Belgium), and Pfizer Inc. (U.S.). Tags #Citric_Acid_Monohydrate, #Industrial_Production_of_Citric_Acid, #Production_of_Citric_Acid, Citric Acid Production, #Commercial_Production_of_Citric_Acid, Process for Preparation of Citric Acid Monohydrate, #Process_for_Manufacture_of_Citric_Acid_Monohydrate, Citric Acid Production and Application, Citric Acid Monohydrate Making Business, Industrial Uses of Citric Acids, Citric Acid Production Flow Chart, #Citric_Acid_Monohydrate_Manufacture, Citric Acid Production Process, Citric Acid Industry, #Citric_Acid_Monohydrate_Manufacturing_Process, Citric Acid Manufacturing Process, Manufacturing of Citric Acid, Citric Acid Manufacturing Plant, #Citric_Acid_Monohydrate_Manufacturing_Process, Citric Acid Monohydrate Manufacturing, Manufacture of Citric Acid Monohydrate, #Detailed_Project_Report_on_Citric_Acid_Monohydrate_Manufacturing, Project Report on Citric Acid Monohydrate Manufacturing, Pre-Investment Feasibility Study on Citric Acid Production, Techno-Economic feasibility study on Citric Acid Production, #Feasibility_report_on_Citric_Acid_Monohydrate_Manufacturing, Free Project Profile on Citric Acid Production Business, Project profile on Citric Acid Monohydrate Manufacturing, Download free project profile on Citric Acid Monohydrate Manufacturing
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Bio-Plastic Bags and Containers from Corn Starch

Biodegradable plastics are mainly derived from corn, wheat and potato starch. Biodegradable plastics products are thermoplastic materials which are processed with the same machines traditionally used to process conventional plastics. Biodegradable plastic products physical and chemical properties are similar to those of traditional plastics, but it is completely biodegradable in different environments, just like pure cellulose. The demand for bio-plastics, both biodegradable and non-biodegradable, makes it one of the fastest growing thermoplastic product types globally. Global demand is expected to reach over one billion pounds by 2012. Currently, the biodegradable segment of bioplastics is the largest segment of the bioplastics category, but it is projected to be displaced by the nonbiodegradable bioplastics group of products, which may or may not be 100% derived from biomass. Bioplastic products are generally a degradable plastic in which the degradation results from the action of naturally-occurring micro-organisms such as bacteria, fungi, and algae. A biodegradable plastic product is made from normal polymer; the same used in making plastic products but at the same time it also contains newly invented biodegradable plastic additives. With increasing concerns over the use of plastics, sustainable alternatives to plastics are increasingly in demand. Biopolymers in general and bioplastics in particular, present one such sustainable alternative. Products and solutions based on bioplastics/biopolymers present exciting opportunities globally, and in India. Opportunities are present across a variety of industrial sectors that include packaging, water, beverages, insulation materials, specialty materials and more. The bioplastic containers market in India is projected to grow at a compound annual growth rate (CAGR) of 44.8% between 2009 and 2015. Although the Indian market is beset with challenges such as low awareness that are typical of emerging markets, these hindrances can be overcome by concerted efforts at promoting the long-term environmental benefits of using bioplastic. The biodegradable plastics containers market is expected to grow from USD 3.02 billion in 2018 to reach USD 6.12 billion by 2023, at a CAGR of 15.1% between 2018 and 2023. On the other hand, the global market, distribution channels and other government departments and various forces are actively promoting this new technology. In the next two to three years, the market demand for biodegradable plastic will gradually become stronger. Entrepreneurs who invest in this project will be successful. 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: Bio Plastic Bags (Per Bag 25 gms Size):360,000 Kgs per annum Bio Plastic Containers (Per Containers 28 gms Size):640,000 Kgs per annumPlant & machinery: 546 Lakhs
Working capital: -T.C.I: Cost of Project:2546 Lakhs
Return: 33.00%Break even: 88.00%
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Biodegradable Disposable Plastic Cutlery

Biodegradable Disposable Plastic Cutlery. (Eco Friendly Compostable Spoons Cutlery) India is slowly becoming a country where people are turning health conscious. Thankfully, biodegradable cutlery has emerged as a better alternative to plastics across the globe and Indians have been early adopters of biodegradable products. These Cutlery is fully compostable and biodegradable in approximately 100 days in properly maintained compost facilities. These eco-friendly products are perfect for restaurants, cafeterias, business functions, trade shows, festivals and fairs, catering. Compostable or biodegradable bio-plastics, most commonly used for utensils, are marketed as a sustainable alternative to single-use plastic. More and more people are becoming environmentally conscious every day and are taking the necessary steps to protect the environment. Businesses that embrace the concept of being eco-friendly can realize a wide range of benefits from doing so. One of the business industries in which compostable products can be used the most is in the food industry. Both dine-in and takeout restaurants have the opportunity to incorporate eco-friendly products into their operations in the form of plates and cutlery. The Global Biodegradable Cutlery Market sales were 845 million pieces in 2016, and it will be 1274 million pieces in 2023; while the revenue of Biodegradable Cutlery Market was 30.5 million USD in 2016 and forecast to accomplish 38.9 million USD in 2023, with a CAGR of 5.5% by 2023. Increasing awareness regarding harmful effects associated with non-biodegradable plastic wastes is a key factor likely to drive the market in the forecast period. Disposable cutlery, unlike the traditional disposable cutlery made from steel, is single-use cutlery. It is also comparatively cheaper than steel cutlery. Additionally, due to its lightweight it can be carried easily and is most favourable for on-the-go food. The increasing use of plastic in our day-to-day life is creating a lot of plastic waste and regulatory authorities in various parts of the world are posing bans on the use of plastic. To overcome this challenge, foodservice packaging manufacturers use plant-based raw materials for manufacturing single-use packaging like disposable