首頁 > 市場調查報告書 > 材料

塑膠

市場調查報告書

商品編碼

1557392

聚羥基烷酯(PHA) 市場 - 2024 年至 2029 年預測

Polyhydroxyalkanoate (PHA) Market - Forecasts from 2024 to 2029

出版日期: 2024年08月07日 | 出版商:

Knowledge Sourcing Intelligence | 英文 140 Pages | 商品交期: 最快1-2個工作天內

價格

簡介目錄

全球聚羥基烷酯（PHA）市場預計在預測期（2024-2029年）複合年成長率為12.75%。

聚羥基烷酯(PHA) 是在細菌中發現的儲存顆粒，具有羥基脂肪酸聚酯的功能。 PHA分子具有多種結構。其出色的理化特性使其適用於奈米技術、組織工程和其他生物應用。

由於環保意識的增強、規範塑膠使用的嚴格新法律以及消費者對綠色產品的偏好，PHA 產業持續成長。包裝、農業和製藥業對 PHA 的特性（例如生物分解性、生物相容性和多功能性）有很高的需求。

全球聚羥基烷酯(PHA) 市場促進因素：

PHA 可用於製造手術網片、醫療設備、整形外科針、手術縫線、支架、修復補片、心臟瓣膜、釘書釘和螺絲。由於醫療設備行業的成長，PHA 市場正在擴大。

加拿大的醫療設備產業高度多元化，大多數公司都是中小企業（SME）。我們的核心業務是醫療設備、診斷器材和治療器材的研發、生產和法規遵循。根據國際貿易局統計，預計2022年加拿大醫療設備產業總產值為68億美元。分析師預計，到 2028 年，該市場每年將以 5.4% 的速度成長。據同一資訊來源稱，加拿大 2022 年的醫療總支出為 3,310 億加元，即人均 8,563 加元。

此外，透過靜電紡絲研究了抗癌藥物紫杉醇的陰離子性質和P(3HB-co-95 mol% 4HB)之間的相互作用，以進一步研究藥物釋放。紫杉醇改善了溶液的黏度並在靜電紡絲過程中保持了噴射的穩健性。各種研究還表明，藥物可以合併到 PHA 中並塗覆到金屬支架上，隨後用作藥物釋放型支架。

大大小小的品牌所有者現在都在實施基於 PHA 的複合解決方案，以解決與塑膠廢棄物和氣候危機相關的問題。 CA1270P 和 CA1240PF 100% 生物基，提供傳統塑膠薄膜的可堆肥替代品，並可將食品廢棄物從垃圾掩埋場轉移。據美國環保署（EPA）稱，垃圾掩埋場中的食品廢棄物比垃圾掩埋場其他掩埋排放了更多的甲烷排放，而逸散廢棄物（固態）估計釋放到食物垃圾中的甲烷中有58%來自掩埋的食品廢棄物。這兩款產品的碳足跡比傳統包裝中使用的低密度聚乙烯、線型低密度聚乙烯、聚乙烯、聚丙烯和聚對苯二甲酸乙二醇酯(LDPE/PE/PP/PET)解決方案低50%以上。

RWDC植物來源（包括廢棄食用油）生產其專利 Solon(TM) PHA。該產品可以透過家庭和工業堆肥場所的自然回收和堆肥過程自然生物分解。含有 PHA 的產品和包裝排放被丟棄並進入環境，但它們會在土壤、淡水和海洋生態系統中完全分解，從而防止塑膠和微塑膠的禍害。

韓國 CJ CheilJedang Corporation 的子公司、領先的 PHA 生物聚合物製造商 CJ Biomaterials, Inc. 在佛羅裡達州奧蘭多舉行的 NPE 2024 上宣布推出 PHACT(TM) S1000P結晶PHA (scPHA)。這種新型 scPHA 生物聚合物是一種環保生物基材料，具有家庭和工業堆肥、海洋和土壤生物分解性的 TUV OK 認證。

全球聚羥基烷酯（PHA）市場細分分析：

就應用而言，農業預計將成為聚羥基烷酯市場成長最快的領域之一。

近年來，易於分解的材料變得越來越有吸引力，因為舊塑膠（合成樹脂）通常最終被垃圾掩埋場或焚燒，導致環境污染。 PHA可取代市售塑膠生產對土壤友善、生物分解性的溫室薄膜、栽培袋、防護網等。 PHA 具有改善土壤健康、消除污染物、維持土壤濕度、防治雜草等優點。 Nodax 是 Danimer Scientific 的一種生物分解性材料，源自於聚（3-羥基丁酸酯-co-3-羥基己酸酯）的 PHA 共聚物。

