Guangzhou Cleanroom Construction Co., Ltd. company cases

In today's era of continuous development in the biotech field, the cell engineering laboratory, as a crucial venue for cell research, development, and application, has its rationality and scientific nature of design directly influencing the quality and efficiency of research results. As Guangzhou Cleanroom Construction Co., Ltd., which specializes in the production of purification equipment, we will delve deep into the key points and crucial aspects of cell engineering laboratory design with you today. I. The Significance of Cell Engineering Laboratory Design Cell engineering experiments involve complex processes such as cell culture, cell manipulation, and cell detection, and have extremely strict requirements for the experimental environment. A well - designed cell engineering laboratory can provide a stable, clean, and safe space for experiments, reduce the interference of external factors on cell experiments, ensure the accuracy and repeatability of experimental data, and lay a solid foundation for research and applications in the field of cell engineering. II. Functional Area Division 1. Preparation Area This is the area for pre - experimental preparation work, including the cleaning, drying, and sterilization of glassware, as well as the preparation and dispensing of reagents. The preparation area should be equipped with sufficient sinks, cleaning equipment, drying ovens, sterilizers, etc., to ensure the cleanliness and sterility of experimental utensils and reagents. 2. Cell Culture Area Cell culture is the core link of cell engineering experiments and requires strict control of environmental parameters such as temperature, humidity, and CO₂ concentration. This area should be equipped with professional cell culture incubators, laminar flow hoods, microscopes, and other equipment to ensure that cells grow and reproduce in the optimal environment. Laminar flow hoods can provide a local sterile environment and prevent cells from being contaminated by microorganisms. 3. Cell Manipulation Area It is used for operations such as cell passage, transfection, and sorting. This area also needs to maintain a high level of cleanliness. In addition to laminar flow hoods, it may also be necessary to equip precision instruments such as centrifuges and pipettes. A reasonable layout of the operation space can improve experimental efficiency and reduce the risk of cross - contamination during operations. 4. Detection and Analysis Area It is mainly used for the detection and analysis of cell morphology, viability, gene expression, etc. Equipped with advanced detection equipment such as flow cytometers, PCR instruments, and microplate readers, this area must ensure good power supply and stable environmental conditions to ensure the accuracy of detection results. III. Key Points of Environmental Control 1. Cleanliness Cell engineering experiments have extremely high requirements for cleanliness, generally requiring a cleanliness standard of class 10,000 or even higher. By reasonably designing the purification air - conditioning system and using high - efficiency air filters, dust particles and microorganisms in the air can be effectively filtered to maintain a clean laboratory environment. At the same time, attention should be paid to the airtightness of the laboratory to prevent the intrusion of external pollutants. 2. Temperature and Humidity Cell culture is very sensitive to temperature and humidity. Usually, the temperature needs to be controlled at around 37°C, and the humidity is maintained at 40% - 60%. A precise temperature and humidity control system can ensure that cells grow in a suitable environment and avoid adverse effects on cells due to temperature and humidity fluctuations. 3. Airflow Organization Reasonable airflow organization can ensure the uniform distribution of laboratory air, reduce air stagnation areas, and prevent the accumulation of pollutants in local areas. Generally, the air supply - from - top - and - exhaust - from - bottom or air supply - from - side - and - exhaust - from - side airflow methods are adopted to ensure that fresh air can fully replace the polluted air indoors. IV. The Support of Guangzhou Cleanroom Construction Co., Ltd. As a professional manufacturer of purification equipment, Guangzhou Cleanroom Construction Co., Ltd. has rich experience and technical advantages in the design and construction of cell engineering laboratories. 1. Customized Solutions Our professional team will tailor - make personalized design solutions according to the needs of different customers and the characteristics of the laboratory. Every detail, from functional layout to equipment selection, is carefully considered to ensure that the laboratory design fully meets the requirements of cell engineering experiments. 2. High - Quality Purification Equipment The purification equipment produced by the company, such as high - efficiency air filters, purification air - conditioning units, and laminar flow hoods, adopts advanced technologies and high - quality materials, and can provide reliable clean guarantees for cell engineering laboratories. The equipment has the advantages of high efficiency, energy - saving, stable operation, and low noise, effectively improving the operation efficiency of the laboratory. 3. One - Stop Service From the preliminary planning and design of the laboratory, to the production, installation, and commissioning of equipment, and then to the later maintenance and upkeep, we provide one - stop comprehensive services. Professional technicians will follow up on the project throughout the process, promptly solve the problems encountered by customers during the laboratory construction and use, and relieve customers of worries. The design of a cell engineering laboratory is a systematic and complex project that requires comprehensive consideration of many factors. Choosing a professional partner can provide strong support for the construction and operation of the laboratory. If you have the needs for the design and construction of a cell engineering laboratory, please feel free to contact Guangzhou Cleanroom Construction Co., Ltd. We will serve you wholeheartedly and jointly create an advanced and efficient cell engineering laboratory.  