cutlery, plates, bowls, and trays. Expansion in bio-based foodservice manufacturing capabilities may benefit disposable cutlery manufacturers during the forecast period. Furthermore, in recent years several manufacturers are looking for positive opportunities in edible disposable cutlery made of wheat bran, rice, corn, and sorghum. Additionally, edible disposable cutlery reduces CO2 emissions by tons. As per product type, the global disposable cutlery market is segmented into fork, spoon, and knife. Rising demand for eco-friendly, safe, and sustainable cutlery owing to increasing number of restaurants, fast food joints, and cafeterias is fueling the demand for biodegradable plates and cups. Environment friendly cutleries are a feasible alternative that offers the convenience of disposable plates, cups, and spoon in picnics, parties, and other occasions. Moreover, they do not have any negative impact on the environment. The Biodegradable Cutlery Market is segmented based on raw materials, products, composition and end user. The biodegradable cutlery is mainly made from PLA resin, CPLA (modified PLA), and Starch Blends. In general, the plant starch biodegradable cutlery is made from 70% renewable resources and 30% fillers like polypropylene and talc. PLA is a bio-based plastic derived from renewable resources such as maize starch, tapioca roots, or sugar cane. 100% cutlery is made from recode bio-plastic, produced from a rapidly renewable starch sourced from non-GMO crops. Growth will be driven by the increased options and convenience of meals prepared or consumed away from home. Demand will also be supported by a shift toward the use of higher value products featuring durable plastic or compostable materials. The Biodegradable Cutlery Market is dominated by the key players like Biopak, Eco-Products, Inc, Trellis Earth, BioMass Packaging, World Centric, Bionatic GmbH, GreenGood, Better Earth, Nature House Green, BioGreenChoice, Green Home, Vegware, Biodegradable Food Service, Biogreenchoice, Green good, World Centric, Karat and Green Home. Tags #Biodegradable_Spoon, #Disposable_Plastic_Cutlery, Biodegradable, Compostable and Renewable Disposable Plastic, #100%_Compostable_Spoons, Biodegradable Spoons, Plastic Cutlery, Disposable Plastic Cutlery, Biodegradable Cutlery, #Biodegradable_Plastic_Cutlery, Biodegradable Disposable Plastic Cutlery, Biodegradable Disposable Cutlery Manufacture, Biodegradable Cutlery Manufacture, Disposable Biodegradable Plastic Cutlery, Eco Friendly and 100% Compostable Spoons, Eco Friendly Cornstarch 100 Biodegradable Disposable Plastic Cutlery, Biodegradable Disposable Eco-Friendly Cutlery, #Compostable_Cutlery, Disposable Eco-Friendly Plastic Cutlery, Disposable Cutlery, Eco Friendly Biodegradable Cutlery, Eco Friendly Compostable Spoons Cutlery, #100%_Compostable_Spoons, Compostable Biodegradable Spoons, Cutlery Utensils, How Compostable Utensils are Made, 100% Disposable & Eco Friendly Cutlery Items, Eco-Friendly Utensils, Disposable Utensils, Eco-Friendly Cutlery, Compostable & Biodegradable Cutlery, Environmentally Friendly Cutlery, #Compostable_Cutlery_Manufacturing, Environmentally Friendly Cutlery, #Detailed_Project_Report_on_Disposable_Biodegradable_Plastic_Cutlery, Project Report on Biodegradable Spoon, Pre-Investment Feasibility Study on Disposable Biodegradable Plastic Cutlery, Techno-Economic feasibility study on Compostable Cutlery Manufacturing, #Feasibility_report_on_Compostable_Cutlery_Manufacturing, Free Project Profile on Disposable Biodegradable Plastic Cutlery, Project profile on Compostable Biodegradable Spoons, Download free project profile on Biodegradable Spoon, Compostable Food Service Ware, Compostable Products, Disposable and Compostable Spoon, #Manufacturing_of_Biodegradable_Plastics_Cutlery
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Biodegradable Plastic Pellets • Corn Starch Thermoplastic & Polyvinyl Alcohol •PBAT & Corn Starch Thermoplastic •PLA + PBAT + Corn Starch Thermoplastic •PLA + PBAT + CaCO3

Among the biodegradable polymers made from renewable resources, starch is probably the most renewable naturally biodegradable polymer source because it is versatile, cheap, and abundant. It shows compatibility with extrusion processes used in the manufacture of conventional films and in the presence of a plasticizer it produces a material with thermoplastic characteristics, known as thermoplastic starch (TPS). As a result, TPS is often blended with other polymers, such as poly (butylene adipate-co-terephthalate) (PBAT) and biodegradable aliphatic-aromatic copolyester, which combines biodegradability with other desirable physical properties. The massive use of synthetic plastics, in particular in the food packaging area, has a great environmental impact, and alternative more ecologic materials are being required. Poly(lactic) acid (PLA) and starch have been extensively studied as potential replacements for non-degradable petrochemical polymers on the basis of their availability, adequate food contact properties and competitive cost. Indeed, plastics represent the second most widely used material for food packaging applications, after paper and cardboard.
Plant capacity: 1,200,000 Kgs per AnnumPlant & machinery: 128 Lakh
Working capital: -T.C.I: Cost of Project:407 Lakh
Return: 29.00%Break even: 48.00%
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Biodegradable Plastic Products (Bags, Plates & Glasses)

Plastics have become an important part of modern life and are used in different sectors of applications like packaging, building materials, consumer products and much more. Biodegradable plastics are mainly derived from corn, wheat and potato starch. Biodegradable plastics products are thermoplastic materials which are processed with the same machines traditionally used to process conventional plastics. Biodegradable materials by nature rely on the role of microbial decomposition, as packaging materials can significantly reduce the amount of garbage. With good quality of products, about 41% of biodegradable packaging is used for food preservation. 90 years since the 20th century, the global production of biodegradable plastics rapid increase, of which around 60% used in the packaging industry. The domestic market for plastic is currently about 15 million tons annually, and plastic made from vegetable resin accounts for only about 10,000 tons. Experts say that a 10% share of the market is a reasonable interim goal. The global bio plastics market was 19.54 billion USD in 2016 and is estimated to reach US$ 65.58 billion in 2022 at an estimated CAGR of 22.36% for the forecasted period.
