Self-leveling Floor Construction in Animal Laboratories: Creating a Seamless and Clean Base
In the construction of animal laboratories, the quality of the floor plays a decisive role in the entire experimental environment. Creating a seamless and clean floor base can not only ensure the accuracy of experimental data but also safeguard the health and safety of experimental animals. With years of profound accumulation in the field of purification equipment and rich construction experience, Guangzhou Cleanroom Construction Co., Ltd. will comprehensively interpret the key points of self-leveling floor construction in animal laboratories for you.
I. Preparatory Work: Precise Layout and Meticulous Preparation
Site Assessment and Planning
Before the construction, a professional team needs to conduct a comprehensive site assessment of the animal laboratory. Different functional areas, such as the experimental operation area, animal breeding area, and equipment placement area, have different requirements for the floor. The operation area requires high wear resistance to cope with the frequent movement of instruments; the breeding area pays more attention to the anti-slip property of the floor to prevent experimental animals from slipping and getting injured. At the same time, the drainage slope should also be considered to prevent water accumulation from breeding bacteria and affecting the experimental environment. The technicians of Guangzhou Cleanroom Construction Co., Ltd. will customize the construction plan according to the specific situation of each laboratory to ensure that every detail meets the requirements.
Selection of Materials and Tools
The quality of the self-leveling material directly determines the final effect of the floor. In animal laboratories, self-leveling materials that are environmentally friendly, corrosion-resistant, and have strong antibacterial properties should be selected to prevent harmful chemicals from causing harm to experimental animals and reduce the risk of cross-contamination. In addition, equipping professional construction tools, such as toothed trowels, defoaming rollers, and levels, is the basis for ensuring the construction quality. Guangzhou Cleanroom Construction Co., Ltd. has established long-term cooperative relationships with high-quality material suppliers to ensure the stable and reliable quality of construction materials.
II. Construction Process: Strict Execution and Meticulous Operation
Base Treatment: Laying a Solid Foundation
Base treatment is a crucial link in self-leveling floor construction. First of all, dust, oil stains, sundries, etc. on the floor should be removed to ensure that the base surface is flat, dry, and firm. For uneven floors, grinding or repairing is required to ensure that the self-leveling material can be laid evenly. In animal laboratories, special attention should also be paid to the corners, floor drains, and other parts where dirt is likely to accumulate, and key treatment should be carried out to avoid leaving sanitary dead corners. The construction team of Guangzhou Cleanroom Construction Co., Ltd. has rich experience in base treatment and can operate strictly in accordance with the standards, laying a solid foundation for self-leveling floor construction.
Laying of Self-leveling Material
According to the requirements of the material instruction manual, mix the self-leveling material with an appropriate amount of water, stir it evenly, and then quickly pour it onto the floor. Use a toothed trowel to spread the material evenly, and then use a defoaming roller to eliminate air bubbles to ensure that the floor is flat. During the construction process, the thickness of the self-leveling material should be strictly controlled to ensure the flatness and bearing capacity of the floor. The construction personnel of Guangzhou Cleanroom Construction Co., Ltd. are highly skilled and can complete the laying of a large area of self-leveling floor in a short time while ensuring the construction quality.
III. Post-construction Maintenance: Careful Maintenance for Long-term Assurance
Curing and Maintenance
After the self-leveling floor is laid, curing and maintenance are required. During the curing period, personnel and vehicles should be prevented from walking on the floor to avoid damaging the flatness of the floor. At the same time, good indoor ventilation should be maintained to accelerate the drying speed of the floor. Generally, the self-leveling floor needs to be maintained for 3 to 7 days, and the specific time depends on the material characteristics and ambient temperature. Guangzhou Cleanroom Construction Co., Ltd. will provide customers with detailed maintenance guidance to ensure that the self-leveling floor achieves the best performance.
Quality Inspection and Acceptance
After the construction is completed, Guangzhou Cleanroom Construction Co., Ltd. will conduct a comprehensive quality inspection of the self-leveling floor, including indicators such as flatness, hardness, and wear resistance. Only when all indicators meet the standards will the acceptance be carried out. Through strict quality inspection and acceptance, a reassuring and reliable floor solution is provided for customers.
Self-leveling floor construction in animal laboratories is a systematic project that requires strict control of every link from preparatory work, construction process to post-construction maintenance. Guangzhou Cleanroom Construction Co., Ltd., with its professional technology, high-quality materials, and rich experience, creates a seamless and clean floor base for your animal laboratory, contributing to the development of life science research.
