1 Introduction to the Project

1.1 Project background

1.1.1 Product introduction

This project covers an area of 400000 square meters, with an annual utilization of 1.5 million tons of straw, producing 300000 tons of jet fuel and 375000 tons of dissolving pulp; This project will produce 250000 tons of methanol, 3 million tons of saturated steam, and 21 megawatts of power generation.

The relatively small amount of carbon dioxide released during the combustion of bio-jet flue helps to reduce the carbon emissions of the aviation industry and mitigate its impact on global warming. Bio-jet flue has higher density and can effectively improve the range and payload of aircraft without changing the volume of the fuel tank.

Dissolving pulp is a high-purity refined pulp and a raw material for producing cellulose derivatives. Straw resources are abundant and inexpensive, which can reduce production costs. Using straw as raw material can help reduce wood consumption and promote the resource utilization of agricultural waste.

During the carbonization process of straw to produce methanol, the straw is fully utilized without wasting any resources. Methanol, as an efficient fuel, can improve energy utilization efficiency, and the carbonization of straw to produce methanol can also provide additional sources of income for farmers.

1.1.2 Market prospect

(1) Current analysis of biomass energy industry

Biomass energy refers to the use of biomass energy from biomass raw materials for power generation or other forms of energy utilization, and is a type of renewable energy. Biomass resources come from a wide range of sources, mainly including five categories: Forestry resources, agricultural resources, domestic sewage and industrial organic wastewater, urban solid waste, and livestock manure. As one of the main ways of utilizing biomass energy, biomass power generation mainly includes direct combustion power generation, gasification power generation, and coupled power generation.

Biomass power generation originated from the oil crisis in the 1970s, and Denmark was the first to promote biomass power generation technologies such as straw burning, which gradually gained attention worldwide. In recent years, with the global energy transition and increasing environmental awareness, the scale of biomass power generation industry has continued to grow and has become an important force in international energy transition.

The biomass energy industry mainly includes multiple sub sectors such as biomass power generation, biomass heating, bio natural gas, and bio liquid fuels.  Biomass power generation is the main utilization method, among which waste incineration power generation, agricultural and forestry biomass power generation, and biogas power generation are the main forms. In addition, biomass energy can also be used to produce high value-added products such as bio-based chemicals and bio-based materials.

Biomass power generation: Including direct combustion power generation, gasification power generation, and coupled power generation. Direct combustion power generation mainly utilizes agricultural and forestry waste and garbage for combustion power generation; Gasification power generation is achieved by converting biomass into combustible gas through a gasification device for power generation; Coupling power generation is the process of combining biomass with other fuels to generate electricity.

Biomass heating: Biomass heating is a method of using biomass energy for heating, which has the advantages of green, low-carbon, and clean economy. It is an important measure to replace coal-fired heating in counties and rural areas.

Biogas: Biogas is produced through biomass fermentation and purified to obtain bio natural gas, which can be used as a substitute for fossil natural gas.

Biological liquid fuel: Producing liquid fuels such as bio-diesel and bio-methanol through biomass conversion technology, which can be used to replace traditional fuels.

The cellulose portion of biomass can be used to produce industrial products such as pulp and fiberboard, especially in the context of increasing environmental and sustainable development requirements, in this case, straw has the potential as a substitute for wood as a raw material.

The upstream of the biomass energy industry chain consists of fuel resources and auxiliary equipment, mainly including biomass fuels (such as straw, garbage, etc.) and biomass power generation equipment (such as boilers, steam turbines, auxiliary equipment, etc.). The midstream involves the conversion and production of biomass energy, including biomass thermochemical conversion, biomass biochemical conversion, and biomass direct combustion for power generation. The participating entities are biomass energy power generation enterprises. The downstream involves the application and sales of biomass energy products, including power generation, heating, gas supply, and other fields, with participation from state-owned power grid enterprises and other energy users.

By the end of 2023, the newly installed capacity of renewable energy generation in China will reach 305 million kilowatts, with a total installed capacity of 1.516 billion kilowatts and a power generation capacity of nearly 3 trillion kilowatt hours.  Among them, the national grid-connected installed capacity of biomass power generation is about 44.14 million kilowatts, an increase of 2.82 million kilowatts from the previous year.

In 2023, China's biomass power generation will be approximately 198 billion kilowatt hours, an increase of 15.6 billion kilowatt hours from the previous year;  The annual on-grid electricity consumption is about 166.7 billion kilowatt hours, an increase of 13.6 billion kilowatt hours from the previous year.