Plant capacity: Biodegradable Plastic Glasses (wt. each Glass 16 gms):100,000 Pcs. per day Biodegradable Plastic Plates (wt. each Plate 40 gms):40,000 Pcs. per day Biodegradable Plastic Bags (wt. each Bag 25 gms):32,000 Pcs. per dayPlant & machinery: 157 Lakh
Working capital: -T.C.I: Cost of Project:865 Lakh
Return: 33.00%Break even: 39.00%
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Biodegradable Plastic Pellets Manufacturing Industry

Biodegradable Plastic Pellets Manufacturing Industry. Bioplastics Production Business Biodegradable plastics are plastics that can be decomposed by the action of living organisms, usually microbes, into water, carbon dioxide, and biomass. Biodegradable plastics are commonly produced with renewable raw materials, micro-organisms, petrochemicals, or combinations of all three. But it turns out that the promise of biodegradable plastic may be too good to be true. In theory, biodegradable plastics degrade faster than regular plastics because they contain additives that attract microbes to decompose them. Bioplastics are plastic materials produced from reanewable biomass sources, such as vegetable fats and oils, corn starch, straw, woodchips, sawdust, recycled food waste, etc. Biodegradable plastics are those that can be degraded by microbial action to produce natural end products, like water and carbon dioxide, in a reasonable period of time. The time needed to decompose completely depends on the material, environmental conditions such as temperature and moisture, There are two kinds of biobased polysters: polylactide acid (PLA) and polyhydroxyalkanoate (PHA). Uses: ? Biodegradable plastics offer reduces carbon dioxide levels. ? Biodegradable plastics are broken down by naturally-occurring bacteria. Biodegradable plastics can reduce greenhouse gas emission levels. ? Biodegradable plastics do not release other dangerous items upon decomposition. ? Biodegradable plastics consume less energy during the manufacturing cycle. ? Biodegradable plastics reduce the amount of waste we produce. ? Biodegradable plastics would direct petroleum consumption to other needs. ? Biodegradable plastics can mix with traditional products. ? Biodegradable plastics require less energy during the manufacturing cycle. ? Biodegradable plastics could create new export industries. ? Biodegradable plastics create a new marketing platform. ? Biodegradable plastics can decompose quickly in specific situations. Market Outlook The global bioplastics for packaging market valuation of more than $4 billion in 2017 and is expected to reach a value of $15.6bn by the end of 2027 while experiencing a robust CAGR of 14.4% during the period 2017-2027. Gains will be driven by escalating costs for petroleum-based resins and growing initiatives that favor renewable resources. Polyester-based and polylactic acid resins will grow the fastest, while starch-based types remain the largest segment. Drivers for the Bioplastics Market Growth in India A number of key drivers are accelerating the growth of the bioplastics market globally. Many of these are relevant in the Indian context too. • Mandates & regulations • Increasing eco-awareness among consumers • Corporates becoming more focused on sustainability • Technology stabilization • Cost reduction The transition to a low-carbon and circular economy, stronger policy support for the bioeconomy, and increased consumer awareness for sustainable products and packaging are driving the expansion of the market. Expected to create huge growth opportunities for the manufacturers of biodegradable plastics in the next five years. The demand for biodegradable plastics is witnessing a significant rise from conventional end-user industries, such as packaging, agriculture, and textile. The use of biodegradable plastics, especially in the European countries, is also increasing in other niche segments, such as medical implants and drug delivery systems, etc. these factors are driving the overall market's growth. North America is expected to lead the market with the highest market value and the fastest market growth of 14.6% during the forecast period However, Asia Pacific Excluding Japan (AJEP) is also progressing and is expected to project a high CAGR during the period of assessment. With increasing concerns over the use of plastics, sustainable alternatives to plastics are increasingly in demand. Biopolymers in general and bioplastics in particular, present one such sustainable alternative. In this context, bioplastics have attained prominence as they are one of the few scalable and commercially feasible alternatives to a wide range of plastics. Products and solutions based on bioplastics/biopolymers present interesting opportunities globally. Opportunities are present across a variety of industrial sectors that include packaging, water, beverages, insulation materials, specialty materials and more. The key factor driving the bioplastics market is the need for more eco-friendly and less polluting materials. Other drivers include volatile fossil fuel prices and the need for companies to decrease their carbon footprint across their entire business value chain. The demand for bioplastics has been gradually increasing due to its renewability and availability of raw material, advanced functionality and technical properties, and the recycling options at least some of them present. Key players Tetra Pak International SA, Plastic Suppliers Inc., Kruger Inc. NatureWorks (US), Braskem (Brazil), Novamont (Italy), BASF (Germany), Total Corbion PLA (Netherlands), Biome Bioplastics (UK), Bio-On (Italy), Toray Industries (Japan), Plantic Technologies (Australia), and Mitsubishi Chemical Corporation (Japan). Tags #Biodegradable_plastic_pellets_Plant, #Biodegradable_plastic_pellets_Process, #Biodegradable_plastic_pellets, Plastic Wastes, #Waste_Plastic_Biodegradable_plastic_pellets, #Biodegradable_plastic_pellets_Pdf, #plastic_pellets_Plant_in_India, #Waste_plastic_pellets_Plant, Polyhydroxyalkanoates (PHAs) Plant Cost, Biodegradable plastic pellets Process, Biodegradable plastic pellets Plant Project Report Pdf, Waste Polylactic acid (PLA) Plant, Converting Polylactic acid (PLA) Plant, Production of Polylactic acid (PLA), Waste Polylactic acid (PLA) Conversion