The medical purification system integration business is the practical application of air cleaning technology in the construction of medical facilities, using air cleaning technology, and combined with the relevant specifications of engineering and hygiene, to provide customized design and integration services for various systems of special clean departments of hospitalsAir cleanliness, bacterial concentration, temperature, humidity, static pressure difference, air volume, noise, illuminationand other key environmental indicators are controlled within the standard range, so as to achieve the purpose of reducing the infection rate of patients.
(1) The development of clean air technology
Clean air technology originated in the 50s of the 20th centuryKorean WarChina and the United States found that a large number of their electronic instruments were malfunctioning, and in the end, the US military found that the main cause was dust, which contributed to the beginning of clean air technology, especially the birth of high-efficiency filters. SubsequentlyAerospace business, integrated circuits, pharmaceutical productionIn the late 70s and early 80s of the 20th century, the United States and Japan developed 0The 1 m class ultra-high efficiency filter makes it possible to build a high-level clean room.
(2) The application of clean air technology to the construction of medical facilities
In the 60s of the 20th century, clean air technology began to be introduced into the field of medical facility construction. In January 1966, the world's first hospital clean operating room was built in the United States using clean air technology. In the 80s of the 20th century, the use of air cleaning technology to build medical clean rooms has become the standard specification for hospital construction in developed countries in Europe and the United States, and has achieved remarkable results in reducing nosocomial infections.
Among the many sources of infection,Airborne particles, microorganismsIt is a major risk factor. Before the application of clean air technology to the operating room, the main means of controlling surgical infection in the traditional operating room were chemical disinfection and simple ventilation, and the common way was spraying disinfectant or ultraviolet irradiation disinfection.
The traditional disinfection method focuses on infection control before and after surgery, and the patient's wound is exposed to bacteria, viruses and other environments during the operation, and more antibiotic drugs need to be injected into the patient after the operation, which is not conducive to the patient's health, and has limited effect in reducing the patient's infectionThe clean operating room uses clean air technology to perform the operation environmentSterilization, temperature and humidity adjustment, fresh air adjustmentand so on, so that the operating room is always kept clean, temperature and humidity in an appropriate state, to eliminate the harm of air suspended matter pollution to the surgical patient to the greatest extent, improve the success rate of the operation, effectively reduce the infection rate, and reduce the use of postoperative drugs for patients.
(3) The development and application of medical air cleaning technology in China
The development of China's medical purification industry has gone through the stages of start-up, initial development and rapid development, and is still in the stage of promotion and application of medical facility construction.
Introduction of the initial stage (late 80s of the 20th century to 2002).
In 1989, Shanghai Changzheng Hospital built the first clean operating department in China. In 1995, Beijing 301 Hospital built the second clean operating department in China, which was designed by experts from the Architectural Design and Research Institute of the General Logistics Department of the People's Liberation Army with reference to the European operating room construction standards, and the Beijing Aerospace Industry Corporation, which was originally engaged in the construction of clean workshops, was responsible for the implementation of the project.
From 1989 to 1990, there was no infection in 9,337 Class I surgeries performed in the clean operating room of Shanghai Changzheng Hospital, and none of the 16,427 Class I surgeries performed in Beijing 301 Hospital from 1995 to 1996.
In 1995, the Architectural Design and Research Institute of the General Logistics Department of the People's Liberation Army promulgated the "Technical Specifications for the Construction of Clean Operating Departments of Military Hospitals" (YFB001-1995), and the key hospitals in the areas of rapid economic development in China also began the pilot construction of clean operating departments, and enterprises specializing in medical purification came into being, among them, the most representative enterprises are Jiangsu Jiuxin Medical Technology Co., Ltd. was established in 1995), Shanghai Meihe Medical Engineering Co., Ltd. was established in 1998), Hainan Lingjing Medical Purification Project*** was established in 2000).