The biomass energy market reached 227.481 billion yuan by the end of 2024. It is expected that by 2030, the global biomass power generation market will further grow in size, and the output of the biomass fuel industry will also increase significantly.

The country attaches great importance to the development of biomass energy and has introduced a series of encouraging policies and plans. For example, departments such as the National Development and Reform Commission (NDRC) and the National Energy Administration (NEA) have issued documents such as the Guiding Opinions on Promoting the Development of Biomass Energy Heating, which clearly set out the development goals and policy measures for biomass energy. In addition, with the proposal of the Carbon Peaking and Carbon Neutrality Goals, biomass energy, as a zero carbon energy source, plays an important role in the energy transition and carbon neutrality process, and policy support will be further increased.

In recent years, breakthroughs have been made in biomass power generation technology and conversion technology, resulting in continuous improvement of biomass energy utilization efficiency and gradual reduction of production costs. In the future, biomass power generation technology will become more mature and efficient, while biomass energy will also develop towards diversified utilization. For example, the production of biogas and bio liquid fuels through technologies such as biomass gasification and fermentation, including heating, gas supply, and by-product ethanol, has gradually matured and begun to be applied on a large scale.

The development of biomass energy faces challenges such as technological bottlenecks, high costs, and dispersed resources. To overcome these challenges, it is necessary to increase technological research and development efforts, improve resource utilization efficiency, and reduce production costs. Meanwhile, biomass energy also faces enormous development opportunities. With the advancement of global energy transition and carbon neutrality, biomass energy, as a zero carbon energy source, will receive more attention and support. In addition, biomass energy can also be combined with agriculture, forestry, environmental protection and other fields to form a good trend of industrial coordinated development.

(2) Current jet fuel market

With the continuous development of new energy technologies, the application of renewable energy such as bio-fuels and synthetic fuels in the field of jet fuel will gradually increase. These new energy fuels not only have environmental advantages, but also reduce dependence on fossil fuels and lower the cost of jet fuel.

Jet fuel, also known as odorless fuel, is one of the petroleum products, mainly composed of different fractions of hydrocarbon compounds. It is a specially developed aviation fuel based on the performance of aircraft engines and the safety of aircraft.

In recent years, with the prosperity of the aviation industry and the global tourism industry, the demand for jet fuel has continued to grow, and the market size has been expanding year by year. Especially in China, the market size of jet fuel continues to grow. Data shows that the Chinese jet fuel market size is about 123.73 billion yuan in 2023, a year-on-year increase of 12.8%. In 2024, the size of China's jet fuel market exceeded 140 billion yuan.

The jet fuel market is gradually recovering and growing globally. Although the global jet fuel consumption declined significantly in 2020 due to the impact of the COVID-19, with the control of the epidemic, the global jet fuel consumption has been gradually recover from 2021. It is expected that by 2030, the global jet fuel market will reach 37.2 billion US dollars, with a CAGR of about 5.0%.

The main demand for jet fuel comes from the civil aviation and military aviation sectors. Among them, civil aviation is the main consumer of jet fuel in China, accounting for about 96.3%. With the recovery of the global aviation industry and the increase in passenger flow, the demand for jet fuel is expected to continue to rise. As a major producer and consumer of fuel, China has a relatively high supply capacity in the jet fuel market. In recent years, the export volume of jet fuel in China has been continuously increasing, demonstrating strong market supply capacity. For example, in 2023, the export volume of jet fuel in China was 15.85 million tons, a year-on-year increase of 45.3%; From January to April 2024, the export volume of jet fuel in China was 6.39 million tons, a year-on-year increase of 35.8%.

In the context of addressing global climate change, the International Air Transport Association (IATA) has proposed that the global air transport industry will achieve net zero-carbon emissions by 2050. “Replacing fossil fuels with bio-jet fuel is one of the effective ways to promote net zero-carbon emissions in the global aviation transportation industry, "said a person in charge of the Civil Aviation Administration of China.

Currently, over 45 airlines and 400000 flights worldwide have used bio-jet fuel.  According to statistics from Sinopec, based on the current annual consumption of over 30 million tons of jet fuel in China, if all have been replaced by bio-jet fuel, it can reduce carbon dioxide emissions by about 55 million tons per year, equivalent to planting nearly 500 million trees.

