Polyhydroxyalkanoate (PHA) Market - By Product (Short Chain Length, Medium Chain Length, Long Chain Length), By PHA Type (P3H4B +PHB, PHBH, PHBV), By Production Methods, By Application, & Forecast, 2023 – 2032

Report Content

Chapter 1   Methodology & Scope

1.1    Industry coverage

1.2    Market scope & definition

1.3    Base estimates & calculations

1.3.1    Data collection

1.4    Forecast parameters

1.5    COVID-19 impact analysis at global level

1.6    Data validation

1.7    Data Sources

1.7.1    Primary

1.7.2    Secondary

1.7.2.1   Paid sources

1.7.2.2   Unpaid sources

Chapter 2   Executive Summary

2.1    Polyhydroxyalkanoate (PHA) industry 360⁰ synopsis, 2018 – 2032

2.2    Business trends

2.3    Product trends

2.4    PHA type trends

2.5    Production method trends

2.6    Application trends

2.7    Regional trends

Chapter 3   Polyhydroxyalkanoate (PHA) Industry Insights

3.1    Industry segmentation

3.2    Industry ecosystem analysis

3.2.1    Raw material analysis

3.2.2    Manufacturers

3.2.3    Distribution channel analysis

3.2.4    Profit margin analysis

3.2.5    Effect of COVID-19 on industry value chain

3.2.6    Vendor matrix

3.3    Raw material analysis

3.3.1    Canola oil

3.3.2    PHA production process from Wautersia eutropha

3.3.3    Sugar beet

3.3.4    Sugarcane Molasses

3.3.5    Corn Starch

3.3.6    Methanol

3.3.7    Palm oil

3.3.8    Biogas & CO2

3.3.9    Heterogeneous waste streams

3.3.10    Estimated portion of global production of each raw material used in PHA production

3.4    Technology landscape

3.4.1    Microbiological process

3.4.2    Enzymatic process

3.4.3    Chemical process

3.5    Regulatory landscape

3.5.1    North America

3.5.2    Europe

3.5.3    APAC

3.5.4    Latin America

3.5.5    MEA

3.6    Circular economy

3.6.1    PHAs in “The Circular Economy”: Denitrification Part of the series: Preventing pollution with PHA

3.6.2    PHAs are an emerging family of biodegradable aliphatic polyesters

3.6.3    Bioconversion of oily waste to polyhydroxyalkanoates

3.6.4    Cyanobacterial polyhydroxyalkanoates (PHA): a sustainable alternative in circular economy

3.7    Biodegradable plastics industry outlook

3.7.1    Biodegradable plastics market estimates & forecast, 2018-2032, (Tons) (USD Million)

3.7.2    Biodegradable plastics market estimates & forecast, by product, 2018–2032, (Tons) (USD Million)

3.8    Addressable bio-based PHA market potential

3.8.1    Bio-based polyhydroxyalkanoate (PHA)market estimates & forecast, 2018-2032, (Tons) (USD Million)

3.9    Estimated production capacity of key manufacturers

3.10    Pricing analysis

3.10.1    North America

3.10.2    Europe

3.10.3    Asia Pacific

3.10.4    Latin America

3.10.5    Middle East & Africa

3.10.6    COVID-19 impact on pricing

3.10.7    Cost structure analysis, 2022

3.11    Industry impact forces

3.11.1    Growth drivers

3.11.1.1    Positive outlook for biodegradable plastics in the food & beverage packaging industry

3.11.1.2    Enhanced focus on environmental concerns is likely to propel the demand for biodegradable plastic usage

3.11.1.3    Supportive government regulations for biodegradable plastics

3.11.2    Industry pitfalls & challenges

3.11.2.1    The high production cost and poor thermal properties has weakened the growth of the polyhydroxyalkanoate (PHA) industry

3.12    Innovation & sustainability

3.12.1    Patent analysis

3.13    Growth potential analysis, 2022

3.14    Porters Analysis

3.14.1    Industry rivalry

3.14.2    Buyer power

3.14.3    Supplier power

3.14.4    Threat of new entrants

3.14.5    Threat of substitutes

3.15    PESTEL analysis

3.16    Impact of COVID-19 on the polyhydroxyalkanoate (PHA) applications

3.16.1    Packaging & Food Services

3.16.2    Biomedical

3.16.3    Agriculture

3.16.4    Others

3.17    Impact of COVID-19 on world economy

3.18    Impact of the Russia-Ukraine war on polyhydroxyalkanoate market

Chapter 4   Competitive Landscape, 2022

4.1    Introduction

4.2    Company matrix analysis, 2022

4.3    Global company market share analysis, 2022

4.4    Competitive positioning matrix

4.5    Strategy dashboard

Chapter 5   Polyhydroxyalkanoate (PHA) Market Size and Forecast, By Product 2018 - 2032

5.1    Short chain length

5.2    Medium Chain Lenth

5.3    Long Chain Lenth

Chapter 6   Polyhydroxyalkanoate (PHA) Market Size and Forecast, By PHA Type 2018 - 2032

6.1    P3H4B +PHB

6.2    PHBH

6.3    PHBV

Chapter 7   Polyhydroxyalkanoate (PHA) Market Size and Forecast, By Production Methods 2018 - 2032

7.1    Sugar Fermentation

7.2    Vegetable Oil Fermentation

7.3    Heterogeneous waste streams

7.4    Others (Methane Fermentation, Hydrocarbons)

Chapter 8   Polyhydroxyalkanoate (PHA) Market Size and Forecast, By Application 2018 - 2032

8.1    Packaging & Food Services

8.2    Biomedical

8.3    Agriculture

8.4    Others (Biofuels, Paints, Fiber Materials, Paper Waterproof Coatings, Animal feed)

Chapter 9   Polyhydroxyalkanoate (PHA) Market Size and Forecast, By Region 2018 - 2032

9.1    Key trends, by region

9.2    North America

9.2.1    U.S.

9.2.2    Canada

9.3    Europe

9.3.1    Germany

9.3.2    UK

9.3.3    France

9.3.4    Spain

9.3.5    Italy

9.3.6    Netherlands

9.3.7    Poland

9.3.8    Russia

9.4    Asia Pacific

9.4.1    China

9.4.2    Japan

9.4.3    India

9.4.4    Australia

9.4.5    South Korea

9.4.6    Indonesia

9.4.7    Thailand

9.5    Latin America

9.5.1    Brazil

9.5.2    Mexico

9.5.3    Argentina

9.6    MEA

9.6.1    South Africa

9.6.2    Saudi Arabia

9.6.3    UAE

Chapter 10   Company Profiles

10.1    Danimer Scientific

10.2    CjBio

10.3    Tianan Enmat

10.4    Kaneka Corporation

10.5    Paques Biomaterials

10.6    RWDC

10.7    Bluepha

10.8    Full Cycle Bioplastics

10.9    Newlight Technologies

10.10    Tianjin GreenBio Materials Co. Ltd.

10.11    Yield10 Bioscience, Inc.

10.12    Bio-on SpA