Around 2000, Jiangsu Jiuxin and Shanghai Meihe introduced the construction technology of the Japanese clean operating room into China, and Hainan Lingjing introduced the construction technology of the British clean operating room into China.
Initial development phase (2002 to 2012).
In 2002, the Ministry of Health of the People's Republic of China promulgated the "Technical Code for the Construction of Clean Operating Departments in Hospitals" (GB50333-2002), which was compiled on the basis of referring to the construction specifications of clean operating rooms in developed countries such as Europe, America and Japan, marking the official promotion and application of air cleaning technology to the construction of operating rooms in hospitals in China. In 2009, the Ministry of Health issued the Guidelines for the Construction and Management of Intensive Care Medicine (Trial) and the Management Specifications for Hospital Disinfection Centers, and in 2012, the national standard Hospital Disinfection and Hygiene Standards was updated.
With the promulgation of national standards and specifications for the medical purification industry, the market of the domestic medical purification industry began to appear, and as a result, enterprises specializing in medical purification emerged, such as Jiangsu Jiuxin, Shangrong Medical (founded in 1998), Suzhou Huadi (founded in 2000), Shenzhen Huijian (founded in 2003), Wuhan Huakang (2008) and other enterprises have become the main undertaking enterprises of medical purification projects. In addition, a small number of enterprises in the decoration industry, industrial clean room construction industry and other industries began to try to expand the medical purification industry-related business, but due to the high technical threshold, only Jiangsu Huanya Medical Technology Group Co., Ltd. Xi'an Sideng Environmental Technology Co., Ltd. and other enterprises have succeeded in developing the medical purification business.
In November 2008, in response to the international financial crisis, the company launched a financial plan to further expand domestic demand and promote steady and rapid economic growth, including many medical infrastructure construction projects, which further promoted the development of the medical purification industry.
Rapid development phase (after 2013).
In 2013, the national health department and the housing and urban development department updated and revised the "Technical Code for the Construction of Clean Operating Departments in Hospitals" (GB50333-2002), and the newly compiled 2013 edition adopted comprehensive measures of purification technology through comprehensive control, whole process control and key point control concepts, taking into account the current situation and development trend of the operating room, and adopted comprehensive measures of purification technology, which not only effectively controlled the surgical environment from the aspects of technology, construction, wind, water and electricity, but also reduced potential exogenous ** dyeing risk, but also from many aspects of energy saving and consumption reduction measures. In 2014, the Code for Architectural Design of General Hospitals GB51039-2014 was issued, and the relevant codes of other departments were gradually promulgated, which played a new role in promoting the construction of the medical environment and formed a larger-scale construction demand.
The application scope of the medical purification industry has been further extended from operating rooms, ICUs, and disinfection centers to fertility centers, delivery rooms, blood wards, DSAs, venous configuration centers, laboratory departments and many other departments, and the market area has gradually expanded from the eastern and southern coastal developed areas to other regions such as the central region, and the customer group has gradually expanded from the first hospital to other hospitals such as secondary hospitals.
With the expansion of the market scale, the medical purification industry has formed core enterprises such as Jiangsu Huanya, Dashi Jiuxin, Wuhan Huakang, Xi'an Sizeng, Shenzhen Huijian, Suzhou Huadi and other core enterprises through market competition, occupying the main market share of large domestic hospitalsAt the same time, there are also a large number of small medical purification companies across the country, due to industry experience, technical level and other factors, the business scale development is generally small, with local small and medium-sized hospitals as customer groups.
Compared with foreign developed countries and regions, there is still a certain gap in the popularity of medical clean rooms, and the domestic medical purification industry has good development potential and market space.
(4) The new characteristics of China's medical purification industry
The importance of medical infections has been strengthened, and the scope of application of clean technology has been expanded
Since 2019, the construction of China's public health system has exposed many deficiencies, such as the unreasonable location selection, functional zoning and process design of fever clinics, the serious shortage of observation rooms and negative pressure wards, the serious shortage of oxygen in negative pressure isolation wards, and the uncontrolled pressure gradient, etc., which have fully exposed the serious shortage of emergency medical facilities in China when major public health events occur.
