欧宝体育

1. Introduction to the Project

1.1 Project background

1.1.1 Project introduction

Bio-based materials refer to a new type of materials made by biological, chemical, physical and other means by using renewable biomass, including grains, legumes, straw, bamboo and wood meal, animal fur waste, etc. It mainly includes bioplastics, bio-based platform compounds, biomass functional polymers, functional sugar products, wood-based engineering materials, leather-based service materials and other products, which are green, environmentally friendly, renewable and biodegradable.

According to the common product form, bio-based materials can be divided into five main categories: Bio-based platform compounds, bio-based plastics, polysaccharide bio-based materials, amino acid bio-based materials, and wood-plastic composites. Among them, bio-based platform compounds are chemical monomers polymerized into raw material polymers, such as lactic acid, 1, 3-propanediol, etc.; Bio-based plastics are currently the most widely used and deeply studied bio-based materials, and the representative products include polylactic acid, polyhydroxyalkanoates, etc.

Bio-based materials can be divided into bio-fibers, bio-extracts and agricultural wastes. Bio-fibers refer to fibers extracted from trees, hemp, coconut shells, bamboo, casein, silk, etc. Bio-extracts are materials that are synthesized from ingredients extracted from biological raw materials as raw materials. Agricultural waste refers to materials made from fruit peels, coffee grounds, shrimp and crab shells, animal fur waste, etc.

1.1.2 Market prospect

(1) Classification and current situation of bio-based material industry chain

The upstream of the industrial chain of the bio-based materials industry is biomass raw materials, including grains such as wheat, grains, and corn, as well as plant wastes such as straw, bamboo, and wood. The bio-based materials industry, located in the middle of the industrial chain, processes and transforms the upstream biomass raw materials to produce various bio-based materials for the downstream industry. Bio-based materials have a wide range of downstream applications, and can be used in many fields such as packaging, catering, textiles, agriculture and forestry, and transportation.

Bio-based materials can be divided into five main categories: Bio-based platform compounds, bio-based plastics, polysaccharide bio-based materials, amino acid bio-based materials, and wood-plastic composites. Bio-based platform compounds are chemical monomers polymerized into raw material polymers, such as lactic acid, 1, 3-propanediol, etc.; Bio-based plastics are currently the most widely used and deeply studied bio-based materials, and the representative products include polylactic acid, polyhydroxyalkanoates, etc. Bio-based plastics address the problems caused by petroleum-based plastics. Polysaccharide bio-based materials include hyaluronic acid, xanthan gum, etc., which are used in the food industry, textile and cosmetics industries; The representative products of amino acid bio-based materials include soybean protein and polyaspartic acid; Wood-plastic composites are composite materials prepared by natural plant fiber materials and petroleum-based plastics, which are widely used in the fields of building structural components and indoor and outdoor decoration.

(2) Market prospects for bio-based materials

The market demand for bio-based materials continues to grow. With the enhancement of environmental awareness and policy support, the market demand for bio-based materials continues to grow, the future market potential is huge, and technological innovation is the key to the development of the industry. The technical threshold of the bio-based materials industry is higher, and technological innovation is the key to the development of the industry, enterprises need to increase investment in research and development, and improve the technical level.

The competition pattern of the industry is changing. There are a large number of domestic bio-based material enterprises, but the scale is small, the industry concentration is not high, and there will be more mergers and acquisitions in the future to improve the industry concentration.

From the perspective of market size, the market for bio-based materials and degradable plastics is showing a rapid growth trend. According to data from market research institutions, the global bio-based materials market size will reach about 136 billion US dollars in 2024, and it is expected that the market size of bio-based materials will reach about 200 billion US dollars by 2025, with huge market potential.

1.1.3 Technical analysis

Bio-based materials are derived from biomass grown through photosynthesis, from which the chemical monomers required for the synthesis of polymer raw materials are extracted, and then polymerized into polymers by microbial or chemical synthesis. After that, it needs to go through a series of processing steps such as plasticization and coloring, and finally produce various products. When bio-based materials are discarded, they can be converted into non-toxic small molecules such as water and carbon dioxide through biodegradation methods such as combustion or composting, and re-enter the natural cycle.