Compared to traditional jet fuel, bio-jet fuel can reduce carbon emissions by more than 50% throughout its entire lifecycle, and has become the main direction for global aviation carbon reduction.

In May 2022, "Bio-economy" was included in the “14th Five Year Plan”. The 14th Five Year Plan for Green Development of Civil Aviation issued by the Civil Aviation Administration of China clearly states that it aims to achieve a bio-jet fuel consumption of 50000 tons by 2025.

The International Civil Aviation Organization (ICAO) has set a goal to achieve 2% of global jet fuel consumption using bio-jet fuel by 2025, while ensuring that 1 billion passengers take bio-based hybrid flights.

(3) Current dissolving pulp market

Dissolving pulp is a chemically refined pulp with high cellulose content and low impurities obtained through chemical processing and purification. It is mainly derived from plants containing cellulose in nature through chemical treatment, and has the characteristics of high whiteness, uniform distribution of cellulose molecular weight, and good reactivity. From the perspective of the industrial chain, the upstream of dissolving pulp includes raw materials such as cotton short fibers, wood, biomass, etc; The midstream is for the production and supply of dissolving pulp; The downstream is the application field, which can be used to produce various cellulose derivatives and functional materials such as viscose fibers (viscose short fibers and viscose long fibers), nitrocellulose fibers, acetate fibers, etc. The application terminals involve industries such as clothing and textiles.

From 2019 to 2022, the release of new production capacity in China's dissolving pulp industry has been stagnant, with no new projects put into operation, and the overall production capacity remains at around 2.6 million tons. It is reported that there are only 7 companies with dissolving pulp production capacity, including Asia Symbol, Sun Paper, Hunan Juntai, Hubei Huanggang Chenming, Qingshan Paper, Anhui Huatai, and Shiyan Paper. Among them, Asia Symbol ranks first in production capacity, accounting for 46.15%; followed by Sun Paper Industry, accounting for 19.23%.

The production of dissolving pulp in China remained relatively stable from 2017 to 2019, maintaining above 1.5 million tons; Subsequently, due to factors such as the epidemic, insufficient wood supply capacity, high prices, and stricter environmental policies, the production of dissolving pulp in China has significantly declined, reaching 400000 tons in 2022, a year-on-year decrease of 20%; In 2023, with the increase of Chinese timber supply and the improvement of downstream demand for viscose staple fiber, its production has rebounded to 650000 tons, a year-on-year increase of 62.50%. Meanwhile, driven by downstream markets, the overall apparent demand for dissolving pulp in China remains above 3.7 million tons. After experiencing a two-year decline, the apparent demand rebounded in 2023, reaching 4.6164 million tons, a year-on-year increase of 23.19%.

Due to the insufficient supply and high prices of domestic timber resources, as well as the more important use of cotton short fibers (mainly for manufacturing shells and other explosives), the production of dissolving pulp is limited. At the same time, the downstream demand for dissolving pulp is high, which also leads to its production being much lower than the apparent demand. There is a significant production and demand gap in the market, which requires a large amount of imports to supplement.  Data shows that in recent years, the import volume of dissolving pulp in China has remained above 2.6 million tons and has shown an overall upward trend, reaching 3.9673 million tons in 2023, a year-on-year increase of 18.52%. Meanwhile, in recent years, China's dependence on foreign dissolving pulp has remained at a high level, reaching 85.92% in 2023.

(4) Green methanol market

As of June 27, 2024, there are a total of 102 green methanol projects planned globally, with a total planned production capacity of approximately 13.27 million tons per year. Most projects are still in the research and planning stage, with 11 projects in operation, 5 projects under construction, 13 projects in planning, and 73 projects in the announcement or feasibility stage. From a national distribution perspective, Spain, Denmark, and the United States are the three countries with the highest number of green methanol projects, with 13, 10, and 10 projects respectively. In terms of technical route, the electric methanol project dominates, followed by the biomass methanol project.

China is the world's largest consumer and producer of methanol, with a total methanol production capacity of 105 million tons in 2023, accounting for nearly 60% of the global total. Despite China's vast industrial system and huge domestic demand for methanol, it still relies on imports, with an estimated import volume of 14.55 million tons in 2023. Under the promotion of the Carbon Peaking and Carbon Neutrality Goals, China's green and low-carbon methanol projects have made rapid progress. As of the end of August 2024, China has accumulated over 90 green and low-carbon methanol projects, with a planned production capacity of over 24 million tons and a total investment of nearly 430 billion yuan. The projects that have already started are mainly small and medium-sized, mainly concentrated in the Northeast and Inner Mongolia regions, with wind power or wind/solar integration becoming the main source of electricity.