In order to build a new public health prevention and control system, improve the quality of medical services and strengthen the construction of high-quality hospitals, encouraging policies and measures have been introduced across the country. The construction plan of the hospital to integrate the epidemic has been widely promoted. The combination of epidemic prevention and control not only meets the strict process control requirements during the epidemic, but also takes into account the use needs and convenience of the usual department, and avoids demolition and modification when infectious diseases come, and quickly converts.
With the increasing attention of medical institutions to medical infection, combined with the mature application of clean technology in the field of operating rooms and ICUs, more and more hospitals have begun to choose to expand the scope of departments for the application of clean technology, from the original operating room and ICU to the disinfection center, laminar flow ward, laboratory department (PCR laboratory), venous configuration center, reproductive medicine center, delivery room, hemodialysis center, preparation room, DSA, negative pressure ward and other departments or fields. The strengthening of the attention to medical infections has promoted the construction of a new common health system and greatly promoted the application of clean medical technology in China's medical system.
In July 2022, the National Development and Reform Commission (NDRC) issued the 14th Five-Year Plan for New Urbanization, which proposes to gradually improve the medical level of public hospitals, enhance the diagnosis and treatment capacity of primary medical and health institutions, and form a close-knit urban medical group.
In December 2022, the National Development and Reform Commission (NDRC) issued the "Implementation Plan for the 14th Five-Year Plan for Expanding Domestic Demand", which proposes to improve the infrastructure and equipment conditions of disease control institutions, accelerate the construction of national medical centers and regional medical centers, improve the infrastructure conditions of county-level hospitals and maternal and child health care institutions at all levels, strengthen the infrastructure and service capacity building of township health centers and village clinics in the central and western regions, and strengthen the construction of nursing homes (centers, stations) and hospitals according to local conditions. The continuous introduction of national policies has provided new opportunities for the development of the medical purification industry.
Medical purification technology is integrated with other new technologies
Smart hospital is a comprehensive application of medical Internet and Internet of Things, data fusion transmission and exchange, cloud computing, artificial intelligence and other technologies, through the integration of information technology and IT infrastructure construction, with the medical system data center as the core, across the original hospital medical system and other limitations of time and space, to achieve the optimization of hospital medical services in the medical system, is an important part of the construction of smart cities. The functional scope of smart hospital covers smart medical care for medical staff, smart service for patients, and smart management for hospitals, which is an organic combination of information system, scenario-based system and Internet application.
With the increasing aging of the global population and the increasing shortage of medical resources, the rapid transformation of China's hospital construction to smart hospitals, the demand for hospital informatization and intelligent construction has risen rapidly, and the construction of new hospitals, large-scale medical centers and the upgrading of existing hospitals have also increased rapidly.
Compared with smart healthcare, the traditional medical industry has fragmented medical systems, isolated medical information islands, and medical resources are in short supply. Specifically, it is manifested in aging technology, outdated concepts, difficulty in realizing Internet and mobility, weak service capabilities of manufacturers, difficulty in realizing structural upgrades and updates in the system, and inability to obtain timely responses. Therefore, various departments have actively launched policies to promote the development of smart healthcare, and the next few years will be a period of rapid development of China's smart medical construction.
In the "Comprehensive Evaluation Index of Smart Hospitals (2015 Edition)", the application and influencing factors of smart hospitals were analyzed and establishedInfrastructure, smart patients, smart medical care, smart nursing, smart medical technology, smart management, smart logistics, smart support, smart scientific research, smart teachingand other indicator systems to guide the intelligent construction of hospitals. In the "Hospital Smart Service Grading and Evaluation Standard System (Trial)", hospitals are guided to build a smart service information system with practical functions, information sharing, and intelligent services, improve patients' medical experience, and carry out efficient and continuous pre-diagnosis, diagnosis, and post-diagnosis medical services.