In the construction and operation of laboratories, there is a crucial aspect that is often overlooked but actually has a significant impact on laboratory safety, the health of laboratory personnel, and the accuracy of experimental results. That is the laboratory ventilation system. As Guangzhou Cleanroom Construction Co., Ltd., specializing in the production of purification equipment, we will talk to you today about the engineering design of the laboratory ventilation system. I. Why is the Laboratory Ventilation System So Important? 1. Ensure Personnel Health Various harmful gases, dust, and microorganisms are often generated in laboratories. Without an effective ventilation system, these pollutants will accumulate indoors. Laboratory personnel are highly likely to suffer from respiratory diseases, poisoning, and other health problems if they are exposed to such an environment for a long time. A good ventilation system can timely exhaust these pollutants and introduce fresh air, providing a safe and healthy working environment for laboratory personnel. 2. Ensure Experimental Accuracy Some experiments have extremely high requirements for environmental temperature, humidity, air quality, etc. The ventilation system can adjust the air parameters in the room, maintain a stable experimental environment, avoid interference with experimental results due to environmental factors, and ensure the accuracy and reliability of experimental data. 3. Prevent Safety Accidents Many chemical experiments can produce flammable and explosive gases. If the ventilation is poor, these gases may reach a certain concentration and may cause explosions or fires when encountering a fire source. The ventilation system can timely exhaust flammable and explosive gases outdoors, reduce safety risks, and ensure the safety of the laboratory. II. Design Key Points of the Laboratory Ventilation System 1. Air Volume Calculation Accurately calculating the ventilation volume required by the laboratory is the basis for designing the ventilation system. Factors such as the area, height of the laboratory, the quantity and types of experimental equipment, and the amount of pollutants generated by experimental operations need to be considered. Generally, the ventilation volume of the laboratory should ensure that the air change rate is about 8 - 15 times per hour, but the specific value still needs to be accurately calculated according to the actual situation. 2. Selection of Ventilation Methods Common ventilation methods include natural ventilation and mechanical ventilation. Although natural ventilation is energy - saving and cost - effective, it is greatly restricted by natural conditions and the ventilation effect is unstable. Mechanical ventilation can force air exchange through equipment such as fans, and the ventilation effect is reliable, which is a commonly used ventilation method in laboratories. Mechanical ventilation can be further divided into general ventilation and local ventilation. General ventilation is suitable for laboratories where pollutants are evenly distributed and can ventilate the entire space; local ventilation is aimed at areas where pollutants are more concentrated, such as fume hoods and biosafety cabinets. Pollutants are directly exhausted outdoors through local exhaust devices, which is more efficient. 3. Selection of Ventilation Equipment Select appropriate ventilation equipment according to the ventilation volume and ventilation method. The fan is the core equipment of the ventilation system. A fan with appropriate power, low noise, and stable operation should be selected according to parameters such as the required air volume and air pressure. The selection of fume hoods is also crucial. Performance indicators such as their material, sealing performance, and air velocity adjustment need to be considered to ensure that pollutants can be effectively captured and exhausted. In addition, corresponding accessories such as air ducts, valves, and filters need to be equipped to ensure the normal operation of the ventilation system. 4. Airflow Organization Design Reasonable airflow organization can ensure the maximization of the ventilation effect. When designing, the positions, shapes, and sizes of air supply outlets and exhaust outlets need to be considered to make the indoor air form a reasonable flow path, avoid the occurrence of air stagnation areas, and ensure that pollutants can be smoothly exhausted outdoors. III. Advantages of Guangzhou Cleanroom Construction Co., Ltd. As a professional manufacturer of purification equipment, Guangzhou Cleanroom Construction Co., Ltd. has rich experience and technical strength in the engineering design of laboratory ventilation systems. 1. Professional Team We have a professional design team composed of senior engineers. They are familiar with the ventilation requirements of various laboratories and can tailor - make optimized ventilation system design solutions according to the characteristics and requirements of different laboratories. 2. High - Quality Products The purification equipment and ventilation equipment produced by the company are all made of high - quality materials and advanced production processes, with the advantages of high efficiency, energy - saving, stable operation, and low noise, which can provide reliable ventilation protection for laboratories. 