Green methanol, as a low-carbon fuel, has great potential in fields such as automotive fuel, fuel cells, marine fuel, and organic additives. The International Maritime Organization has adopted relevant emission reduction strategies to promote the application of green methanol in ship fuel. In addition, the production cost of green methanol is gradually decreasing, and with the reduction of green electricity costs and the expansion of production scale, its economy will be further improved.

1.1.3 Technical analysis

(1) Biomass jet fuel

Raw material acquisition - pretreatment - catalytic pyrolysis - separation of cellulose, hemicellulose, and lignin using new solvents - upgrading and refining of bio-jet fuel - detection and storage of products.

(2) Biomass dissolving pulp

Raw material collection - pretreatment - chemical soaking - separation of cellulose, hemicellulose, and lignin using new solvents - washing and impurity removal - bleaching and purification - pulping and dispersion - end products.

(3) Green methanol processing: Pretreatment - gasification reaction - synthesis reaction - separation and purification - storage and transportation.

1.1.4 Advantageous conditions of project construction

(1) Policy advantageous

In 2024, the National Energy Administration issued the Guiding Opinions on Energy Work in 2024, proposing to deeply implement the Carbon Peaking and Carbon Neutrality Goals tasks, vigorously promote the high-quality development of non-fossil energy, steadily promote the development of green and clean liquid fuels, orderly promote the innovation and industrialization of non-grain fuel ethanol technology such as cellulose, and focus on the pilot demonstration of bio-diesel promotion and application. The diversified development and utilization of biomass energy has been steadily promoted.

The Implementation Opinions on Comprehensively Promoting the Comprehensive Utilization of Straw (2023-2025) in 2023 clearly stipulate that through technological innovation, policy innovation, and institutional innovation, the construction of a long-term mechanism for comprehensive utilization of straw shall be accelerated, agricultural efficiency should be promoted, and farmers' income shall be increased. A new pattern of modernization construction with harmonious development between humans and nature shall be formed, and comprehensive resource conservation and circular utilization shall be promoted.

The Implementation Opinions of Jilin Provincial Department of Finance on Supporting Green and Low Carbon Development and Promoting Carbon Peak and Carbon Neutrality in 2023 clearly encourage the diversified development of biomass energy such as biomass power generation, biomass clean heating, and biogas.

The Investment Promotion Policy of Jilin City clearly states that the investment projects of Jilin City's Industrial Investment Guidance Fund shall comply with national and relevant industrial policies and development plans, with a focus on investing in tourism, medicine and health, aviation, information technology, new materials, advanced equipment manufacturing, biotechnology, energy conservation and environmental protection, new energy, cultural creativity, modern agriculture, modern service industry and other related industries in Jilin City's "6411" industrial plan, as well as other areas supported by the municipal government for development.  Guiding funds can adopt investment methods such as follow-up investment and direct investment, in addition to setting up sub funds through equity participation; Newly introduced investment projects that meet the conditions shall enjoy tax reductions and exemptions in accordance with the current national and provincial tax policies. For projects with a significant contribution rate in Jilin City, in accordance with the spirit of the Notice of the State Council on Relevant Matters Concerning Tax Preferential Policies (Guofa [2015] No. 25), relevant departments shall assist enterprises in applying for tax exemptions and reductions in accordance with the law and regulations; Special funds for the development of industrial enterprises shall be established to encourage the introduction of major projects in traditional industries such as chemical, automotive, metallurgical, and agricultural product processing in the "6411" industrial system that comply with national industrial policies, have strong industrial support, and have significant driving effects; The introduction of emerging industries such as medicine and health, new materials, advanced equipment manufacturing, and electronic information shall be encouraged. Such projects shall be given priority in the allocation of production factors and national and provincial special funds for support.

(2) Resource advantageous

The planned area of Longtan Economic Development Zone is 16.66 square kilometers, with a large stock of available land resources for development. The newly added and reserved land can meet the needs of new projects, and the land price is at a low level among 41 cities in Northeast China.