1.1.4 Advantageous conditions of project construction

(1) Policy advantages

Bio-based materials meet the policy needs of green agriculture: China's Ministry of Rural Agriculture has issued a series of policies such as the “National Planting Industry Development Plan”, the “Action Plan for Chemical Fertilizer Reduction by 2025” and the “Action Plan for Chemical Pesticide Reduction by 2025”, in order to optimize the structure of pesticide and fertilizer products, gradually eliminate backward production capacity, and realize the green efficiency of pesticide and fertilizer products and the high-quality development of the industry.

(2) Talent advantages

Changchun is a city located in a university, with 15 national key laboratories, 83 independent scientific research institutions in Changchun, such as the Changchun Institute of Optics, Fine Mechanics and Physics of the Chinese Academy of Sciences, the Institute of Applied Chemistry of the Chinese Academy of Sciences, and the Institute of Geographic Sciences and Natural Resources Research of the Chinese Academy of Sciences, and 49 colleges and universities such as Jilin University and Northeast Normal University, which can provide senior managers and technicians for the implementation of the project.

(3) Location advantages

Changchun New Area Fine Chemical Industrial Park is located in Changchun New Area, which is located in the geographical center of Northeast China and the core hinterland of Changchun-Jilin-Tumen Pilot Zone as a whole, and is an important node of the Harbin-Dalian Economic Belt and the China-Mongolia-Russia Economic Corridor. The park has a convenient transportation network, including air, rail, high-speed and light rail. In particular, Longjia International Airport, known as the “Northeast Asian air transportation hub”, enable people to reach 2/3 of China's cities in 1.5 hours and fly to major cities around the world in 5 hours.

(4) Advantages of the park

Changchun Fine Chemical New Material Industrial Park, relying on the National Sciences Institute of Innovation, the Institute of Applied Chemistry of the Chinese Academy of Sciences, Jilin University and leading enterprises in the domestic chemical industry, focuses on the development of high-performance luminescent materials, functional polymer materials, special fibers and their reinforced composite materials, chemical special additives, chemical raw materials and preparations, etc., and strives to build a new material industry development highland based in Jilin and radiating to Northeast China.

(5) Industrial advantages

At present, there are 104 new energy and new material enterprises, including 20 enterprises above the designated size, and their products include biomass materials, chemical raw materials manufacturing, pharmaceutical intermediates and other fields, with an output value of nearly 5 billion yuan. With a total investment of 17.5 billion yuan, the fine chemical new materials industrial park was started and constructed, which is the only chemical park in Changchun City that has passed the new certification, and is also a key project in Jilin Province to promote the development of the petrochemical industry during the “14th Five-Year Plan”, aiming to build a standardized factory area of high-quality “chemical APIs and preparations” and “application-oriented new materials”.

1.2 Contents and scale of project construction

The project covers an area of 20,000 square meters, and the production products are fully biodegradable packaging products, shopping bags, garbage bags, fully degradable tableware, fully degradable mulch, environmentally friendly rice seedling trays, degradable non-woven fabrics and their products, etc.

1.3. Total investment of the project and capital raising

The total investment of the project is 300 million yuan, including construction investment of 240 million yuan

1.4 Financial analysis and social evaluation

1.4.1 Main financial indexes

After the project reaches the production capacity, its annual sales income will be 181.9 million yuan, its profit will be 60 million yuan, its investment payback period will be 7 years (after the tax, including the construction period of 2 years) and its investment profit rate will be 20%.

Note: “10 thousand yuan” in the table is in RMB.

1.4.2 Social evaluation

Environmental Benefits: Bio-based materials have significant environmental benefits. Compared to traditional materials, bio-based materials can reduce environmental impact and reduce carbon emissions. For example, bio-based plastics have low carbon emissions in the production process, and the raw materials are renewable, making them green and environmentally friendly.

Resource Efficiency: Bio-based materials are an effective way to recycle resources because they can make efficient use of energy from waste. Through biological, chemical and physical methods, renewable biomass such as crops, grains, and straw can be converted into new materials, reducing dependence on finite resources.

Economic Impact: The application of bio-based materials has promoted the development of related industries and created new employment opportunities. With the advancement of technology and the expansion of the market, the application range of bio-based materials is also expanding, from packaging materials, disposable tableware to biomedical materials, etc., to meet the diversified market demand.

1.5 Cooperative way

Sole proprietorship, joint venture and cooperation, etc.