3. Complete Services From pre - project consultation and scheme design, to equipment production, installation and commissioning, and then to later maintenance, we provide one - stop comprehensive services to relieve customers of worries. The engineering design of the laboratory ventilation system is a complex and crucial link, related to laboratory safety, the health of personnel, and the smooth progress of experiments. Choosing a professional manufacturer and high - quality products is an important guarantee for creating an efficient, safe, and comfortable laboratory environment. If you have any needs related to laboratory ventilation systems, please feel free to contact Guangzhou Cleanroom Construction Co., Ltd. We will serve you wholeheartedly!  

In the field of education, teaching laboratories are crucial places for cultivating students' practical abilities and innovative thinking. As Guangzhou Cleanroom Construction Co., Ltd., a manufacturer specializing in the production of purification equipment and possessing rich experience in the design of various laboratories, today we will analyze the key points of teaching laboratory design for you. I. Importance of Design The design of a teaching laboratory is far from just simple space planning. It is directly related to the teaching quality and students' learning experience. A well - designed laboratory can provide students with a safe, comfortable, and efficient learning environment, stimulating their desire for exploration and innovative spirit. Conversely, an unreasonable design may lead to inconvenient experimental operations, increased safety hazards, and affect the teaching effect. II. Design Principles Safety Principle: Safety is the top priority in the design of a teaching laboratory. In electrical design, ensure that the wiring layout is reasonable, avoid overloading and short - circuits, and be equipped with leakage protection devices. The ventilation system in a chemistry laboratory must be highly efficient to promptly exhaust harmful gases and prevent poisoning accidents. At the same time, the materials of the laboratory benches should have characteristics such as fire - resistance and corrosion - resistance to ensure the safety of the experimental process. Functionality Principle: According to the teaching needs of different disciplines, the laboratory should have corresponding functional areas. For example, a physics laboratory should have dedicated experimental areas for electricity, mechanics, optics, etc.; a biology laboratory should be divided into areas for specimen preparation, microscope observation, etc. The equipment and facilities in each area should meet the requirements of the corresponding experiments to improve the efficiency of experimental teaching. Flexibility Principle: Teaching content and experimental methods may be continuously updated with educational reforms and technological developments. Therefore, the laboratory design should have a certain degree of flexibility. Adopt modular furniture and equipment to facilitate re - layout and adjustment as needed to adapt to different teaching scenarios. III. Space Layout Experimental Area: This is the core area of the laboratory. The layout of the laboratory benches should consider the convenience and safety of students' operations. Island - type, peninsula - type, or wall - mounted layouts can be adopted, depending on the laboratory area and the type of experiments. At the same time, ensure that there is enough passage space between the laboratory benches for students and teachers to move around. Preparation Area: It is used to store experimental equipment, reagents, etc. and should be adjacent to the experimental area for easy access. The preparation area should be equipped with sufficient storage cabinets and workbenches, and the reagents should be stored in categories to ensure safe use. Demonstration Area: In some large - scale experiments or experiments that require teacher demonstrations, the demonstration area is essential. The demonstration area should be located in a position with a good view for students and be equipped with equipment such as projectors and display stands to facilitate teachers' demonstrations and explanations. IV. Selection of Equipment and Facilities Experimental Equipment: Select appropriate experimental equipment according to the characteristics of the disciplines and the teaching syllabus. For example, a chemistry laboratory needs to be equipped with various glassware, reaction devices, analytical instruments, etc.; a biology laboratory should have microscopes, centrifuges, incubators, etc. The quality and performance of the equipment directly affect the experimental results, so choose products with reliable quality and easy operation. Ventilation and Lighting Facilities: Good ventilation and lighting are basic requirements for a laboratory. The ventilation system should be designed according to the laboratory area and the type of experiments to ensure fresh indoor air. For lighting, use flicker - free and glare - free lamps to ensure sufficient light in the experimental operation area, which is conducive to students' observation of experimental phenomena. The design of a teaching laboratory is a comprehensive project that requires full consideration of various factors. With a professional technical team and rich practical experience, Guangzhou Cleanroom Construction Co., Ltd. can provide schools with one - stop services from the formulation of design plans to the installation and debugging of equipment. If you are planning the construction of a teaching laboratory, please feel free to contact us at any time. Let's work together to create an ideal teaching laboratory space and contribute to the development of education.  