農業部門的成長被認為是推動市場的關鍵因素之一。例如，英國農業佔GDP的比例不到0.5%，以歐洲標準，機械化程度很高，效率很高。英國農業滿足了該國58%的糧食需求，但它嚴重依賴進口來滿足英國消費者的多樣化需求，他們希望全年都能供應所有食品。

基於 PHA 的農用網可以透過抵禦環境因素、害蟲、鳥類和抵禦熱壓力來促進作物生長。這種材料可以直接丟棄在土壤表面，與塑膠網不同，它很容易分解。園藝 PHA 種植袋現已廣泛使用，因為與塑膠種植袋不同，它們在分解時不會釋放有毒化合物。 PHA 培養袋可作為微生物的生長基質，有助於對水進行反硝化，並且對根系友善。

亞太地區聚羥基烷酯（PHA）市場預計將顯著成長。

亞太地區對聚羥基烷酯（PHA）、生物分解性和生物相容性聚合物的需求預計將增加。造成這種情況的主要原因是人們越來越擔心塑膠廢物對環境的影響。隨著大眾和企業越來越意識到傳統塑膠的影響，人們對 PHA 等環保替代品越來越感興趣。這些材料也用於包裝、醫藥、農業和紡織等各個行業。

印度包裝工業協會 (PIAI) 使包裝產業的複合年成長率達到 22% 至 25%，並向 80 多個國家出口。在過去的幾年裡，包裝產業促進了技術進步，為印度其他製造業（包括農業和快速消費品）付加了價值。

儘管如此，目前印度醫療設備的市場規模估計為110億美元。印度的醫療設備產業是新興市場中成長最快的。印度的醫療設備產業既有大型國際公司，也有中小企業（SME），它們正以前所未有的速度擴張。印度國內有750至800家醫療設備生產商，佔65%的市場。印度的醫療設備新興企業也多元化且活躍，有超過 250 家公司致力於解決醫療保健領域的關鍵挑戰。當這些公司尋求長期解決方案時，PHA 的特性使其成為一個潛在的選擇。

此外，在亞太國家，PHA的應用在政府政策推動下正在逐步推進。這些法規通常是與生物基產品的生產和消費相關的積極刺激因素，也為 PHA 產業帶來了積極的前景。該地區的包裝和紡織業也推動了 PHA 市場的成長。根據中國政府的公告，一些加工企業已經轉型，但整個產業的付加正在增加。 2023年，光是中國就將佔全球高性能紡織品製造能力的三分之一，出口成長14%。

整體而言，亞太地區PHA產業具有可觀的發展前景。因此，鑑於 PHA 仍在不斷發展，配套立法正在頒布，消費者對影響環境的問題也越來越了解，PHA 可以被認為是一種永續材料，在該地區越來越受歡迎。

全球聚羥基烷酯（PHA）市場的主要發展：

韓國 CJ CheilJedang 的子公司、領先的聚羥基烷酯(PHA) 生物聚合物開發商 CJ Biomaterials, Inc. 於 2024 年 4 月宣布，將生產和推出兩種基於 PHA 的創新化合物。這些新化合物 PHACT(TM) CA1270P（透明）和 PHACT(TM) CA1240PF（不透明）是永續軟質包裝的重大進步，具有出色的性能和環境效益。
2023 年 9 月，全球製程技術和價值主導能源解決方案提供商 Lummus Technology 和開發生物聚合物材料解決方案的生物技術公司 RWDC Industries 將迅速擴大 PHA 的製造和全球許可。擴大我們的業務。
2022年4月，CJ BIO宣佈在印尼巴蘇魯安新建工廠開始生產PHA。 CJ BIO 是發酵生產能力的世界領導者，在動物和人類營養領域擁有全球業務，將利用這一新設施擴展到生醫材料領域並生產塑膠，從而創造機會減少其對全球廢棄物流和環境的影響。新廠的額定產能為 5,000 噸，僅生產「無定形」PHA (a-PHA)。