If you have any needs for self-leveling floor construction in animal laboratories or purification equipment, please feel free to contact us!
Have You Installed Air Outlets Correctly? There’s a Lot to Know About Ventilation Systems in Animal Laboratories
In the field of life science research, animal laboratories play an indispensable role. As a crucial facility supporting the experimental environment, the ventilation system in a laboratory is directly related to the accuracy of experimental results, the well - being of animals, and the safety of experimental personnel. As the terminal of the ventilation system, the installation quality of air outlets is of utmost importance. With years of profound accumulation in the production of purification equipment, Guangzhou Cleanroom Construction Co., Ltd. reveals the key technologies for the installation of air outlets in the ventilation systems of animal laboratories.
I. Before Installation: Precise Planning and Preparation
Analysis of Spatial Layout and Functional Requirements
There is a wide variety of animal laboratories, and different functional areas have significantly different requirements for ventilation. Before installing air outlets, it is necessary to deeply analyze the characteristics of different functional areas such as the experimental area, breeding area, and cleaning area, and clarify the air flow organization form of each area. For example, the experimental area may place more emphasis on local high - efficiency purification, while the breeding area needs to ensure uniform air distribution and avoid air flow causing stress to animals. With a professional technical team, Guangzhou Cleanroom Construction Co., Ltd. can provide personalized ventilation system design solutions based on the actual needs of customers, ensuring a scientific and reasonable layout of air outlets.
Selection of Air Outlets and Consideration of Compatibility
There is a rich variety of air outlet types, including louvered air outlets, diffusers, swirl air outlets, etc. Different types of air outlets have different air flow characteristics and application scenarios. In animal laboratories, factors such as wind speed, air volume, and noise need to be comprehensively considered to select the most suitable air outlets. At the same time, it is also necessary to ensure a tight and well - sealed connection between the air outlets and the ventilation ducts to avoid air leakage. Guangzhou Cleanroom Construction Co., Ltd. strictly controls product quality and provides a variety of air outlet products with excellent specifications and performance to meet the needs of different customers.
II. During Installation: Strict Execution and Meticulous Operation
Positioning and Fixing: Ensuring Installation Accuracy
The installation location of air outlets directly affects the ventilation effect. During the installation process, positioning must be carried out strictly in accordance with the design drawings to ensure that the errors in the levelness and verticality of the air outlets are within the allowable range. Professional installation tools and fixing methods such as expansion bolts and hanging brackets are used to ensure that the air outlets are firm and reliable, avoiding problems such as loosening and displacement during use.
Sealing Treatment: Preventing Air Leakage and Contamination
Air leakage not only reduces the efficiency of the ventilation system but may also lead to cross - contamination within the laboratory. Therefore, strict sealing treatment should be carried out at the joints between the air outlets and the walls, ceilings, as well as at the interfaces between the air outlets and the ventilation ducts. Commonly used sealing materials include sealants and sealing strips to ensure long - term and reliable sealing effects. The installation team of Guangzhou Cleanroom Construction Co., Ltd. has rich construction experience and can skillfully apply various sealing technologies to effectively prevent air leakage.
III. After Installation: Comprehensive Detection and Optimization Adjustment
Performance Detection: Ensuring that Ventilation Effects Meet Standards
After installation, a comprehensive performance inspection of the ventilation system is required, including the detection of parameters such as wind speed, air volume, wind pressure, and noise. The performance of each air outlet is tested one by one through professional detection instruments to ensure that all indicators meet the design requirements. If any abnormalities are found, timely analysis and adjustment are carried out to ensure the stable operation of the ventilation system.
Dynamic Debugging: Adapting to Actual Usage Requirements
The usage of animal laboratories may vary with changes in experimental projects. Therefore, after the ventilation system is put into use, dynamic debugging is also required. The opening degree and air volume of the air outlets are adjusted according to actual needs to achieve the best ventilation effect. Guangzhou Cleanroom Construction Co., Ltd. provides comprehensive after - sales services, regularly visiting and maintaining the ventilation systems of customers to ensure that the systems are always in good operating condition.
The installation of air outlets in the ventilation systems of animal laboratories is a systematic project that requires strict control throughout the entire process, from planning and design to installation, construction, and detection and debugging. As a leader in the industry, Guangzhou Cleanroom Construction Co., Ltd. will leverage professional technology, high - quality products, and comprehensive services to create a safe, efficient, and comfortable animal laboratory environment for you.
