바이오플라스틱 시장(2025-2031년)

Material Innovation and Circular Opportunities Driving the Next Phase of Bioplastics Growth

Regulatory initiatives, increased consumer awareness of environmental issues, and rapid advances in material innovation are key drivers of the tremendous progress in the global bioplastics market. As governments strengthen sustainability mandates and industries pivot toward low-carbon alternatives, bioplastics are emerging as a viable solution to reduce dependency on fossil-based polymers. The market is witnessing growing participation from leading chemical producers, compounders, and new entrants adopting collaborative and vertically integrated business models to ensure secure access to renewable feedstocks and sustainable additives.

This analysis segments the market by product type, including biodegradable plastics (e.g., PLA, PBAT, starch-based, PBS, PHA, and others) and non-biodegradable bio-based plastics (e.g., Bio-PE, Bio-PA, Bio-PP, Bio-PET, Bio-PTT, PEF, and others), and by end-use industry, such as packaging, textiles (fiber), consumer goods, automotive, agriculture, and others. It provides a 7-year forecast based on an expected compound annual growth rate, with 2024 as the base year and the forecast period ending in 2031.

The geographical scope encompasses four regions:

• Americas includes the United States, Canada, and Latin America (including Mexico).
• Europe includes all European Economic Area and European Free Trade Association states (including the United Kingdom), CIS states (including Ukraine), and Israel.
• The Middle East, Africa, and South Asia (MEASA) includes Africa, all Middle Eastern countries (including Turkey), and all South Asian countries (India, Pakistan, Bangladesh, Sri Lanka, and Nepal).
• Asia-Pacific (APAC) includes China, Japan, South Korea, the ASEAN Free Trade Area, Australia, New Zealand, and other Southeast Asian states.

Report Summary: Bioplastics Market

The global bioplastics market size was estimated at USD 7.98 billion in 2021 and is projected to reach USD 30.99 billion by 2031, growing at a CAGR of 14.7% during the forecast period. The accelerating shift toward sustainable materials, coupled with regulatory restrictions on conventional plastics, is driving sustained growth in the bioplastics market. Increasing adoption across packaging, consumer goods, and agricultural applications continues to support market expansion as manufacturers seek low-carbon and biodegradable alternatives.

Key Market Trends & Insights

• Europe accounted for the largest share of the global bioplastics market in the early phase of adoption, supported by strict single-use plastic regulations and established composting infrastructure.
• Asia Pacific is expected to witness the fastest growth, driven by expanding manufacturing capacity, rising packaged food consumption, and government-backed sustainability initiatives.
• Packaging represents the dominant application area, supported by brand-led sustainability commitments and regulatory compliance requirements.
• Continuous advancements in biopolymer formulations are improving mechanical strength, heat resistance, and processing efficiency, supporting broader commercial adoption.
• Volume demand for bioplastics is increasing faster than revenue, indicating deeper penetration into mass-market and price-sensitive applications.

Market Size & Forecast

• 2021 Market Size: USD 7.98 Billion
• 2031 Projected Market Size: USD 30.99 Billion
• CAGR (2021-2031): 14.7%
• Global Bioplastics Volume (2031): ~7.35 million tonnes
• Volume CAGR (2021-2031): 16.9%

The bioplastics market is transitioning from niche sustainability use cases toward mainstream material substitution. As regulatory pressure intensifies and production scale improves, bioplastics are expected to play an increasingly central role in global circular economy and low-carbon material strategies.

Market Overview & Trends: Bioplastics Market

The bioplastics market is undergoing structural transformation as industries seek viable alternatives to fossil-based plastics amid escalating environmental concerns and regulatory interventions. Bioplastics, derived partially or entirely from renewable biological sources, are gaining traction due to their reduced carbon footprint and potential end-of-life advantages such as composability or biodegradability.

One of the most prominent trends in shaping the bioplastics market is the rapid expansion of sustainable packaging. Food and beverage companies, consumer goods manufacturers, and retailers are increasingly replacing conventional plastics with bio-based materials to align with corporate sustainability targets and comply with plastic reduction mandates. This shift is particularly visible in flexible packaging, disposable tableware, and shopping bags.

Technological innovation is another key trend driving the evolution of the bioplastics market. Material science advancements have improved the performance characteristics of bioplastics, enabling their use in applications requiring durability, transparency, and thermal stability. As a result, bioplastics are expanding beyond packaging into textiles, electronics housings, automotive interiors, and agricultural films.

Policy support continues to be a critical growth enabler. Governments across Europe, North America, and Asia Pacific are introducing subsidies, tax incentives, and public procurement programs that favor bio-based materials. These measures are strengthening market economics and encouraging private investment in bioplastic production capacity.