全球聚羥基烷酯（PHA）市場細分與分析如下：

按類型

單體
共聚物
三元聚合物

按用途

包裝
農業
醫療/保健
纖維
其他

按地區

北美洲
美國
加拿大
墨西哥
南美洲
巴西
阿根廷
南美洲其他地區
歐洲
英國
德國
法國
義大利
西班牙
其他歐洲國家
中東/非洲
沙烏地阿拉伯
阿拉伯聯合大公國
其他中東和非洲
亞太地區
中國
印度
日本
韓國
台灣
泰國
印尼
其他亞太地區

世界概況
北美洲
- 美國
- 加拿大
- 墨西哥
南美洲
- 巴西
- 阿根廷
- 南美洲其他地區
歐洲
- 英國
- 德國
- 法國
- 義大利
- 西班牙
- 其他歐洲國家
中東/非洲
- 沙烏地阿拉伯
- 阿拉伯聯合大公國
- 其他中東/非洲
亞太地區
- 中國
- 印度
- 日本
- 韓國
- 台灣
- 泰國
- 印尼
- 其他亞太地區

第8章競爭環境及分析

主要企業及策略分析
市場佔有率分析
合併、收購、協議和合作
競爭對手儀表板

第9章公司簡介

Danimer Scientific
CJ Biomaterials
Genecis Bioindustries
RWDC Industries
TerraVerdae Bioworks
Ecomann Biotechnology Co. Ltd.
Bio-on SpA
Mango Materials
Yeild10 Bioscience, Inc.
TianAn Biopolymer

簡介目錄

Product Code: KSI061617055

The global Polyhydroxyalkanoate (PHA) market is anticipated to grow at a CAGR of 12.75% during the forecast period (2024-2029).

Polyhydroxyalkanoates (PHAs) are storage granules discovered in bacteria that function as hydroxy fatty acid polyesters. PHA molecules have a variety of structures. Their extraordinary physicochemical characteristics make them suitable for application in nanotechnology, tissue engineering, and other biological applications.

The PHA industry is rising due to intensifying environmental awareness, the establishment of new stringent laws regulating the use of plastics, and consumers' preference for green products. PHA's properties, such as biodegradability, biocompatibility, and versatility, are in demand in the packaging, agriculture, and medicinal industries.

GLOBAL POLYHYDROXYALKANOATE (PHA) MARKET DRIVERS:

PHAs can be utilized to create surgical mesh, medical devices, orthopedic pins, surgical sutures, stents, repair patches, cardiac valves, staples, and screws since the immune system well tolerates them. Owing to the growth in the medical device industry, the PHA market is propelling.

The medical device sector in Canada is very diverse, with most companies being small and medium-sized enterprises (SMEs). The core activities include research and development of medical, diagnostic, and therapeutic equipment and production and regulatory compliance. According to the International Trade Administration statistics, the total value of the Canadian medical device industry estimated in 2022 was $6.8 billion. Analysts believe that the market will grow by 5.4% each year until 2028. As per the same source, total health expenditure in Canada in 2022 was C$ 331 billion or C$ 8,563 for every individual.

Besides, the interaction between the anionic character of antitumor medication paclitaxel and P(3HB-co-95 mol% 4HB) was studied via electrospinning to further study drug release. Paclitaxel improved the solution's viscosity, which maintained the jet's sturdiness during electrospinning. Various studies also proved that a drug could be captured in PHA that can later be coated on metal stents used as drug-eluting stents.

Brand owners, large and small, are currently implementing PHA-based compound solutions to help solve problems associated with plastic waste and the climate crisis. CA1270P and CA1240PF are 100% biobased, providing a compostable alternative to traditional plastic films that enable food waste diversion away from landfill sites. According to the US Environmental Protection Agency (EPA), food waste in landfills is contributing to more methane emissions than any other landfilled materials, accounting for an estimated 58% of fugitive methane emissions (those released to the atmosphere) from municipal solid waste landfills originating from landfilled food waste. The carbon footprint of both these products is more than 50% lower than low-density polyethylene and linear-low-density polyethylene, polyethylene, polypropylene, and polyethylene terephthalate (LDPE/PE/PP/PET) solutions that are traditionally used in packaging.

RWDC produces its patented Solon(TM) PHA from plant-based oils, including post-consumer or waste cooking oils. This product may be naturally biodegraded through the natural recycling and composting process in homeowners and industrial composting sites. PHA-contained products or packaging that eventually become trash and find their way to the environment will completely degrade in the soil, freshwater, and marine ecosystems to prevent the scourge of plastics and microplastics.