Jilin City has great potential for the development of resources such as hydro-power, wind energy, solar energy, biomass energy, and oil shale. The installed capacity of power sources in the city is 10 million kilowatts, with an additional 3.279 million kilowatts added during the 14th Five Year Plan period, an average annual growth rate of 8.3%. Among them, coal-fired power generation of 3.07 million kilowatts, accounting for 30.7%; Gas power generation of 860000 kilowatts, accounting for 8.6%; Wind power of 1.54 million kilowatts, accounting for 15.4%; Photovoltaic power generation of 700000 kilowatts, accounting for 7%; Hydro-power of 3.5 million kilowatts (3.2 million kilowatts of conventional hydro-power and 0.3 million kilowatts of pumped storage), accounting for 35%; Biomass power generation of 0.27 million kilowatts, accounting for 2.7%; Waste energy generation of 58000 kilowatts, accounting for 0.6%; The installed capacity of new and renewable energy accounts for 60.7% of the total installed capacity. It is expected that by 2025, the power generation will reach 20.63 billion kilowatt hours, and the total transformer capacity of urban and rural power grids will reach 4891.1 megavolt amperes.

Jilin City is an important grain production base in the province, with abundant resources of crop straw and forestry processing residues, and superior conditions for biomass energy utilization. Among them, the annual output of agricultural straw resources is 6.53 million tons, and the annual output of forestry resources is 1.5 million tons, both of which can be used for the development of biomass energy.

(3) Industrial advantageous

Longtan District has a strong industrial foundation. The first barrel of dye, the first bag of fertilizer, and the first furnace of calcium carbide in New China were born here. It is the cradle of New China's chemical industry and the eldest son of the Republic's chemical industry. It is one of the old industrial bases that was key to national construction during the "First Five Year Plan" period of New China and one of the largest chemical raw material production bases in the country. It is also the Changchun-Jilin-Tumen Industrial Zone of China's chemical industry, a national demonstration base for new industrialization industry, a national carbon fiber high-tech industrialization base, and the largest ABS production base in northern China. There are 25 sets of chemical production facilities ranking among the top three in China, including methyl methacrylate, acrylonitrile, ABS, styrene, styrene butadiene rubber, etc. 13 sets of chemical production facilities have the highest production capacity in the country, with an annual crude oil processing capacity of 10 million tons and an ethylene production capacity of 850000 tons.

Jilin Chemical Industry Circular Economy Demonstration Park and Longtan Economic Development Zone are home to several large industrial enterprises, including China Petroleum Jilin Petrochemical Company, Jilin Jianlong Iron and Steel Co., Ltd., Jilin Jiangbei Machinery Manufacturing Co., Ltd., Jilin Chenming Paper Industry Co., Ltd., and 73 large-scale or above industrial enterprises, forming two dominant industrial clusters with strong competitiveness in chemical and metallurgical industries. The industrial output value accounts for more than half of the city's total, and the position of the industrial core area is increasingly prominent.

The upstream materials of the project can cooperate with local raw material enterprises to ensure the completeness of the industrial chain and the supply of raw materials.

(4) Talent advantageous

There are 5 undergraduate colleges and 6 chemical research and design units in Longtan District, among which Jilin Petrochemical Research Institute and Jilin Petrochemical Design Institute of PetroChina Jilin Petrochemical Company are at an advanced level in the field of chemical research and design in China. These colleges provide a continuous supply of talent support for production enterprises.

At the same time, Jilin City has a large number of high-quality industrial and chemical workers. After training by enterprises and public welfare institutions, more than 10000 skilled talents are sent to the society every year, and more than 20000 people of various types are trained for the society. The advantage of labor resources is obvious, and the proportion of skilled workers is at a high level in the Northeast urban agglomeration. The labor force is in a dividend period, and the labor cost is relatively low. There is a large number of high-quality industrial workers who can meet the needs of various enterprises.

(5) Location and transportation advantageous

Jilin Longtan Economic Development Zone is located in the northwest of Jilin City, bordering Jiaohe City to the east, Fengman District to the southeast, Changyi District across the river to the south and west, and Shulan City to the north. It is situated in the middle of the Changchun-Jilin-Tumen Development and Opening Pilot Zone, within the radiation range of the Bohai Sea Economic Circle, and is no more than 100 kilometers away from the Changchun Economic Circle and Urban Circle. Longtan District covers an area of 1208.9 square kilometers. The Changchun-Hunchun Expressway has an entrance within the development zone. The development zone is 88 kilometers from Changchun City, 446 kilometers from Shenyang City, 861 kilometers from Dalian Port, 20 kilometers from Jilin Airport, 6.5 kilometers from Jilin Railway Station, and 1.5 kilometers from the Marshalling Yard Jilin North Station. The southern area of the development zone has built a highway network with Hanyang South Street and Xuzhou West Road as the main roads, and there is a dedicated railway line in the area. The convenient transportation environment provides strong support for the smooth flow of passenger and logistics within the development zone.