If you have any needs regarding the ventilation systems of animal laboratories, please feel free to contact us!
Development Trends of Animal Laboratory Projects under the Concept of Green and Environmental Protection
Today, as life science research continues to advance, animal laboratories, as crucial scientific research venues, have drawn significant attention regarding their construction and development. Meanwhile, the concept of green and environmental protection has gradually permeated various industries, and the field of animal laboratory engineering is no exception. With profound expertise in the production of purification equipment, Guangzhou Cleanroom Construction Co., Ltd. has keenly observed the numerous development trends that the green and environmental protection concept has brought to animal laboratory projects.
I. Environment - friendly Design: Creating an Eco - friendly Space
(I) Optimizing Layout and Improving Space Utilization
A rational laboratory layout serves as the foundation for achieving green and environmental protection. During the design phase, it is essential to fully consider experimental procedures and the activity requirements of animals. Different functional areas should be scientifically demarcated to minimize unnecessary space waste. For example, the experimental operation area, animal breeding area, and waste disposal area should be appropriately arranged to shorten the logistics and pedestrian flow paths, thereby reducing energy consumption. Additionally, the modular design concept should be adopted, facilitating flexible adjustments and expansions based on experimental demands in the future, and enhancing the long - term applicability of laboratory space.
(II) Incorporating Natural Lighting and Ventilation
Natural lighting and ventilation not only provide a more comfortable environment for experimental personnel and laboratory animals but also effectively reduce the energy consumption of artificial lighting and ventilation systems. In the design of animal laboratories, the area of windows should be reasonably increased. Technologies such as light - guiding pipes and reflecting mirrors can be utilized to introduce natural light deep into the interior, reducing dependence on artificial lighting during the day. At the same time, by optimizing the building's orientation and spatial form, a favorable natural ventilation path can be created. During the transitional seasons or when the weather is suitable, natural ventilation can meet the indoor air replacement requirements, reducing the operating time and energy consumption of the ventilation system.
II. Application of Energy - saving Equipment and Technologies: Reducing Energy Consumption
(I) Upgrading High - efficiency Purification Equipment
Animal laboratories have extremely high requirements for environmental cleanliness. The energy consumption of purification equipment accounts for a relatively large proportion of the overall operating costs of the laboratory. Guangzhou Cleanroom Construction Co., Ltd. is constantly committed to the research, development, and upgrading of purification equipment, introducing more energy - efficient and high - performance products. For instance, the new - generation air purification equipment employs advanced filtration technologies and intelligent control systems. While ensuring the efficient removal of dust particles, microorganisms, and other pollutants in the air, it adjusts the fan speed in real - time according to the indoor air quality, reducing energy consumption. Moreover, by optimizing the equipment structure and material selection, the heat exchange efficiency of the equipment is improved, minimizing energy waste caused by heat loss.
(II) Utilization of Intelligent Control Systems
Intelligent control systems can achieve precise regulation of various equipment in animal laboratories, further enhancing energy utilization efficiency. Sensors are used to monitor parameters such as indoor temperature, humidity, and air quality in real - time, and the data is transmitted to the control system. The system automatically adjusts the operating status of air conditioners, ventilation systems, lighting, and other equipment based on the pre - set optimal parameter range. For example, when the laboratory is unoccupied, the lighting brightness is automatically reduced, and some unnecessary equipment is turned off. In the animal breeding area, environmental parameters are precisely controlled according to the species and growth stage of the animals, meeting the animals' needs while avoiding excessive energy consumption.
III. Selection of Environment - friendly Materials: Ensuring Health and Sustainability
(I) Prioritizing Non - toxic, Harmless, and Degradable Materials
In the construction of animal laboratories, the selection of non - toxic, harmless, and degradable materials is a crucial manifestation of green and environmental protection. For flooring, environmentally friendly rubber floors or biodegradable biobased composite materials can be used. These materials not only exhibit excellent wear resistance and anti - slip properties but also do not release harmful gases during use, posing no harm to the health of experimental personnel and animals. For wall materials, environmentally friendly panels made from renewable plant fibers can be chosen. They can effectively insulate against sound and heat and are in line with the requirements of sustainable development. Additionally, for laboratory benches, cabinets, and other furniture, wooden materials coated with water - based paint or recyclable metal materials are preferred to reduce the emission of volatile organic compounds (VOCs).