In June 2021, the "Opinions on Promoting the High-quality Development of Public Hospitals" was issued, proposing to strengthen the supporting role of informatization. Promote the deep integration of next-generation information technologies such as cloud computing, big data, Internet of Things, blockchain, and fifth-generation mobile communications (5G) with medical services. Promote the construction of smart hospitals and the standardization of hospital information in the "trinity" of electronic medical records, smart services and smart management.
In July 2021, the state and other four departments jointly promulgated the "Implementation Plan for the Construction of a High-quality and Efficient Medical and Health Service System in the 14th Five-Year Plan", proposing to build an internationally advanced smart hospital, build a major disease data center, and promote information interconnection, mutual recognition and sharing, data standardization and data integration management, so as to provide strong support for the high-quality development of hospitals. It proposes to make in-depth use of 5G, artificial intelligence and other technologies to build a smart hospital at the international advanced level, and build a major disease data center to provide strong support for the high-quality development of hospitals.
The development path of China's medical informatization is becoming clearer and clearer, showing an accelerated development trend, the trust mechanism between patients and doctors, the medical quality monitoring mechanism, etc., the income mode of smart medical care, and the connection with medical insurance have begun to be effective, as well as policies such as hierarchical diagnosis and treatment, multi-site practice of doctors, cancellation of hospital establishment, and medical service reform will also promote the rapid expansion of the smart medical industry.
The 14th Five-Year Plan is proposed, focusedEducation, medical care, elderly care, child care, employment, culture and sports, and assistance for the disabledand other key areas, promote the inclusive application of digital services, and continue to enhance the public's sense of gain. Smart hospitals are not only the main body serving the demand side (i.e., patients), but also the main body serving the supply side (i.e., medical staff and hospital managers).
In 2021, the application scale of smart hospitals in China will reach 75.4 billion yuan, and the market size is expected to reach 173.7 billion yuan in 2027, with a compound annual growth rate of 1492%, there is still huge room for development in the future.
Prefabricated medical clean construction projects are rapidly emerging
The prefabricated medical clean construction project refers to the design and production of supporting parts and equipment in combination with the customer's usage habits under the premise of meeting the national norms and clean requirements, and transforming the traditional medical clean construction project into a product assembled in the form of an integrated body, which is mainly used in the maintenance structure, purification system and supporting system of the hospital operating room and other clean rooms. In addition, the demand for prefabricated medical clean construction in various medical laboratories is also increasing. The prefabricated medical clean construction project mainly has the characteristics of "industrial customized production, on-site rapid assembly, variable space function, green environmental protection and energy saving, and cost investment saving".
With the development of the demand for prefabricated medical clean construction, the relevant industry standards are also constantly improving. In 2018, the Medical Clean Equipment Engineering Branch of China Medical Equipment Association compiled the "Medical Clean Equipment Engineering Implementation Guide", which comprehensively, scientifically and systematically introduced the medical clean equipment project from four aspects: medical technology, infection control, construction management and project implementation.
In 2019, the Chinese Society for Urban Studies issued the Technical Standard for Integrated Prefabricated Interior Decoration of Medical Buildings, which is applicable to the new construction, renovation and expansion of hospitals, and provides clearer and more practical technical specifications for the application of prefabricated technology in hospital construction. In 2020, the "Technical Regulations for Prefabricated Clean Operating Rooms" was officially implemented, which can be used to guide the standardization system of biological laboratory engineering construction, and play a promoting role in standardizing the engineering and technical quality of prefabricated clean operating rooms and promoting the development and progress of prefabricated building technology. The introduction of these guidelines and standards has further promoted the healthy development of prefabricated medical clean construction.