Technology, Waste Plastic to Polylactic acid (PLA)Plant, Polylactic acid (PLA) Waste, Recycling Plastic in India, Recycling Process turns Waste Polylactic acid (PLA), Making Polylactic acid (PLA), Projects on Small Scale Industries, Small scale industries projects ideas, Plastic Pyrolysis Plant Based Small Scale Industries Projects, Project profile on small scale industries, New project profile on Plastic Polylactic acid (PLA) Plant, Project Report on Plastic Polylactic acid (PLA) Plant, Detailed Project Report on Polylactic acid (PLA)Plant, Project Report on Bio-based plastics Plant, Pre-Investment Feasibility Study on Bio-based plastics Plant, Techno-Economic feasibility study on Bio-based plastics Plant, Feasibility report on Bio-based plastics Plant, Free Project Profile on Bio-based plastics Plant, Project profile on Bio-based plastics Plant, Download free project profile on Bio-based plastics Plant, Project report for bank loan, Project report for bank finance, Project report format for bank loan in excel, Excel Format of Project Report and CMA Data, Project Report Bank Loan Excel, Production of Bio-based plastics by Pyrolysis Process, Converting Waste Bio-based plastics Resource, Waste Plastic Bio-based plastics Production, Converting Plastic Back to Bio-based plastics, Biodegradable plastic pellets Plant in India, Biodegradable plastic pellets Plant, Biodegradable plastic pellets Manufacturing, Biodegradable plastic pellets Manufacturing Plant, Manufacture of Biodegradable plastic pellets, Biodegradable plastic pellets Manufacturing Plant Project Report, Project Report on Manufacturing Biodegradable plastic pellets, Biodegradable plastic pellets Making Business, Biodegradable plastic pellets Processing Unit, #Project_Report_on_Biodegradable_plastic_pellets_Manufacturing, #Industrial_Biodegradable_plastic_pellets_Production, #Biodegradable_plastic_pellets_Production_Plant, #Business_Opportunity_in_Biodegradable_plastic_pellets_Manufacturing, Biodegradable plastic pellets Manufacture, Biodegradable plastic pellets Plant, Start Production of Biodegradable plastic pellets, Preparation of Biodegradable plastic pellets, Biodegradable plastic pellets Making Plant, Biodegradable plastic pellets Processing
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Return: 1.00%Break even: N/A
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Production of Biodegradable plastic Products

Production of Biodegradable plastic Products. Bioplastic Products Manufacturing Business. Biodegradable Bags, plates and glasses Manufacturing Project. India is the third largest plastic consumer in the world, with a total consumption of plastics of about four million tons and a resulting waste production of about two million tons. Bioplastics are those plastic materials that are manufactured by using natural resources. There are two categories of these plastics available in the market — biodegrable bioplastics and non-biodegradable bioplastics. Demand for bioplastics is increasing since past decade due to growing awareness concerning environmental conservation, use of bio-based or natural resources for manufacturing materials and formulation of various regulations across countries for effective use of natural resources and waste management. Products and solutions based on bioplastics/biopolymers present interesting opportunities globally. Opportunities are present across a variety of industrial sectors that include packaging, water, beverages, insulation materials, specialty materials and more. Uses ? Biodegradable plastics offer reduces carbon dioxide levels. ? Biodegradable plastics can reduce greenhouse gas emission levels. ? Biodegradable plastics are broken down by naturally-occurring bacteria. ? Biodegradable plastics do not release other dangerous items upon decomposition. ? Biodegradable plastics consume less energy during the manufacturing cycle. ? Biodegradable plastics reduce the amount of waste we produce. ? Biodegradable plastics would direct petroleum consumption to other needs. Market outlook With a population of 1.252 billion, Indian economy is one of the fastest growing economies of the world and a founding member of SAARC and G4 nations. Some of the largest cities in India are Mumbai, Delhi, Bangalore, Hyderabad, Chennai, Jaipur, Ahmedabad, and Kolkata. The country have low per capita income of USD 1165 and USD 5238 in PPP terms. In emerging economies like India, such concept are new and much related to cost associated with it. The cost of biodegradable plastic are three to ten times more than production of conventional plastic which might hinder the market growth. However, technological advancement and increasing demand from different sectors such as automobiles, packaging, healthcare, retail and agriculture, will lead to robust demand in Indian biodegradable plastic industry by 2020. Various regulation laid down by government and growing concern for environment will lead to increasing demand for biodegradable plastic in coming years. The biodegradable plastic bags and sacks market have consolidated landscape owing to increasing strategic business activities. The key players operating in the biodegradable plastic bags and sacks market are trying to provide improved and versatile products. The players are focusing to offer high quality and biodegradable additives so as to gain more shares than other rivals. In addition, several players are indulging in strategic business activities such as mergers and acquisitions to improve their global presence. The increasing dependence of the medical and food industry on environmental-friendly plastic packaging is a notable factor catalyzing the market demand for biodegradable plastics bags and sacks. The global biodegradable plastics market size to reach USD 6.73 billion by 2025. The starch based segment lead the global biodegradable market. Starch based plastics are used in various applications such as packaging, consumer electronics, agriculture, automotive and textiles The Global Biodegradable Plastic market is primarily driven by a positive attitude of government towards green procurement policies and superior characteristics of biodegradable plastics. The government of different countries are initiating stringent actions for reducing