In the semiconductor industry, the cleanliness of the production environment plays a decisive role in product quality. The construction of semiconductor cleanrooms is the key to ensuring the smooth progress of semiconductor production. As Guangzhou Cleanroom Construction Co., Ltd., a manufacturer specializing in the production of purification equipment, today we will have a detailed discussion with you about the factors affecting the cost of semiconductor cleanrooms and the methods of cost estimation. I. Key Factors Affecting the Cost Purification Level：Semiconductor production has extremely high requirements for cleanliness. Common purification levels include Class 100, Class 10, or even higher levels. The higher the purification level, the stricter the control of pollutants such as dust particles and microorganisms in the air. More advanced purification equipment and technologies are required, and the cost will naturally increase significantly. For example, compared with a Class 100 cleanroom, a Class 10 cleanroom has higher requirements in terms of filter accuracy and air flow organization, and the cost may be several times higher. Workshop Area：The size of the workshop area directly affects the consumption of materials and equipment. When constructing a large - area workshop, although there may be a certain reduction in unit cost due to economies of scale, the overall material and equipment procurement costs as well as labor costs will still increase significantly with the increase in area. In addition, the layout and air flow organization design of a larger - area workshop are more complex, which also adds to the cost. Purification Equipment：Purification equipment is the core investment part of a semiconductor cleanroom. High - efficiency air filters, advanced air - conditioning systems, ultra - pure water preparation equipment, etc., are all crucial to ensuring that the workshop environment meets production requirements. The prices of equipment with different brands and performances vary greatly. For example, the price of high - end imported air filters may be several times that of ordinary domestic filters, and the price of high - precision ultra - pure water preparation equipment is even more expensive. Decoration Materials：The decoration materials used for walls, floors, and ceilings need to have characteristics such as anti - static, corrosion - resistance, and easy - cleaning. Special materials such as anti - static epoxy self - leveling floor materials and dust - resistant color - coated steel plate walls are more expensive than ordinary decoration materials. Moreover, in order to meet the strict environmental requirements of semiconductor production, the quality standards of materials are higher, which further drives up the cost. II. Examples of Cost Estimation Methods Simple Estimation：For a preliminary cost estimate, it can be roughly calculated first according to the purification level and area. Suppose a semiconductor cleanroom with a Class 100 purification level, the cost per square meter is approximately 3,000 - 5,000 yuan. If the workshop area is 1,000 square meters, the preliminary estimated cost is between 3 million and 5 million yuan. However, this is only a very rough estimate, and the actual cost will be affected by many factors. Detailed Estimation：A detailed cost estimate needs to consider every specific item. First, list all the equipment lists, including air purification equipment, ultra - pure water equipment, waste gas treatment equipment, etc., and calculate the equipment procurement cost according to the brand, model, and quantity of the equipment. Then, calculate the decoration material cost according to the area of the walls, floors, and ceilings and the types and specifications of the selected materials. Add the labor cost, which can be estimated according to the local labor market price and the construction difficulty. Finally, some unforeseen costs, such as design changes and unexpected situations during construction, also need to be considered. Generally, 5% - 10% of the total cost can be reserved. The cost of a semiconductor cleanroom is comprehensively affected by various factors. When making a cost estimate, it is necessary to consider various factors comprehensively and carefully. With rich industry experience and a professional technical team, Guangzhou Cleanroom Construction Co., Ltd. can provide you with accurate cost evaluation and high - quality cleanroom construction solutions. If you are planning the construction of a semiconductor cleanroom, please feel free to contact us at any time. Let's work together to create a high - quality clean environment for semiconductor production.