In 2022, the Ministry of Housing and Urban-Rural Development issued the "14th Five-Year Plan for Building Energy Conservation and Green Building Development", which requires that by 2025, new urban buildings will be fully built into green buildings, and the proportion of prefabricated buildings in new urban buildings will reach 30% that year, and by 2025, China's new prefabricated construction area will reach 165.1 billion square meters, the market size will reach 36 trillion yuan. As an important application scenario of prefabricated buildings, the market scale will expand rapidly, whether it is the construction of new medical clean projects or the transformation of existing medical clean projects.
The construction of the laboratory is growing rapidly
Technological competition is becoming increasingly fierce on a global scale, and scientific and technological innovation has become a key force in reshaping the international landscape. According to the 2022 Statistical Communiqué on National Economic and Social Development, China's annual expenditure on research and experimental development (R&D) was 3,087 billion yuan, an increase of 10 percent over the previous year4% to GDP ratio of 255%, of which $195.1 billion was spent on basic research.
As an important part of the scientific and technological innovation system, the laboratory is an important base for organizing high-level research and an important platform for the development of key technologies. The "14th Five-Year Plan" clearly proposes to "promote the optimal combination of innovation systems guided by national strategic needs, and accelerate the construction of strategic scientific and technological forces led by national laboratories".
Beijing, Tianjin, Shanghai, Chongqing, Hebei, Inner MongoliaThe "14th Five-Year Plan" for scientific and technological innovation in 29 provinces (municipalities and autonomous regions) has been released one after another, and the construction of laboratories has been continuously increased. Laboratory construction involves:Waterways, circuits, purification, safety, intelligenceand so on, different labs usually pairTemperature, humidity, cleanliness, bacterial concentration, static pressure difference, airflow structure, wind speed, noise, illuminationand other key indicators have different requirements. With the continuous investment in scientific research, the laboratory has become an important field for the integrated application of clean systems.
Chapter 1 Overview of the Development of Medical Purification System Industry
Section 1 Definition and classification of medical purification system industry.
1. Industry definition.
Second, the main classification of the industry.
Third, the characteristics of the industry.
Section 2 Statistical Standards for Medical Purification System Industries.
1. Statistical departments and statistical calibers.
2. Introduction to the main statistical methods of the industry.
3. Introduction to the types of data covered by the industry.
Section 3 Analysis of economic indicators of China's medical purification system industry in the last 3-5 years.
1. Profitability.
Second, the growth rate.
Third, the added value of the room for improvement.
4. Barriers to entry and exit mechanisms.
1. Technical barriers.
2. Channel barriers.
3. Market access barriers.
4. Barriers to the amount of necessary capital.
5. Exit barriers.
5. Risk.
Sixth, the industry cycle.
7. Indicators of competition intensity.
8. Maturity analysis of the industry and its main sub-sectors.
Chapter 2 Market Environment and Impact Analysis (PEST) of Medical Purification System Industry
Section 1 Political and Legal Environment of the Medical Purification System Industry (P).
First, the main policies and regulations of the industry.
Second, the impact of the policy environment on the industry.
Section 2 Analysis of the economic environment of the industry (e).
1. Analysis of the current situation of economic development.
Second, the main problems of the current economy.
3. Future economic operation and policy outlook.
Fourth, the impact of the macroeconomic environment on the industry analysis.
Section 3 Analysis of the social environment of the industry (S).
1. The social environment of the medical purification system industry.
1. Population and environmental analysis.
2. Analysis of educational environment.
3. Analysis of cultural environment.
4. Ecological environment analysis.
5. China's urbanization rate.
Second, the impact of the social environment on the industry.
Section 4 Analysis of the technical environment of the industry (t).
1. Technical analysis of medical purification system.
Second, the main technology development trend of the industry.
3. The impact of the technological environment on the industry.
Chapter 3 Analysis and experience of the development of the international medical purification system industry
Section 1 Analysis of the overall situation of the global medical purification system market.
1. Overview of the development of the global medical purification system industry.
2. Global medical purification system market structure.
3. Characteristics of the development of the global medical purification system industry.
Fourth, the global medical purification system industry competition pattern.