1.6 What to be invested by the foreign party

Funds and other ways can be negotiated face to face.

1.7 Construction site of the project

Changchun New Area Fine Chemical Industrial Park

1.8 Progress of the project

Project proposal has been prepared

2. Introduction to the Partner

2.1 Unit basic information

Name: Changchun New Area Management Committee

Address: No. 5799, Longhu Road, Beihu Science and Technology Development Zone, Changchun City

2.2 Unit overview

Changchun Beihu Fine Chemical New Materials Industry Demonstration Park was approved by the Jilin Provincial Government on April 30, 2021, and is the only chemical park in Changchun City that has passed the new certification, and it is also a key project in Jilin Province to promote the high-quality development of the petrochemical industry in the “14th Five-Year Plan”, which plays an important role in promoting the development of biomedicine, new materials, fine chemicals and other industries in the province and cities and Changchun New Area. The total investment of the park is about 11 billion yuan, and the planned area is 9 square kilometers. The planned construction land area of the first phase is 3.698 square kilometers; the planned construction land of the second phase covers an area of 5.3 square kilometers, and as an expansion area for the development of the future chemical park, the overall plan has been implemented simultaneously.

In accordance with the principle of “scientific planning, industrial agglomeration, spatial layout optimization, and sustainable development”, the park will focus on the development of four functional industrial parks, including special chemicals, synthetic materials, chemical raw materials and chemical preparations. Among them, the synthetic material manufacturing park mainly develops high-performance luminescent materials, high-performance composite fiber materials, high-performance engineering plastics, high-performance membrane materials, medical high-value consumables, high-performance adsorption materials, etc.; The special chemicals manufacturing park mainly develops high-performance environmental protection catalysts, functional composite additives, automotive environmental protection adhesives, electronic adhesives, functional compound surfactants, green multi-functional water treatment agents, new energy vehicle battery materials, etc.; The chemical API manufacturing park mainly develops biological reagent raw materials, characteristic APIs, patented APIs, pharmaceutical intermediates, tissue engineering materials, etc.; The chemical drug preparation manufacturing park mainly develops genetic engineering drugs, new vaccines, in vitro diagnostic reagents, antibody drugs, small molecule targeted drugs, nano preparations, microsphere preparations, sustained-release and sustained-control drugs, etc.

New fine chemical materials are important basic materials for strategic emerging industries such as new energy, high-end equipment, electronic information, navigation and aerospace, rail transit, etc., and are the main direction of transformation and upgrading of the petroleum and chemical industry to achieve high-quality development. It has the characteristics of many types of products, high added value, wide use, and large industrial relevance, and can directly serve many industries of the national economy and various fields of high-tech industries. The world's manufacturing powers have taken the development of fine chemical new materials industry as a key development strategy for the upgrading and adjustment of the traditional chemical industry structure. A number of national strategic plans have clearly pointed out that it is necessary to vigorously develop the fine chemical new material industry, enhance the support capacity of the fine chemical new material industry, and promote the coordinated development of the fine chemical new material industry and the automobile, high-speed rail, aviation, biomedicine, new energy and other industries.

Company Overview: It is subordinate to China National Chemical Engineering Group Co., Ltd., which is directly under the State-owned Assets Supervision and Administration Commission of the State Council of the People's Republic of China East China Engineering Science and Technology Co., Ltd. originated from the Third Design Institute of the former Ministry of Chemical Industry of China established in 1963, implemented the shareholding system reform in 2001, and was successfully listed on the Shenzhen Stock Exchange in 2007. It is a modern science and technology enterprise that has carried out joint-stock reform and listed on the stock market earlier in China's engineering survey and design industry. As one of the top 100 survey and design enterprises in China, the company has been awarded the titles of “AAA Credit Enterprise” and “National High-tech Enterprise” for consecutive years, and was rated as “National Civilized Unit” as early as 2005.

2.3 Contact method

Contact person: Qi Shan

Tel: +86-13504315193

E-mail: 80434980@qq.com

Postal code: 138000

Contact method of the city (prefecture) where the project is located:

Contact unit: Changchun Municipal Cooperation and Exchange Office

Contact person: Zhang Junjie

Tel: +86-15704317930

Fax: +86-431-82700590

E-mail: xmc82763933@163.com