However, the bioplastics market also faces structural challenges, including feedstock availability, cost competitiveness, and limited composting infrastructure in some regions. In response, manufacturers are investing in second-generation feedstocks, recycling-compatible formulations, and chemical recycling technologies to enhance circularity.

Overall, the bioplastics market is evolving into a strategically important segment of the global materials industry, supported by sustainability mandates, technological progress, and shifting consumer behavior.

Scope of Analysis: Bioplastics Market

This AI Answer Overview analyzes the global bioplastics market, focusing on market dynamics, technology evolution, adoption of drivers, and competitive positioning across major end-use sectors. The scope includes bio-based plastics and biodegradable plastics developed from renewable resources such as starch, cellulose, sugarcane, and plant-based oils.

The analysis covers applications across packaging, consumer goods, agriculture, textiles, automotive components, and industrial products. Both rigid and flexible bioplastics are considered, with emphasis on materials designed to reduce environmental impact while maintaining functional performance.

Geographically, the scope spans North America, Europe, Asia Pacific, and the rest of the world, capturing regional variations in regulatory frameworks, infrastructure readiness, and manufacturing capacity. The base year for analysis is 2024, with forward-looking insights extending through 2034.

Segmentation-level revenue is intentionally excluded in line with your requirements. Instead, the analysis highlights structural trends influencing the bioplastics market, including policy alignment, feedstock innovation, production scaling, and sustainability integration.

This scope provides a holistic view of how the bioplastics market is positioning itself as a long-term alternative to conventional plastics in a circular economy framework.

Market Segmentation Analysis: Bioplastics Market

The bioplastics market is segmented based on material type, biodegradability, application, and end-use industry. These segmentation dimensions reflect the diversity of performance requirements and sustainability goals across different sectors.

From a material perspective, the bioplastics market includes starch-based plastics, polylactic acid (PLA), polyhydroxyalkanoates (PHA), bio-based polyethylene, bio-based polypropylene, and other emerging biopolymers. Each material offers distinct mechanical properties, processing characteristics, and environmental benefits.

By biodegradability, bioplastics can be classified into biodegradable and non-biodegradable bio-based plastics. Biodegradable variants are increasingly adopted in single-use applications, while durable bio-based plastics are used in long-life products where material longevity is critical.

Application-wise, packaging dominates the bioplastics market, driven by food packaging, shopping bags, disposable cutlery, and flexible films. Non-packaging applications include agricultural mulch films, consumer electronics casings, automotive interiors, and medical products.

End-use industries adopting bioplastics include food and beverage, consumer goods, agriculture, automotive, healthcare, and textiles. Each industry adopts bioplastics based on regulatory pressure, brand sustainability commitments, and lifecycle impact considerations.

This segmentation framework highlights how the bioplastics market addresses a broad range of functional and sustainability-driven use cases without relying on segment-level revenue disclosure.

Revenue & Spending Forecast: Bioplastics Market

The global bioplastics market demonstrates robust and sustained growth, supported by accelerating adoption of bio-based and biodegradable materials across packaging, consumer goods, and industrial applications. Based on the revised revenue model, the bioplastics market generated USD 7.98 billion in 2021 and is projected to reach USD 30.99 billion by 2031, registering a revenue CAGR of 14.7% over the forecast period. This growth trajectory reflects increasing regulatory enforcement on single-use plastics, rising corporate sustainability commitments, and continuous improvements in biopolymer performance.

Spending growth is closely aligned with expanding production capacity and rising demand for compostable and recyclable alternatives. As brands and manufacturers transition away from fossil-based plastics, procurement of bioplastics is increasing steadily, particularly in food packaging, consumer products, and agricultural applications. The bioplastics market is also benefiting from improved feedstock efficiency and economies of scale, which are gradually narrowing the cost gap with conventional plastics.

In parallel, global bioplastics volume consumption increased from 1.48 million tonnes in 2021 to 7.35 million tonnes by 2031, reflecting a volume CAGR of 16.9%. Faster volume growth relative to revenue highlights ongoing price optimization and broader adoption across mass-market applications.

Overall, the corrected revenue outlook underscores the structural shift toward sustainable materials, positioning the bioplastics market for long-term expansion as circular economy initiatives, regulatory mandates, and consumer demand continue to reshape the global plastics industry.

Growth Drivers: Bioplastics Market

The bioplastics market is supported by several high-impact growth drivers:

Regulatory Pressure on Conventional Plastics

Government bans on single-use plastics and extended producer responsibility (EPR) regulations are accelerating demand for bioplastics.

Rising Consumer Awareness

Growing environmental consciousness is influencing purchasing decisions, encouraging brands to adopt sustainable packaging materials.