the use of conventional plastics by implementing taxes on oil-based plastics and disallowing the use of conventional plastics. Rising consumer awareness about global warming and government legislation such as banned on plastic bags will increase the demand for biodegradable plastics across the globe. Plastics that decompose to carbon dioxide and water under the actions of microorganisms is known as biodegradable plastics. Packaging industry is leading segment in application of biodegradable plastics. Increasing demand of biodegradable plastics as major packaging applications in food & beverage, textiles, pharmaceuticals and consumer goods is augmented to market growth over the forecasted period. Changing lifestyle of consumer along with increase in packaged food products demand in developed regions are boosting the demand for biodegradable plastics in packaging industries. Rising awareness among farmers to build green houses for production of fruits and vegetables has boosted the biodegradable plastics in agriculture application. Growing electronic, medical and automobile industry has also boosted the demand of biodegradable plastics market. Biodegradable plastics are a billion dollar growing industry that is pushed by the increased regulations and bans against plastic bags, plates , glasses and other single-use plastic items. The demand for biodegradable plastics worldwide is growing as more people become concerned about plastic waste. Consumer awareness of sustainable plastic solutions, government interest in the reduction of greenhouse gas emissions, and a pervasive, general desire to eliminate fossil fuel independence are the reasons for the market growth. Western Europe combines all of these factors and implements biodegradable plastics even in household and business products, such as foam packaging, mulch films, textiles, implants and sutures, down whole tools for oil and gas field operations, 3-D printing filament, etc. Biodegradable plastics is widely used in the packaging & bags industry. It is expected to be the fastest-growing end-use industry segment of the biodegradable plastics market between 2018 and 2023. Key player Biopac, Natureworks LLC, Stora Enso, Clearwater Paper Corporation, Novamont S.P.A, Georgia-Pacific LLC, Rocktenn, Mondi Group, Smurfit Kappa Group, Kruger Inc. and BASF SE. Metabolix, BASF, Corbion NV, Natureworks, Biome Technologies, Mitsubishi Chemical, Plantic Technologies, Bio-On, Meredian, Tianan Biologic Materials, Mitsui Chemicals, Teijin, Tianjin Guoyun Biological Materials, Toray Tags #Corn_Starch_Bag, #Biodegradable_Packaging, #Biodegradable_&_Compostable_Packaging, #Biodegradable_Plastic_Bags_from_Corn, #Biodegradable_Plastic_Bags, #Corn_Starch_Bag_Making, #Production_of_Cornstarch_Bag, #Biodegradable_Corn Starch_Bag_Manufacture, #Biodegradable_Corn_Starch_Bag_Production, #Corn_Starch_Packaging, #Corn_Starch_Bag_Manufacture, How_to_Make_Corn_Starch_Bags, Corn_Starch_Bag_Making_Unit, Corn Starch Bags Manufacturing Process, Biodegradable Eco-Friendly Disposable Bags, Biodegradable Plastic Bag, Biodegradable Disposable Bags, Compostable Plastic Shopping Bag, Biodegradable and Compostable Alternatives to Conventional Plastics, Compostable Bag Made of Corn Starch, Starch Bags: an Alternative to Plastic Ones, Corn Starch Bags, Compostable Bag Made of Corn Starch, Corn Starch Biodegradable Bags, Corn Starch Biodegradable Bags, Compostable Bags, Biodegradable Bags Manufacturing Process, Eco-Friendly Corn Starch Bags, Biodegradable Plastic Bag Manufacturing Unit, Compostable and Biodegradable Bags Manufacturing, Production of Biodegradable and Compostable Bags, Eco Friendly Bag Making, Project Report on Biodegradable Bags Manufacturing Industry, Detailed Project Report on Biodegradable Bags Manufacturing, Project Report on Biodegradable Corn Starch Bag Production, Reinvestment Feasibility Study on Biodegradable Bags Manufacturing, Techno-Economic feasibility study on Biodegradable Corn Starch Bag Production, Feasibility report on Biodegradable Corn Starch Bag Production, Free Project Profile on Biodegradable Corn Starch Bag Production, Project profile on Biodegradable Corn Starch Bag Production, Download free project profile on Biodegradable Corn Starch Bag Production, Biodegradable Plastic Bag Manufacturing Industry, What is the main raw material for the manufacture of biodegradable, Biodegradable Plastic Bag Making, Industrial Machinery, Biodegradable Plastic Bag Making Machine, biodegradable plastic bag manufacturing machine, Eco Friendly Bag Making Machine
Plant capacity: -Plant & machinery: -
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Return: 1.00%Break even: N/A
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Biodegradable Plastic Products (Bags, Plates & Glasses)

The biodegradable polymers could be an alternative to the conventional plastic materials. The term biodegradable means that a substance is able to be broken down into simpler substances by the activities of living organisms, and therefore is unlikely to persist in the environment. There are many different standards used to measure biodegradability, with each country having its own. Biodegradable plastics are mainly derived from corn, wheat and potato starch. Biodegradable plastics products are thermoplastic materials which are processed with the same machines traditionally used to process conventional plastics. The development of green packaging support mainly by the following factors: on the one hand, biodegradable plastic packaging with energy saving, environmental protection and recycling advantages. On the other hand, the global market, distribution channels and other government departments and various forces are actively promoting this new technology. In the next two to three years, the market demand for biodegradable plastic will gradually become stronger. Biodegradable materials by nature rely on the role of microbial decomposition, as packaging materials can significantly reduce the amount of garbage. With good quality of products, about 41% of biodegradable packaging is used for food preservation. 90 years since the 20th century, the global production of biodegradable plastics rapid increase, of which around 60% used in the packaging industry.