CJ Biomaterials, Inc., a subsidiary of CJ CheilJedang Corporation, South Korea, and a significant PHA biopolymers producer, commenced at NPE 2024 in Orlando, Florida PHACT(TM) S1000P Semi-Crystalline PHA (scPHA). The new scPHA biopolymer is an eco-friendly, biobased substance that is TUV OK-certified for household and industrial composting and marine and soil biodegradability.

GLOBAL POLYHYDROXYALKANOATE (PHA) MARKET SEGMENT ANALYSIS:

Agriculture is anticipated to be one of the fastest-growing segments in the polyhydroxyalkanoate market in terms of application.

In recent years, readily degradable materials have gained appeal, as old plastic (synthetic) commonly ends up in landfills or is burned, resulting in environmental contamination. PHAs can manufacture soil-friendly biodegradable greenhouse films, grow bags, and protective nets instead of commercial plastics. Several benefits of PHAs include increasing the health of the soil, excluding pollutants, conserving soil moisture, and being a way to tackle weeds. Nodax, a biodegradable material offered by Danimer Scientific, came out of a PHA copolymer of poly(3-hydroxybutyrate-co-3-hydroxyhexanoate).

Growth in the agriculture sector can be deemed as one of the key drivers fueling the market. For instance, agriculture in the UK is intense, highly mechanized, and efficient by European standards, although it amounts to less than 0.5% of the UK's GDP. While UK agriculture provides 58% of the country's food requirements, the UK significantly relies on imports to fulfill the diverse needs of the UK consumer, who expects year-round availability of all food items.

PHA-based agricultural nets can enhance crop growth by protecting against environmental factors, pests, and birds and against heat stress. This material can be disposed of directly on the soil; unlike plastic netting, it readily decomposes. Garden-related PHA-based grow bags are commonly used nowadays since, unlike plastic grow bags, they do not release any poisonous compounds during degradation. They can serve as a microbial growth matrix, aid in water denitrification, and are root-friendly.

Asia Pacific's Polyhydroxyalkanoate (PHA) market is anticipated to grow significantly.

The Asia-Pacific region is anticipated to experience an increase in demand for Polyhydroxyalkanoate (PHA), a biodegradable and biocompatible polymer. The rise is attributed mainly to the growing concerns over the environmental effects of plastic litter. With increasing consciousness about the impacts of traditional plastics among the populace and firms, populations are inclining toward eco-friendly replacements like PHA. These materials are also found in various industries, including packaging, medicine, agriculture, and textiles.

The Packaging Industry Association of India (PIAI) has given the packaging industry growth at a CAGR of 22% to 25%, exporting to over 80 countries. For the past few years, the packaging industry has catalyzed technological advancements that add value to the country's other manufacturing segments, including agriculture and FMCG.

Nonetheless, the current market size for medical devices in India is projected to be $11 billion. India has the fastest-growing medical device industry among emerging markets. The medical device sector in India comprises both huge international corporations and small and medium-sized companies (SMEs), which are expanding at an unprecedented rate. There are 750-800 domestic medical device manufacturers in India, which account for 65% of the market. India's medical devices start-up space is also diverse and active, with over 250 firms tackling key health sector issues. As these businesses seek long-term solutions, PHA is a potential choice due to its characteristics.

Additionally, promoting government policies in several Asia-Pacific countries is gradually advancing the application of PHA. These regulations often involve positive stimuli related to the production and consumption of bio-based goods, which in turn gives a positive outlook to the PHA sector. The region's thriving packaging and textile industries also drive the PHA market's growth. As per the Chinese government, it may be ascertained that although some of the processing companies have shifted, the total industry-added value is increasing. Out of the global high-performance fiber manufacturing capacity in 2023, China alone accounts for one-third; export volume is up by 14%.

Comprehensively, the Asia Pacific PHA industry has considerable development prospects. Thus, taking into account the fact that PHA is still being constantly developed, the supporting legislation is on the way to its establishment, and the consumers are becoming more aware of the matters influencing the environment, PHA can be considered an increasingly popular sustainable material in the region.

