brief introduction:
High-density fuel refers to saturated polycyclic hydrocarbons with a density greater than 0.85 g·cm-3 synthesized through polymerization, hydrogenation, isomerization and other processes using petroleum-based, coal-based and biomass-based hydrocarbons as raw materials. It is widely used in the aerospace field. Due to the high density and volume calorific value of high-density fuel, an aircraft can carry a greater mass of fuel and a greater total volume energy under a certain fuel tank volume, which helps to realize the miniaturization, large load, high speed and long-distance of the aircraft. voyage.
In the 1970s, the United States developed JP-10 fuel, whose main component is JP-10 fuel (exoTHDCPD, >98.5%). JP-10 fuel is currently the most representative high-density fuel. Its main component is JP-10 fuel (exo-THDCPD), which is hydrogenated by dicyclopentadiene (DCPD), a dimer of cyclopentadiene (CPD). It is obtained by further separation and purification after isomerization.
JP-10 has a wide range of raw material sources and low synthesis costs, making it the most widely used, largest consumption, and best overall performance high-density fuel.
Major domestic research institutions on JP-10 fuel include China Petroleum & Chemical Corporation, China Petroleum & Chemical Corporation, Shanghai Petrochemical Research Institute, China Chemical Science and Technology Research Co., Ltd., Zhongke Synthetic Oil Technology Co., Ltd., Dalian Institute of Chemical Physics, etc. Domestic companies that can produce JP-10 fuel include Hangzhou Yangli Industrial Co., Ltd. and Puyang Lianzhong Xingye Chemical Co., Ltd.
In addition, JP-10 fuel is also an important chemical raw material in the pharmaceutical industry, synthetic rubber, organic synthesis and other fields. The market demand for JP-10 fuel has good prospects.
Chapter 1 JP-10 Fuel Industry Overview
Section 1 JP-10 Fuel Overview
1. Overview of high-density fuel
2. Overview of dicyclopentadiene
3. Overview of tetrahydrodicyclopentadiene
4. Overview of JP-10 fuel
Section 2 JP-10 Fuel Development Characteristics
Chapter 2 China JP-10 Fuel Environment Analysis in 2023
Section 1 Analysis of my country’s Economic Development Environment
Section 2 JP-10 Fuel Policy Environment
Chapter 3 Analysis of China’s JP-10 Fuel Technology Development
Section 1 Current Research Progress in DCPD Catalytic Hydrogenation
1. Hydrogenation reaction mechanism
2. Hydrogenation process
3. Hydrogenation Catalyst
Section 2 Research Progress on Catalytic Isomerization of JP-10 Fuel
1. Isomerization reaction mechanism
2. Isomerization process
3. Isomerization catalyst
Section 3 Current JP-10 Fuel Synthesis Process
1. “One-pot” synthesis process of exo-THDCPD
2. Hydrogenation and isomerization liquid phase series process
Section 4: Current Green Research on JP-10 Fuel Synthesis Process
Section 5 Strategies to Improve China’s JP-10 Fuel Technology
Chapter 4 Analysis of JP-10 Fuel Market Characteristics
Section 1 Concentration JP-10 Fuel and Forecast
Section 2 SWOTJP-10 Fuel and Forecast
1. Advantages of JP-10 fuel
2. Disadvantages of JP-10 fuel
3. Opportunity JP-10 fuel
4. Risk JP-10 Fuel
Chapter 5 Current Status of China’s JP-10 Fuel Related Products
Section 1 China’s dicyclopentadiene (DCPD) market development status
1. Dicyclopentadiene (DCPD) product overview
2. Dicyclopentadiene (DCPD) market analysis
3. Dicyclopentadiene (DCPD) market forecast
Section 2 China’s polydicyclopentadiene (PDCPD) market development status
1. Overview of polydicyclopentadiene (PDCPD) products
2. Polydicyclopentadiene (PDCPD) market analysis
Section 3 Current Development Status of China’s Adamantane Market
Chapter 6 China’s JP-10 Fuel Research Institutions and Enterprises
Section 1 Dalian Institute of Chemical Physics, Chinese Academy of Sciences
1. Company Profile
3. JP-10 fuel route analysis
Section 2 Hangzhou Yangli Industrial Co., Ltd.
1. Company Profile
2. Analysis of enterprise competitive advantages
3. Progress in JP-10 fuel research
Section 3 Puyang Lianzhong Xingye Chemical Co., Ltd.
1. Company Profile
2. Analysis of enterprise competitive advantages
3. Progress in JP-10 fuel research
Chapter 7 JP-10 Fuel Investment Suggestions
Section 1 JP-10 Fuel Investment Environment
Section 2 Analysis of entry barriers to JP-10 fuel investment
1. Industry entry barriers
2. Technology and talent barriers
3. Financial barriers
Section 3 JP-10 Fuel Investment Suggestions
Chapter 8 China’s JP-10 fuel future development forecast and investment prospect analysis
Section 1 Analysis of future development trends of JP-10 fuel industry
Section 2 JP-10 fuel investment recommendations from 2023 to 2029
Chapter 9 Industry experts’ suggestions and opinions on China’s JP-10 fuel investment
Section 1 Investment Opportunities JP-10 Fuel
Section 2 Investment Risks JP-10 Fuel
1. Market application risks
2. Technical risks
3. Safety production risks
Section 3 Industry Response Strategies