Plant capacity: Biodegradable Plastic Glasses (wt. each Glass 16 gms):187500 Pcs. per day Biodegradable Plastic Plates (wt. each Plate 40 gms): 75000 Pcs. per day Biodegradable Plastic Bags (wt. each Bag 25 gms):80000 Pcs. per dayPlant & machinery: 204 Lakh
Working capital: -T.C.I: Cost of Project:1564 Lakh
Return: 32.00%Break even: 38.00%
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Biodegradable Plates & Bowls From Areca Tree Leaf

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 leaves are Eco-friendly in nature, lightweight, disposable and durable in nature. The global biodegradable plastics market size was estimated at USD 2.56 billion in 2017. It is expected to expand at a CAGR of 12.8% during the forecast period. Governments prohibiting the use of single-use plastic coupled with rising awareness among public regarding ill-effects of plastic waste are among the key trends stimulating market growth. Paper cups and paper plates are made from paper-based materials and are often coated or lined with plastic or wax to prevent the fluid from soaking through the paper. They have been in use for decades in the consumption of food and beverages like tea, coffee, soft drinks, instant noodles, sweet corn, etc. Currently, there is a wide variety of different paper cups and plates available in the market which varies in size, form and texture.
Plant capacity: Bio-Degradable Areca Leaf Round Plates (Size 10"/12")3,200.0 Pcs./Day Bio-Degradable Areca Leaf Round & Squre Plates (Size 6") 3,200.0 Pcs./Day Bio-Degradable Areca Leaf Round Bowls (Size 4.5")3,200.0 Pcs./DayPlant & machinery: 35 Lakh
Working capital: -T.C.I: Cost of Project:79 Lakh
Return: 13.00%Break even: 76.00%
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Bioplastic Products Manufacturing Industry, Profitable Business Ideas on Biodegradable Products

Bioplastic Products Manufacturing Industry, Profitable Business Ideas on Biodegradable Products. Manufacture of Eco-Friendly Products for Your Daily Life The non-biodegradable plastic products, which are commonly used in households, cannot be recycled for 400 years. Products like plastic carry bags, if disposed unscientifically, are hard to decompose and are a massive threat to soil cultivation Biodegradable substances include food scraps, cotton, wool, wood, human and animal waste, manufactured products based on natural materials (such as paper, and vegetable-oil based soaps). See also degradable and photodegradable. Biodegradable waste includes any organic matter in waste which can be broken down into carbon dioxide, water, methane or simple organic molecules by micro-organisms and other living things by composting, aerobic digestion, anaerobic digestion or similar processes. In waste management, it also includes some inorganic materials which can be decomposed by bacteria. Such materials include gypsum and its products such as plasterboard and other simple organic sulfates which can decompose to yield hydrogen sulphide in anaerobic land-fill conditions. Biodegradable waste can be found in municipal solid waste (sometimes called biodegradable municipal waste, or (BMW) as green waste, food waste, paper waste and biodegradable plastics. Other biodegradable wastes include human waste, manure, sewage, sewage sludge and slaughterhouse waste. In the absence of oxygen, much of this waste will decay to methane by anaerobic digestion. Biodegradable substances are those that degrades or break down naturally. Materials like plants, animals, their waste, paper, fruits, flowers, vegetables fall under biodegradable substances, on the other hand, rubber, plastic, chemicals, paint plastic falls under the category of the non-biodegradable items. Bio-Degradable Plates from Areca Nuts Tree Leaf, Barks and Bamboo 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. Currently no other alternative product in the world can match the unique properties of areca palm leaf plates present in nature. 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 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 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. Biodegradable Diapers and Sanitary Napkins Production Sanitary napkins are completely biodegradable and compostable. They are made from a plant-based material such as banana fibre which is extracted from the stems of banana trees. The pads degrade within 6 months of disposal. Women in rural areas use re-usable cloth as sanitary pads and while that is eco-friendly, it is not so hygienic. While plastic-based menstrual hygiene products are available in abundance, it is advisable to switch to a natural, safer product that does not have any harmful chemicals or synthetics fibers. 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. Consumers are seeking for environmentally friendly diapering options such as diapers, 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. 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. Biodegradable Disposable Plastic Cutlery Biodegradable plastics are plastics that can be decomposed by the action of living organisms, usually microbes, into water, carbon dioxide, and biomass. Biodegradable plastics are commonly produced with renewable raw materials, micro-organisms, petrochemicals, or combinations of all three. Plastic cutlery is made from a type of plastic known as polystyrene1. Polystyrene or expanded polystyrene is more commonly referred to as Styrofoam. India is slowly becoming a country where people are turning health conscious. Thankfully, biodegradable cutlery has emerged as a better alternative to plastics across the globe and Indians have been early adopters of biodegradable products. The biodegradable plastic packaging market was valued at USD 3.97 billion in 2018, and is expected to reach a market value of USD 10.3 billion by 2024, registering a CAGR of 17.04% during the forecast period of 2019 - 2024. Increasing awareness regarding harmful effects associated with non-biodegradable plastic wastes is a key factor likely to drive the market. The increasing environmental concerns regarding plastic usage (as plastics contain toxic pollutants that harm plants, animals, and people) are driving the use of biodegradable plastic alternatives. Floating plastic waste that survives thousands of years in water can serve as a transportation device for invasive species that disrupt habitats. This aforementioned factor is contributing to the growth of the market. Biodegradable Plastic Pellets Biodegradable plastics are made from all-natural plant materials. These can include corn oil, orange peels, starch, and plants. Traditional plastic is made with chemical fillers that can be harmful to the environment when released when the plastic is melted down. The biodegradable plastics market is expected to reach USD 6.12 billion by 2023, at a CAGR of 15.1% Increasing