Global Polyhydroxyalkanoate (PHA) Market Key Developments:

In April 2024, CJ Biomaterials, Inc., a branch of South Korea's CJ CheilJedang and a leading developer of polyhydroxyalkanoate (PHA) biopolymers, unveiled two ground-breaking PHA-based compounds designed for blown, cast, and machine direction orientation (MDO) film applications. These new compounds, PHACT(TM) CA1270P (clear) and PHACT(TM) CA1240PF (opaque) represent a substantial development in sustainable, flexible packaging, providing exceptional performance and environmental advantages.
In September 2023, Lummus Technology, a global provider of process technologies and value-driven energy solutions, and RWDC Industries, a biotechnology company developing biopolymer material solutions, signed a Joint Development and Commercial Cooperation Agreement (JDCCA) to rapidly expand manufacturing and global licensing of PHA. Lummus and RWDC inked an MOU in April to collaborate on worldwide PHA deployment activities.
In April 2022, CJ BIO stated that it had started producing PHA at a newly built plant in Pasuruan, Indonesia. CJ BIO, a global fermentation capacity leader with world-scale businesses in both animal and human nutrition, is using this new facility to expand into the biomaterials sector and to create opportunities to reduce the impact of manufactured plastics on global waste streams and the environment. The new plant has a rated capacity of 5,000 metric tonnes and only manufactures 'amorphous' PHAs (a-PHAs).

The global Polyhydroxyalkanoate (PHA) market is segmented and analyzed as follows:

By Type

Monomers
Co-Polymers
Terpolymers

By Application

Packaging
Agriculture
Medical and Healthcare
Textiles
Others

By Geography

North America
United States
Canada
Mexico
South America
Brazil
Argentina
Rest of South America
Europe
United Kingdom
Germany
France
Italy
Spain
Rest of Europe
Middle East and Africa
Saudi Arabia
United Arab Emirates
Rest of the Middle East and Africa
Asia-Pacific
China
India
Japan
South Korea
Taiwan
Thailand
Indonesia
Rest of Asia-Pacific

1. INTRODUCTION

1.1. Market Overview
1.2. Market Definition
1.3. Scope of the Study
1.4. Market Segmentation
1.5. Currency
1.6. Assumptions
1.7. Base and Forecast Years Timeline
1.8. Key benefits for the stakeholders

2. RESEARCH METHODOLOGY

2.1. Research Design
2.2. Research Process

3. EXECUTIVE SUMMARY

3.1. Key Findings
3.2. Analyst View

4. MARKET DYNAMICS

4.1. Market Drivers
- 4.1.1. Increasing Application in Various End-Use Industries
- 4.1.2. Advancements in Technology
4.2. Market Restraints
- 4.2.1. Regulatory and Certification Issues
- 4.2.2. High Production Costs
4.3. Porter's Five Forces Analysis
- 4.3.1. Bargaining Power of Suppliers
- 4.3.2. Bargaining Power of Buyers
- 4.3.3. The Threat of New Entrants
- 4.3.4. Threat of Substitutes
- 4.3.5. Competitive Rivalry in the Industry
4.4. Industry Value Chain Analysis

5. GLOBAL POLYHYDROXYALKANOATE (PHA) MARKET BY TYPE

5.1. Introduction
5.2. Monomers
5.3. Co-Polymers
5.4. Terpolymers

6. GLOBAL POLYHYDROXYALKANOATE (PHA) MARKET BY APPLICATION

6.1. Introduction
6.2. Packaging
6.3. Agriculture
6.4. Medical and Healthcare
6.5. Textiles
6.6. Others

7. GLOBAL POLYHYDROXYALKANOATE (PHA) MARKET BY GEOGRAPHY

7.1. Global Overview
7.2. North America
- 7.2.1. United States
- 7.2.2. Canada
- 7.2.3. Mexico
7.3. South America
- 7.3.1. Brazil
- 7.3.2. Argentina
- 7.3.3. Rest of South America
7.4. Europe
- 7.4.1. United Kingdom
- 7.4.2. Germany
- 7.4.3. France
- 7.4.4. Italy
- 7.4.5. Spain
- 7.4.6. Rest of Europe
7.5. Middle East and Africa
- 7.5.1. Saudi Arabia
- 7.5.2. United Arab Emirates
- 7.5.3. Rest of the Middle East and Africa
7.6. Asia-Pacific
- 7.6.1. China
- 7.6.2. India
- 7.6.3. Japan
- 7.6.4. South Korea
- 7.6.5. Taiwan
- 7.6.6. Thailand
- 7.6.7. Indonesia
- 7.6.8. Rest of Asia-Pacific