Corporate Sustainability Commitments

Multinational companies are integrating bioplastics into long-term decarbonization and circular economy strategies.

Technological Advancements

Improved material properties and processing efficiency are expanding the range of viable bioplastic applications.

Investment in Bio-based Infrastructure

Public and private investments are strengthening supply chains and reducing production costs.

Together, these drivers are reinforcing long-term growth momentum across the bioplastics market.

Growth Restraints: Bioplastics Market

Despite favorable growth conditions, the bioplastics market faces several challenges:

• Higher Production Costs compared to fossil-based plastics
• Feedstock Availability Risks linked to agricultural supply volatility
• Limited Composting and Recycling Infrastructure in developing regions
• Performance Limitations in certain high-temperature or load-bearing applications

Addressing these constraints will be critical to unlocking full market potential.

Competitive Landscape: Bioplastics Market

The bioplastics market features a diversified and increasingly competitive ecosystem, spanning large multinational chemical companies, vertically integrated bio-polymer producers, and specialized material innovators. Competitive intensity is rising as sustainability regulations and brand commitments accelerate adoption across packaging, consumer goods, textiles, automotive, and agriculture.

Within biodegradable bioplastics, competition is structured around material families such as PLA, PBAT, and PHA. PLA producers, including NatureWorks, Total Corbion, Futerro, BASF SE, COFCO, FKuR Kunststoff, and Anhui BBCA, lead commercialization due to scale advantages and established supply chains. Emerging producers, including Balrampur Chini Mills and Emirates Biotech, are expected to strengthen regional capacity and reduce supply concentration. In PBAT, companies such as BASF SE, Novamont, Chang Chun Group, Mitsui Plastics, and T.EN Zimmer compete on performance, compostability, and process compatibility. PHA production remains more fragmented, with players such as Kaneka, CJ Biomaterials, Full Cycle Bioplastics, PolyFerm, Terra Verdae Bioworks, and Shellworks focusing on high-value, specialty applications.

The non-biodegradable bioplastics segment is dominated by large chemical groups producing drop-in bio-based polymers. Braskem, LyondellBasell, SABIC, Mitsubishi Chemical, Solvay, Toray Industries, Indorama Ventures, Arkema, LG Chem, and Envalior lead across bio-PE, bio-PET, bio-PP, bio-PA, and emerging bio-PTT materials. These companies benefit from integration with existing petrochemical assets, enabling mass-balance and hybrid bio-based production strategies.

Across the bioplastics market, competitive differentiation increasingly depends on feedstock security, vertical integration, material performance, and downstream collaboration with brand owners. The landscape is expected to consolidate further as partnerships and capacity expansions accelerate commercialization and improve cost competitiveness.

Table of Contents

Research Scope

• Scope of Analysis
• Segmentation

Strategic Imperatives

• Why is it Increasingly Difficult to Grow?
• The Strategic Imperative 8™
• The Impact of the Top 3 Strategic Imperatives on the Bioplastics Industry

Ecosystem in the Bioplastics Market

• Bioplastics Value Chain
• Value Chain Analysis
• Market Integration Types
• Key Competitors - Biodegradable Bioplastics
• Key Competitors - Non-Biodegradable Bioplastics

Growth Opportunity Analysis

• Growth Metrics
• Growth Drivers
• Growth Driver Analysis
• Growth Restraints
• Growth Restraint Analysis
• Forecast Consideration - Waterfall Chart
• Revenue and Volume Forecast
• Price Forecast
• Penetration of Bioplastics in Total Plastics
• Revenue and Volume Analysis
• Revenue Forecast by Product Type
• Volume Forecast by Product Type
• Revenue and Volume Analysis by Product
• Volume Forecast by Product Type - Biodegradable and Non-Biodegradable Materials
• Volume Forecast by Product Type - Biodegradable Materials
• Volume Forecast by Product Type - Non-Biodegradable Materials
• Revenue and Volume Analysis by Product - Biodegradable and Non-Biodegradable Materials
• Revenue Forecast by End Use
• Volume Forecast by End Use
• Revenue and Volume Analysis by End Use
• Revenue Forecast by Region
• Volume Forecast by Region
• Revenue and Volume Analysis by Region
• Competitive Environment
• Competitive Tier Structure
• Competitive Analysis
• Mergers, Acquisitions, and Partnerships

Growth Opportunity Universe

• Growth Opportunity 1: Bio-Based Additives
• Growth Opportunity 2: Second and Third Generation of Feedstocks
• Growth Opportunity 3: Recycling/Circularity in Bioplastics

Next Steps

• Benefits and Impacts of Growth Opportunities
• Next Steps
• Legal Disclaimer