consumer preference for the environmentally sustainable plastic products and growing regulations and prohibitions against the use of plastic bags and other plastic items are propelling the global biodegradable plastics market. Even though the factors such as growing consumer preference toward eco-friendly plastic products as well as increasing government emphasis on the use of biodegradable plastics are driving the global biodegradable plastics market, the higher cost of biodegradable plastics and shortcomings of biodegradable plastics are anticipated to dampen the market growth. The growing use of biodegradable plastics in the food and beverages industry, as well as rapid growth of packaging industry, is expected to develop new market expansion opportunities for the global biodegradable plastics market in the forthcoming years. Biodegradable plastic is plastic that decomposes naturally in the environment by the action of microorganisms in the environment that metabolize and break down the structure of biodegradable plastic. Which is relatively less harmful to the environment than the traditional plastics. Non-decomposable plastics are a global environmental problem. Governments around the world are dealing with this problem by banning single-use plastics and promoting biodegradable plastics. Moreover, consumers are willing to pay more for biodegradable plastics owing to their eco-friendly nature. Moreover increasing use of biodegradable plastics in packaging and agriculture sectors is drive the global biodegradable plastics market. Polyester Fiber from Corn/Starch PLA (Polylactic acid) comes from fermented plant starch (mostly from corn), and is often referred to as corn starch plastic. It is becoming popular very quickly, because corn-based plastic is a more environmentally-friendly alternative to traditional plastics, which are petroleum-based. Polyester fibers are manufactured from recycled or virgin PET. These fibers can be colored by the method of pigmentation or dope dyeing. Polyester fibers can be classified as staple fibers and bulk continuous fibers (BCF) depending on their length. These fibers can also be manufactured in various geometries such as square, rectangular, triangular, hexagonal and circular depending upon the area of application. Polyester is the most used and most preferred fibre in the textiles industry due to its better physical properties, lower price, versatility, and recyclability, which offer a completely unique set of benefits unmatched by any other natural or synthetic fibers. Polyester fibers are extremely strong, resistant to most chemicals and shrinking, stretching, abrasion, wrinkle and mildew resistant. Polyester fibers are hydrophobic in nature and dry quickly. Therefore, they can be used to provide insulation in the form of hollow fibers. Polyester fibers withstand wear and tear longer than cotton and retain their shapes in extreme climatic conditions and are thus preferred for manufacturing outdoor clothing. The soluble corn fibre market can be segmented on the basis of its application as food & beverages, nutraceuticals and clinical nutrition, animal nutrition and others. It can also be classified on the basis of end-user usage pattern of soluble corn fibre into breakfast, lunch, dinner and on-the-go eating. One of the major advantages of soluble corn fibre is, it can be used as low-calorie fillings in a range of food items, specially baked goods and confectionery. In addition, there is a growing demand for soluble corn fibers in frozen entrees such as pasta and tortillas in packaged food industry. Regionally, the market can be divided into Asia-Pacific, North America (the U.S., Canada and Mexico), Western Europe, Eastern Europe, Middle East and North Africa, and Rest of the World (Latin America and South Africa). With the rise in disposable income and a shift towards leading a healthy life, the industry has felt an augmented demand for soluble corn fibers. In addition, advancement in food technologies to produce label-friendly products happens to be a major supply side driver of this market. One of the restraints of the market could be the process stability of corn-soluble ingredients as these products are highly application specific. Production of Bio-Plastic Film Using Biodegradable Resin, PLA (Polylactic Acid) PLA Polylactic Acid, is a biodegradable thermoplastic and aliphatic polyester, derived from renewable and organic resources such as corn starch and sugarcane. Our manufacturing facilities can provide simple cut-to-size or complex CNC manufacturing, and crating for multiwall and twin wall sheet. Polylactic acid or polylactide (PLA) is a thermoplastic aliphatic polyester derived from renewable resources. PLA had the second highest consumption volume of any bioplastic of the world, Although Bio plastic is a biodegradable material that come from renewable sources and can be used to reduce the problem of plastic waste that is suffocating the planet and polluting the environment. These are 100% degradable, equally resistant and versatile, already used in agriculture, textile industry, medicine and, over all, in the container and packaging market, and biopolymers are already becoming popular in cities throughout Europe and the United States. With increasing concerns over the use of plastics, sustainable alternatives to plastics are increasingly in demand. Biopolymers in general and bio plastics in particular, present one such sustainable alternative. The global biodegradable plastics market is expected to reach 16.8 billion by 2022 with CAGR 8.4% between 2016-2022. Rising consumer awareness about global warming and government legislation such as banned on plastic bags will increase the demand for biodegradable plastics across the globe. Plastics that decompose to carbon dioxide and water under the actions of microorganisms is known as biodegradable plastics. Biodegradable plastics are produced by fermentation of sugar or canola oil to produce polylactic acid (PLA) or polyhydroxyalkanoates (PHA) which in turn converted into biodegradable plastics. A sustainable alternative to traditional plastics, bio plastics are plastics that are fully or partially bio based, and biodegradable or compostable. In other words, they are plastics that are made from renewable resources such as corn, tapioca, potatoes, sugar and algae and breaks down faster than traditional plastics, which are typically made from petroleum, and other fossil resources such as natural gas. Bio plastics have numerous applications like packaging, bottles, utensils, furniture etc. Bioplastic Carry Bags and Garbage Bags The process of extrusion then transformed these plastic beads into plastic bags. Trash bags are made from low-density polyethylene (LDPE), which is purported to be flexible, soft, airtight and waterproof. At times, to provide strength