(II) Emphasizing the Durability and Maintainability of Materials
Selecting materials with good durability and ease of maintenance can reduce the frequent replacement caused by material damage or aging, thereby reducing resource consumption and waste generation. For example, in the selection of doors and windows for laboratories, broken - bridge aluminum materials are used. They have excellent thermal insulation, sound insulation properties, and a long service life. For areas prone to corrosion, such as the floors and walls of animal breeding areas, corrosion - resistant stainless steel or materials with special coatings are selected to ensure structural stability during long - term use, reducing maintenance and replacement costs and achieving efficient resource utilization.
IV. Waste Treatment and Resource Recycling: Achieving Circular Utilization
(I) Improving the Waste Classification and Treatment System
Animal laboratories generate a wide variety of waste, including animal carcasses, experimental waste liquids, medical waste, and domestic waste. Establishing a comprehensive waste classification and treatment system is of utmost importance. Designated waste collection areas should be set up, equipped with different types of collection containers, and strict classification collection of various wastes should be carried out. For animal carcasses, professional harmless treatment equipment is used for incineration or deep burial. Experimental waste liquids are pre - treated through neutralization, precipitation, filtration, etc., according to their properties, and then handed over to qualified units for centralized treatment. Medical waste and domestic waste are properly disposed of in accordance with relevant regulations to ensure that waste does not pollute the environment.
(II) Resource Recycling and Reuse
Actively exploring ways for resource recycling and reuse of waste is one of the development directions for green and environmental protection animal laboratories. For example, recyclable materials such as waste metals, glass, and plastics generated during the experimental process are sorted and recycled, and handed over to professional recycling enterprises for reprocessing. In the treatment of animal manure, technologies such as anaerobic fermentation are used to convert it into biogas and organic fertilizers, achieving circular utilization of resources. In addition, discarded laboratory equipment and instruments can be donated to other scientific research institutions or schools in need after evaluation and repair, extending their service life and reducing resource waste.
V. Green Operation Management: Continuously Promoting Environmental Protection Practices
(I) Formulating Environmental Protection Management Systems and Training
A sound green environmental protection operation management system should be established, clearly defining the responsibilities and obligations of various departments and personnel in the laboratory's environmental protection work. Detailed environmental protection operation guidelines, such as energy - saving operation manuals for equipment and waste classification treatment procedures, should be formulated. Training on environmental protection should be strengthened for experimental personnel and staff to improve their environmental awareness and operational skills. Regular environmental protection knowledge lectures and training activities should be organized to make the concept of environmental protection deeply rooted in people's hearts, prompting all personnel to consciously implement environmental protection measures in their daily work.
(II) Regular Evaluation and Continuous Improvement
Regular evaluations of the environmental protection work of animal laboratories should be carried out. By monitoring various environmental protection indicators, such as energy consumption, waste generation, and pollutant emission concentrations, the environmental operation status of the laboratory can be analyzed. Based on the evaluation results, existing problems and deficiencies can be promptly identified, and targeted improvement measures can be formulated. Continuously optimize the design, equipment operation, waste treatment, and other aspects of the laboratory to continuously improve the level of green and environmental protection, enabling animal laboratories to meet scientific research needs while minimizing their impact on the environment.
The concept of green and environmental protection is having a profound impact on the development of animal laboratory engineering. Every link, from design, equipment selection, material selection to waste treatment and operation management, is moving towards a more environmentally friendly, energy - saving, and sustainable direction. Guangzhou Cleanroom Construction Co., Ltd. will always uphold the concept of green development, continuously innovate and improve products and services, and contribute to the construction of green and environmental protection animal laboratories. If you have any questions or requirements regarding the construction of green animal laboratory projects, please feel free to contact us. Let's work together to create a better scientific research environment.
Key Points of Quality Control in the Construction of Animal Laboratory Projects
In the field of life science research, animal laboratories are indispensable infrastructure. They play a crucial role in ensuring the accuracy and reliability of experimental results and safeguarding the well - being of laboratory animals. As Guangzhou Cleanroom Construction Co., Ltd., with years of rich experience in the production of purification equipment, we deeply understand the significance of quality control in the construction of animal laboratory projects. Today, we would like to share with you the key points of quality control in the construction of animal laboratory projects.