1.2 Contents and scale of project construction

1.2.1 Scale of project construction

This project covers an area of 400000 square meters, with an annual utilization of 1.5 million tons of straw, producing 190000 tons of jet fuel and 375000 tons of dissolving pulp; This project will produce 250000 tons of methanol, 3 million tons of saturated steam, and 21 megawatts of power generation.

1.2.2 Contents of project construction

The total construction area of the project is 550000 square meters, mainly including the construction of raw material storage plant, auxiliary material plant, processing workshop, jet fuel product workshop, dissolving pulp product workshop, cracking workshop, methanol storage center, power center, steam collection center, and supporting pipelines and other facilities.

1.3 Total investment of the project and capital raising

1.3.1 Total investment of the project

The total investment of the project is 6 billion yuan, including the construction investment of 4.68 billion yuan and working capital of 1.32 billion yuan.

1.3.2 Fundraising

Fundraising by enterprises independently.

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 11.53846 billion yuan, its profit will be 1.44231 billion yuan, its investment payback period will be 7.2 years (after the tax, including the construction period of 2 years) and its investment profit rate will be 24%.

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

1.4.2 Social evaluation

Biomass energy, as a renewable resource, has enormous potential for development. Jilin City can effectively utilize biomass resources such as agricultural waste by implementing high value-added comprehensive utilization projects, converting them into clean energy and bio-based products, thereby reducing dependence on fossil fuels and optimizing the energy structure. This not only helps alleviate the tight energy supply situation, but also reduces carbon emissions and promotes sustainable development in Jilin City and even the entire Jilin Province.

The comprehensive utilization project of high value-added biomass can expand agricultural functions and promote the extension of the agricultural industry chain.  By utilizing agricultural products and their waste to produce new energy and bio-based products, the added value of agricultural products can be increased, providing a new platform with unlimited market potential for agriculture. The project products include jet fuel, methanol, etc. The current selling price of jet fuel is about 8000 yuan/ton, with high added value and good economic returns for the project.  This project can not only transform the growth mode of agriculture and develop a circular economy, but also expand the transfer space of surplus rural labor, promote regional economic development and increase farmers' income.

The successful implementation of the high value-added comprehensive utilization project of biomass in Jilin City will have a demonstrative and leading effect on other regions. By showcasing the broad market prospects and economic benefits of biomass energy and bio-based products, it can stimulate the enthusiasm of more regions and enterprises to participate in the development and utilization of biomass energy, and promote the rapid development of the national biomass energy industry.

1.5 Cooperative way

Joint venture, other methods can be discussed offline.

1.6 What to be invested by the foreign party

Funds, other methods can be discussed offline.

1.7 Construction site of the project

Longtan Economic Development Zone, Jilin City, Jilin Province.

1.8 Progress of the project

This project is in the stage of external investment promotion.

2 Introduction to the Partner

2.1 Basic information

Name: Jilin City Longtan Economic Development Zone Management Committee

Address: Longtan Economic Development Zone, Jilin City, Jilin Province.

2.2 Overview

Longtan Economic Development Zone is located in the northern part of Jilin City, within the boundaries of Longtan District. It is a leading pilot for the development and opening up of Changchun-Jilin-Tumen area, and an important support area for the integration strategy of Changchun-Jilin-Tumen area. The main industries are metallurgy, chemical engineering, new materials, and high-end equipment manufacturing. In 2023, the total industrial output value of the development zone will reach 19.1 billion yuan.

2.3 Contact method

Postal code: 132000

Contact person: Yu Xueming

Tel: +86-13704316345

E-mail: 804196585@qq.com

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

Contact unit: Investment Promotion Service Center of Jilin Municipal Bureau of Commerce

Contact person: Jiang Yuxiu

Tel: +86-432-62049694    

   +86-15804325460

E-mail: jlstzcjfwzx@163.com