5. Regional distribution of the global medical purification system market.
6. Analysis of the operation of international key medical purification system enterprises.
Section 2 Global Market Analysis of Major Countries (Regions).
1. Europe. 2. North America.
3. Japan. Fourth, South Korea.
5. Other countries and regions.
Chapter 4 Analysis of the operation status of China's medical purification system industry
Section 1 Analysis of the development status of China's medical purification system industry.
First, the development stage of China's medical purification system industry.
Second, the overall development of China's medical purification system industry.
3. Analysis of the development characteristics of China's medical purification system industry.
4. Analysis of the business model of China's medical purification system industry.
Section 2 The development status of the medical purification system industry.
First, the market size of China's medical purification system industry.
2. Analysis of the development of China's medical purification system industry.
3. Analysis of the development of China's medical purification system enterprises.
Section 3 Analysis of the Medical Purification System Market.
1. Overall overview of China's medical purification system market.
2. Analysis of the development of China's medical purification system market.
3. Analysis of supply and demand in China's medical purification system market.
Chapter 5 Analysis of the overall operation indicators of the industry to which China's medical purification system belongs
Section 1 Analysis of the overall scale of the industry to which China's medical purification system belongs.
1. Analysis of the number and structure of enterprises.
Second, the analysis of the size of the staff.
3. Analysis of the scale of industry assets.
Fourth, the industry market size analysis.
Section 2 Overall Analysis of Financial Indicators of China's Medical Purification System Industry.
1. Analysis of the profitability of the industry to which China's medical purification system belongs.
1. The sales profit margin of the industry to which China's medical purification system belongs.
2. The cost and profit margin of the industry to which China's medical purification system belongs.
3. The loss side of the industry to which China's medical purification system belongs.
2. Analysis of the solvency of the industry to which China's medical purification system belongs.
1. The asset-liability ratio of the industry to which China's medical purification system belongs.
2. The interest protection multiple of the industry to which China's medical purification system belongs.
3. Analysis of the operating capacity of the industry to which China's medical purification system belongs.
1. The accounts receivable turnover rate of the industry to which China's medical purification system belongs.
2. The total asset turnover rate of the industry to which China's medical purification system belongs.
3. The turnover rate of current assets in the industry to which China's medical purification system belongs.
Fourth, the analysis of the development capacity of the industry to which China's medical purification system belongs.
1. The growth rate of the total assets of the industry to which China's medical purification system belongs.
2. The growth rate of the total profit of the industry to which China's medical purification system belongs.
3. The growth rate of the main business income of the industry to which China's medical purification system belongs.
4. The capital preservation and appreciation rate of the industry to which China's medical purification system belongs.
Chapter 6 2017-2021 Medical Purification System Industry Competition Situation
Section 1 Analysis of the overall market competition in the industry.
1. Analysis of the competitive structure of the medical purification system industry.
1. Competition between existing enterprises.
2. Analysis of potential entrants.
3. Threat analysis of substitutes.
4. Bargaining power.
5. Customer bargaining power.
6. Summary of the characteristics of the competitive structure.
2. Analysis of the competition pattern between enterprises in the medical purification system industry.
3. Analysis of the concentration of the medical purification system industry.
Fourth, SWOT analysis of medical purification system industry.
1. Analysis of the advantages of the medical purification system industry.
2. Analysis of the disadvantages of the medical purification system industry.
3. Opportunity analysis of medical purification system industry.
4. Threat analysis of medical purification system industry.
Section 2 Overview of the Competition Pattern of China's Medical Purification System Industry.
1. Competition in the medical purification system industry.
2. Analysis of the competitiveness of China's medical purification system industry.
3. Analysis of the competitiveness of major enterprises in the medical purification system industry.
Section 3 Analysis of the Competition Pattern of the Medical Purification System Industry.
1. Competitive analysis of medical purification systems at home and abroad.
2. Analysis of competition in China's medical purification system market.
3. Analysis of the market concentration of China's medical purification system.
Fourth, the trend of major domestic medical purification system enterprises.