I. Review of Design Plans: Laying a Solid Foundation for Quality
Design is the blueprint of engineering construction. A rational design plan is the primary step in ensuring the quality of animal laboratories. Before construction, we must conduct a strict review of the design plan. On the one hand, we need to ensure that the layout of the laboratory meets the requirements of the experimental process. Distinguish between clean areas and contaminated areas to prevent cross - contamination. For example, the breeding area, surgical area, and observation area of laboratory animals should be independent of each other, and reasonable passageways and buffer rooms should be set up to avoid interference and the spread of contamination between different areas. On the other hand, we should fully consider the living habits and welfare requirements of laboratory animals, and optimize environmental parameters such as the size of the animal room, ventilation, lighting, and temperature. Only by creating an environment that conforms to the physiological and behavioral characteristics of animals can we reduce animal stress responses and improve the reliability of experimental results.
II. Selection of Purification Equipment: Protecting the Experimental Environment
Animal laboratories have strict requirements for environmental cleanliness, temperature, humidity, air pressure, etc. The quality of purification equipment directly affects the environmental quality of the laboratory. The purification equipment independently developed and produced by our company plays an important role in the construction of animal laboratory projects. Take air purification equipment as an example. It is equipped with high - efficiency filters that can effectively filter dust particles, microorganisms, and other pollutants in the air, providing a clean air environment for laboratory animals. When selecting equipment, we should choose the appropriate equipment models and technical parameters based on the scale, function, and experimental requirements of the laboratory. At the same time, we must strictly control the quality of the equipment. Ensure that every link, from raw material procurement, production processing to finished product inspection, meets national standards and industry specifications.
III. Control of Construction Materials: Ensuring Durability and Reliability
The quality of construction materials is the material basis for the quality of animal laboratory projects. When selecting building materials, we should give priority to materials that are corrosion - resistant, easy to clean, and have good sealing properties. For example, epoxy self - leveling materials can be used for the floor. They not only have good wear - resistance and corrosion - resistance but are also convenient for cleaning and disinfection, effectively preventing the growth of bacteria. Color - coated steel plates can be used for the walls. They are fire - resistant, moisture - proof, easy to install, and have a smooth surface, reducing the possibility of dust accumulation and bacterial attachment. In addition, strict quality inspections should be carried out on all construction materials entering the construction site, including the specifications, performance, and quality certification documents of the materials. Disqualify materials must be prevented from entering the construction site.
IV. Management of the Construction Process: Implementing Quality Standards
The construction process is a crucial stage in transforming the design plan into a physical project and must be managed meticulously. First, establish a sound quality management system, clarify the quality standards and responsible persons for each construction link, and conduct technical briefings and training for construction workers to ensure that they are familiar with construction techniques and quality requirements. Second, strengthen supervision and inspection at the construction site, regularly sample and inspect the construction quality, and promptly discover and correct quality problems. For example, during the installation of pipelines, check the slope and sealing of the pipelines to prevent water accumulation and leakage. Finally, keep good construction records, including construction logs, material inspection reports, hidden project acceptance records, etc., providing a basis for tracing the project quality.
V. Review at the Acceptance Stage: Ensuring the Quality of Delivery
After the completion of the project, the acceptance stage is of vital importance. We should conduct a comprehensive acceptance of the animal laboratory based on relevant standards and specifications, including the layout of the laboratory, the operation status of facilities and equipment, and the compliance of environmental parameters. Use professional testing equipment to test indicators such as the air cleanliness, temperature, humidity, and noise of the laboratory to ensure that all indicators meet the design requirements. Only projects that pass the acceptance can be delivered for use, providing a safe and reliable experimental environment for researchers.
Quality control in the construction of animal laboratory projects is a systematic project. It requires strict control of every link, from design, equipment, materials, construction to acceptance. Guangzhou Cleanroom Construction Co., Ltd. will always uphold a professional and rigorous attitude, create high - quality animal laboratories for customers, and contribute to the development of life science research.
If you have any questions about the construction of animal laboratory projects or purification equipment, please feel free to leave a comment. We will be happy to answer them for you.
Engineering Design of Supporting Facilities for High-pressure Sterilization Equipment in Animal Laboratories
In the field of animal experiments, ensuring the aseptic condition of the experimental environment is a crucial factor for the accuracy of experiments and the health of animals. High-pressure sterilization equipment serves as an indispensable "weapon" for sterilization in animal laboratories. The rational design of its supporting engineering directly affects the performance of the equipment and the overall operational efficiency of the laboratory. Guangzhou Cleanroom Construction Co., Ltd., with its profound accumulation in the production of purification equipment, will analyze the key points of the engineering design of supporting facilities for high-pressure sterilization equipment in animal laboratories for you.