to the bags, high-density polyethylene (HDPE) is also used. The biodegradable plastic packaging market was valued at USD 3.97 billion in 2018, and is expected to reach a market value of USD 10.3 billion by 2024, registering a CAGR of 17.04%. The stringent regulations by various governments and federal agencies with an objective to reduce plastic waste and promote biodegradable plastics usage in packaging are boosting the demand of this market. The regulations related to green packaging is increasing. Various companies are required to adopt biodegradable packaging to comply with the standards, which in turn, is propelling the growth of this market. High costs (compared to normal plastic) are restraining the growth of the market, as biodegradable plastic is made from plants' starch and its decomposition needs specific conditions, like temperature, bacteria, humidity, etc. The increasing environmental concerns regarding plastic usage (as plastics contain toxic pollutants that harm plants, animals, and people) are driving the use of biodegradable plastic alternatives. Floating plastic waste that survives thousands of years in water can serve as a transportation device for invasive species that disrupt habitats. This aforementioned factor is contributing to the growth of the market. Eco-friendly initiatives by corporates and abundant availability of raw materials for manufacturing bio plastics are prominent factors driving growth in Asia Pacific bio plastics market. Europe and North America are expected to dominate the overall market of biodegradable packaging. North America is expected to be the largest consumer of the biodegradable packaging market. The developed regions are expected to dominate the overall biodegradable packaging market owing to the presence of mature markets that consist of highly environmental conscious consumers. In addition, the presence of high-spending population is also expected to increase the overall demand for biodegradable packaging in the developed regions. The presence of large populations in Asia Pacific is expected to boost the biodegradable packaging market. Tags #Biodegradable_Plates_Production, #Disposable_Leaf_Plates, #Areca_Leaf_Plate_Presentations, #Arecanut_Leaf_Plate_Manufacturing, #Biodegradable_Plates_Production_from_Areca_Nuts_Tree_Leaf, #Areca_leaf_plates_project_report, #Biodegradable_Diapers_and_Sanitary_Napkins_Production, #Project_Report_on_Sanitary_Napkin_Amp_Baby_Diaper, #Project_Report_on_Sanitary_Napkins, #Sanitary_Napkin_Manufacturing_Project, #Biodegradable_Diapers_and_Sanitary_Napkins_Production, #Indian_Sanitary_Napkin_Market, #Eco_friendly_Sanitary_Napkins_in_India, #Project_Report_on_Biodegradable_Cups_Plates_Plant, #How_to_start_a_biodegradable_plastic_manufacturing_company? New Process for Biodegradable Plastics Production, Plastic Industries Project Reports, Book on Production Biodegradable Plastics, Plastic Industries Project Reports, Biodegradable Plastic Pellets Manufacturing Industry, Project Reports & Profiles, Production Of Polyester Fiber From Corn/starch, Polylactic Acid Production, Production of Polyester Fiber from Corn/Starch, Book on Modern Biodegradable Plastics Polymers Bio Starch, Surfaces and Interfaces in Natural Fibre Reinforced, Production Of Bioplastic Film, Book on Production Biodegradable Plastics Bio plastics, Production of Bioplastic Film using Biodegradable, Bio plastics and biodegradable plastics, Polylactic Acid Manufacturing Plant, Book on Production Biodegradable Plastics, Production of Polylactic Acid Feasibility Report, (PDF) Poly(lactic acid) - Mass Production, Bioplastic Carry Bags And Garbage Bags Production, Biodegradable Plastic Bag Manufacturing Unit, Bioplastic Carry Bags and Garbage Bags Production, Pioneering Bioplastic Companies in India, Biodegradable Plastic Bag?, biodegradable plastic bags business plan, Project Report On Biodegradable Carry Bags, Paper Versus Plastic Bags, How to Start Bioplastic Carry Bags and Garbage Bags Processing Industry in India, (Polylactic Acid) Processing Industry in India, Most Profitable (Polylactic Acid)Processing Business Ideas, Production of Bio-plastic Film using Biodegradable Resin, PLA Processing & Polyester Fiber from Corn/Starch Based Profitable Projects, Biodegradable Disposable Plastic Cutlery Processing Projects, Small Scale Biodegradable Plastic Pellets Processing Projects, Starting a Biodegradable Diapers and Sanitary Napkins Production Processing Business, How to Start a Biodegradable Diapers and Sanitary Napkins Production Business, Bio-Degradable Plates from Areca Nuts Tree Leaf, Barks and Bamboo Based Small Scale Industries Projects, new small scale ideas in Bio-Degradable Plates from Areca Nuts Tree Leaf, Barks and Bamboo processing industry,
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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About NIIR PROJECT CONSULTANCY SERVICES

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NIIR PROJECT CONSULTANCY SERVICES (NPCS) is a reliable name in the industrial world for offering integrated technical consultancy services. NPCS is manned by engineers, planners, specialists, financial experts, economic analysts and design specialists with extensive experience in the related industries.

Our various services are: Detailed Project Report, Business Plan for Manufacturing Plant, Start-up Ideas, Business Ideas for Entrepreneurs, Start up Business Opportunities, entrepreneurship projects, Successful Business Plan, Industry Trends, Market Research, Manufacturing Process, Machinery, Raw Materials, project report, Cost and Revenue, Pre-feasibility study for Profitable Manufacturing Business, Project Identification, Project Feasibility and Market Study, Identification of Profitable Industrial Project Opportunities, Business Opportunities, Investment Opportunities for Most Profitable Business in India, Manufacturing Business Ideas, Preparation of Project Profile, Pre-Investment and Pre-Feasibility Study, Market Research Study, Preparation of Techno-Economic Feasibility Report, Identification and Selection of Plant, Process, Equipment, General Guidance, Startup Help, Technical and Commercial Counseling for setting up new industrial project and Most Profitable Small Scale Business.

NPCS also publishes varies process technology, technical, reference, self employment and startup books, directory, business and industry database, bankable detailed project report, market research report on various industries, small scale industry and profit making business. Besides being used by manufacturers, industrialists and entrepreneurs, our publications are also used by professionals including project engineers, information services bureau, consultants and project consultancy firms as one of the input in their research.

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