In the pharmaceutical industry, product quality is directly related to people's lives and health. The decoration of a medical dust - free workshop is a crucial link in ensuring the quality of pharmaceutical products. As Guangzhou Cleanroom Construction Co., Ltd., a manufacturer specializing in the production of purification equipment, today we will have an in - depth discussion with you about the decoration of medical dust - free workshops. I. Importance of Decoration The decoration of a medical dust - free workshop is far from ordinary interior decoration. Strictly controlled environmental parameters, such as temperature, humidity, dust particle count, and microbial content, are essential for the production, storage, and quality stability of pharmaceutical products. A dust - free workshop with substandard decoration may introduce a large number of dust and microorganisms, resulting in drug contamination and seriously affecting the safety and effectiveness of drugs. II. Key Points of Decoration Selection of Purification System: An efficient air purification system is the core of a dust - free workshop. Primary, medium - efficiency, and high - efficiency filters act as layers of checks to ensure that the air cleanliness entering the workshop meets the requirements. According to different production processes and drug levels, select appropriate purification levels, such as Class 10,000, Class 1000, or even Class 100. For example, for the production of sterile drugs, a Class 100 or Class 1000 purification environment is usually required. Selection of Decoration Materials: For walls and ceilings, color - coated steel plates that are not easy to accumulate dust, are corrosion - resistant, and easy to clean are preferred. Their thickness and material should meet corresponding standards. The floor generally uses anti - static, wear - resistant, and easy - to - clean materials, such as epoxy self - leveling or polyurethane self - leveling. These materials can not only meet the cleaning requirements of the dust - free workshop but also ensure the service life of the workshop. Reasonable Layout Design: The dust - free workshop should be reasonably laid out according to the technological process, and different functional areas should be divided, such as the raw material preparation area, production area, packaging area, and quality inspection area. These areas should be connected through reasonable passages and transfer windows to avoid cross - contamination. At the same time, the flow directions of personnel and materials should be considered, separating the flow of people and materials to reduce the risk of contamination. III. Decoration Requirements for Different Areas Sterile Production Area: This is the core area of the dust - free workshop with extremely high environmental requirements. During decoration, ensure that there are no gaps or dead corners on the walls, floors, and ceilings for easy cleaning and disinfection. The lighting fixtures used should also meet the requirements of dust - proof, waterproof, and explosion - proof. Auxiliary Production Areas: Areas such as dressing rooms and buffer rooms, although the cleanliness requirements are relatively lower, should not be ignored. The dressing room should be set up with a reasonable dressing process to ensure that personnel can effectively remove dust and microorganisms from their bodies before entering the production area. The buffer room plays a role in isolation and transition, preventing external pollutants from entering the production area. The decoration of a medical dust - free workshop is a complex and systematic project that requires professional technology and rich experience. With years of deep cultivation in the purification equipment field, Guangzhou Cleanroom Construction Co., Ltd. has a professional technical team and a complete service system, and can provide you with a one - stop solution from design, construction to equipment installation. If you are planning the decoration of a medical dust - free workshop, please feel free to contact us at any time. Let's create a safe and clean environment for pharmaceutical production together!