5. Analysis of projects under construction by domestic medical purification system enterprises.
Section 4 Analysis of mergers and acquisitions in the medical purification system industry.
Chapter 7 2017-2021 analysis of the business situation of leading enterprises in the medical purification system industry
Section 1 Analysis of the overall development status of China's medical purification system enterprises.
Section 2 Analysis of the Business Situation of China's Leading Medical Purification System Enterprises.
1. Shangrong Medical.
1. Enterprise profile.
2. Analysis of the main business of the enterprise.
3. Analysis of business operation.
4. Analysis of the advantages and disadvantages of the enterprise.
Second, Dashi intelligence.
1. Enterprise profile.
2. Analysis of the main business of the enterprise.
3. Analysis of business operation.
4. Analysis of the advantages and disadvantages of the enterprise.
3. Hejia Medical.
1. Enterprise profile.
2. Analysis of the main business of the enterprise.
3. Analysis of business operation.
4. Analysis of the advantages and disadvantages of the enterprise.
Fourth, Huakang Medical.
1. Enterprise profile.
2. Analysis of the main business of the enterprise.
3. Analysis of business operation.
4. Analysis of the advantages and disadvantages of the enterprise.
Chapter 8 2022-2027 Medical Purification System Industry Prospects and Investment Value
Section 1 The current situation and future of the five-year plan of the medical purification system industry.
Section 2 2022-2027 Medical Purification System Market Development Prospects.
1. The development potential of the medical purification system market from 2022 to 2027.
2. Prospects for the development of the medical purification system market from 2022 to 2027.
3. Analysis of the development prospects of the medical purification system subdivision industry from 2022 to 2027.
Section 3 2022-2027 Medical Purification System Market Development Trend**.
1. The development trend of the medical purification system industry from 2022 to 2027.
2. The market size of medical purification systems from 2022 to 2027**.
3. Application trend of medical purification system industry from 2022 to 2027**.
Section 4 Analysis of investment characteristics of medical purification system industry.
1. Analysis of entry barriers to the medical purification system industry.
2. Analysis of profit factors in the medical purification system industry.
3. Analysis of the profit model of the medical purification system industry.
Section 5 Influencing factors for the development of the medical purification system industry from 2022 to 2027.
1. Favorable factors.
2. Unfavorable factors.
Section 6 2022-2027 Medical Purification System Industry Investment Value Evaluation and Analysis.
1. Analysis of industry investment benefits.
Second, the blank spot analysis of industrial development.
Third, the investment direction with a relatively high return on investment.
4. Obstacles that new entrants should be aware of.
Chapter 9 Investment Opportunities and Risk Prevention in the Medical Purification System Industry from 2022 to 2027
Section 1 Investment and financing of the medical purification system industry.
Section 2 Investment opportunities in the medical purification system industry from 2022 to 2027.
Section 3 2022-2027 Medical Purification System Industry Investment Risks and Prevention.
Section 4 Investment Suggestions for China's Medical Purification System Industry.
First, the future development direction of the medical purification system industry.
Second, the main investment suggestions in the medical purification system industry.
3. Financing analysis of China's medical purification system enterprises.
Chapter 10 Research on the Development Strategy of Medical Purification System Industry
Section 1 Research on the development strategy of the medical purification system industry.
Section 2 Strategic Thinking on the Brand of China's Medical Purification System.
Section 3 Analysis of the business strategy of the medical purification system.
Section 4 Research on the investment strategy of the medical purification system industry.
Chapter 11 Conclusions and Development Recommendations
Section 1 Research conclusions and suggestions of the medical purification system industry.
Section 2 Research conclusions and suggestions on medical purification system related industries.
Section 3 Suggestions for the Development of Medical Purification System Industry (HJ LZX).
1. Suggestions on industry development strategies.
2. Suggestions on the direction of industry investment.
3. Suggestions on industry investment methods.