Selection Criteria for High-pressure Sterilization Equipment
Determine the Capacity Based on the Laboratory Scale and Requirements
Animal laboratories of different scales vary in the quantity and volume of items to be sterilized. Small laboratories usually handle relatively fewer experimental utensils and animal bedding, so a tabletop high-pressure sterilizer with a smaller capacity can be chosen. This type of equipment occupies less space and is easy to operate. However, for large animal laboratories, due to their large-scale experiments, a large number of experimental equipment, culture media, and animal waste need to be processed. Therefore, vertical or horizontal high-pressure sterilizers with large capacities should be configured to meet the demand for batch sterilization.
Consider the Characteristics of Items to be Sterilized
The items to be sterilized in animal laboratories are diverse. For items that can withstand high temperature and pressure, such as glassware and metal instruments, conventional high-pressure sterilizers can effectively sterilize them. But for some items containing components that are not resistant to high temperature, such as certain plastic products and biological products, equipment with low-temperature sterilization functions should be selected, such as ethylene oxide sterilizers or hydrogen peroxide plasma sterilizers, which can achieve sterilization while protecting the items from damage.
Planning and Design of Supporting Spaces
Reasonable Layout of the Placement Location
The placement location of high-pressure sterilization equipment should comprehensively consider the flow of people, logistics, and drainage. The equipment should be installed in an area with good ventilation, dryness, and away from heat sources and water sources to prevent the equipment from being damaged by moisture. At the same time, there should be sufficient operating space around the equipment to facilitate the loading and unloading of sterilized items by the staff. The exhaust port and drain port of the sterilization equipment should not face the passage to avoid steam and sewage from causing harm to personnel.
Design of Ventilation and Lighting in the Space
A large amount of steam is generated during the high-pressure sterilization process, so a good ventilation system is essential. An exhaust fan or exhaust pipeline can be installed above the equipment to timely discharge the steam, reduce the indoor humidity, prevent safety accidents caused by steam accumulation, and improve the working environment. Sufficient lighting can provide convenience for the staff's operation and avoid operational errors due to insufficient light. A combination of natural light and artificial lighting can be adopted to ensure that the working area is brightly lit.
Design of Pipeline and Electrical Systems
Design of Steam and Drainage Pipelines
High-pressure sterilization equipment has strict requirements for steam supply and drainage. The steam pipeline should have good thermal insulation performance to reduce the heat loss during steam transportation and ensure that the equipment obtains a stable steam pressure. The drainage pipeline should have a certain slope to avoid water accumulation and prevent the growth of microorganisms. At the same time, to avoid blockage of the drainage pipeline, a filter can be installed at the drainage port of the equipment.
Safety Design of the Electrical System
High-pressure sterilization equipment has a relatively large power, so it is necessary to configure an independent power supply circuit for it to prevent voltage instability caused by sharing the circuit with other equipment. The power supply lines should use cables that are resistant to high temperature and corrosion, and good grounding protection should be provided to avoid electric leakage accidents. In addition, overload protection and short-circuit protection devices should be set in the control circuit. When the equipment malfunctions, the power supply can be cut off in a timely manner to ensure the safety of the equipment and personnel.
Configuration of the Intelligent Monitoring System
With the rapid development of technology, the intelligent monitoring system provides a strong guarantee for the operation of high-pressure sterilization equipment. By installing sensors such as temperature, pressure, and time on the equipment, real-time monitoring of the sterilization process can be achieved, and the data can be transmitted to the monitoring terminal. The staff can remotely view the operating status of the equipment. When the sterilization parameters are abnormal, the system will immediately issue an alarm to remind the staff to deal with it. At the same time, the intelligent monitoring system can also record the operation history of the equipment, providing data support for equipment maintenance and fault diagnosis.
The engineering design of supporting facilities for high-pressure sterilization equipment in animal laboratories is a systematic project, involving many aspects such as equipment selection, space planning, and pipeline and electrical system design. Guangzhou Cleanroom Construction Co., Ltd. focuses on the field of purification equipment and has a professional technical team, which can provide you with a comprehensive solution for the supporting engineering of high-pressure sterilization equipment. From the preliminary planning to the later installation and debugging, we will follow up throughout the process to ensure the smooth operation of your animal laboratory. If you have any related needs, please feel free to contact us!
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