Car engines are the heart of automobiles, and their performance,
reliability, and durability are crucial for a smooth and safe
driving experience. Temperature and humidity are two environmental
factors that can significantly impact engine operation, efficiency,
and lifespan. Our high - precision automotive temperature humidity
test chamber for car engines is a specialized and advanced testing
solution designed to meet the stringent requirements of the
automotive industry. This test chamber allows automotive
manufacturers, researchers, and quality control teams to subject
car engines to a wide range of temperature and humidity conditions,
enabling in - depth analysis and optimization of engine
performance.
At the core of this test chamber is a state - of - the - art
temperature and humidity control system. Advanced sensors and
intelligent controllers work in harmony to achieve an unparalleled
level of precision. The temperature can be precisely adjusted
within a broad range, typically from - 40°C to 120°C, with an
accuracy of ±0.1°C. Humidity levels can be controlled from 10% to
95% relative humidity (RH), with a precision of ±2% RH. This high -
level precision ensures that the engine is tested under exacting
conditions, closely mimicking the diverse environmental scenarios
it may encounter in real - world driving, from the freezing cold of
arctic regions to the hot and humid climates of tropical areas.
The test chamber offers a wide variety of customizable test
scenarios to meet the specific needs of different engine types and
testing objectives. It supports steady - state testing, where the
temperature and humidity are held constant for an extended period
to evaluate the long - term performance and stability of the
engine. Cyclic testing is also available, allowing for the
simulation of repeated temperature and humidity changes, such as
those experienced during a typical daily driving cycle.
Additionally, custom - programmed test sequences can be created to
replicate specific real - world driving conditions, such as long -
distance highway driving in extreme heat or short - trip urban
driving in high humidity. This flexibility enables comprehensive
testing and a more accurate assessment of engine performance under
various operating conditions.
The test chamber is specifically designed to accommodate car
engines of different sizes and configurations. It features a
spacious interior with a well - thought - out layout that allows
for easy installation and positioning of the engine. The chamber is
equipped with the necessary connections and interfaces to ensure
proper power supply, fuel delivery, and exhaust management during
the testing process. Special provisions are made to monitor and
measure key engine parameters, such as temperature, pressure,
vibration, and emissions, providing a comprehensive understanding
of the engine's behavior under different environmental conditions.
A sophisticated monitoring and data acquisition system is
integrated into the test chamber. Multiple sensors are
strategically placed throughout the chamber and on the engine to
continuously monitor temperature, humidity, air flow, pressure, and
other relevant parameters. The data is collected at high
frequencies and logged in real - time, providing a detailed and
accurate record of the engine's performance during the test. The
data can be analyzed in - depth using advanced software tools,
enabling engineers to identify trends, patterns, and potential
issues in the engine's operation. This data - driven approach helps
in making informed decisions for engine design improvement,
performance optimization, and reliability enhancement.
Built to withstand the rigors of continuous use in a demanding
automotive testing environment, the test chamber features a durable
and robust construction. The exterior is made of high - quality,
corrosion - resistant steel that provides excellent protection
against physical damage and environmental factors. The interior is
lined with materials that are resistant to high temperatures,
moisture, and chemicals, ensuring a long - lasting and reliable
testing environment. The components of the temperature and humidity
control systems, as well as the monitoring and data acquisition
systems, are sourced from reliable suppliers and are rigorously
tested to ensure long - term performance and reliability.
Safety is a top priority in the design of the test chamber. It is
equipped with a comprehensive set of safety features to protect the
engine, the testing equipment, and the personnel. These include
over - temperature and over - humidity protection systems, which
automatically shut down the chamber in case of abnormal conditions.
Fire suppression systems are also installed to prevent potential
fires, and emergency stop buttons are located throughout the
chamber for quick and easy activation in case of an emergency.
Additionally, the chamber is designed to meet all relevant safety
standards and regulations, ensuring a safe working environment for
all users.
| Model | THC-225 | THC-408 | THC-800 | THC-1000 |
| Inside dimension(W x D x H) mm | 50 x 75 x 60 | 60 x 85 x 80 | 100 x 100 x 80 | 100 x 100 x 100 |
| Outside dimension(W x D x H) mm | 75 x 165 x 170 | 85 x 175 x 190 | 125 x 190 x 190 | 125 x 190 x 210 |
| Internal material | #304 Stainless Steel |
| External material | Powder coated #304 Stainless Steel |
| Temperature range | + 150℃~ - 70 ℃ |
| Humidity range | 5% ~ 98% R. H |
| Temperature resolution ℃ | 0.01 |
| Humidity resolution % R. H. | 0.1 |
| Temperature stability ℃ | ±0.3 |
| Humidity stability % R. H. | ±2 |
| High temperature ℃ | 100 | 100 | 100 | 100 |
| Heating time (min) | 20 | 30 | 30 | 30 |
| Low temperature | 0, -40, -70 | 0, -40, -70 | 0, -40, -70 | 0, -40, -70 |
| Cooling time (min) | 20, 50, 70 | 20, 50, 70 | 20, 50, 70 | 20, 50, 70 |
| Air circulation system | Mechanical convection system |
| Cooling system | Imported compressor, fin evaporator, gas condenser |
| Heating system | Sus304 Stainless steel High-speed heater |
| Humidification system | Steam Generator |
| Humidification water supply | Reservoir, Sensor-controller solenoid valve, recovery-recycle
system |
| Controller | Touch panel |
| Electrical power requirements | Please contact us for requirements of specific models |
| Safety device | Circuit system load protection, compressor load protection, control
system load protection, humidifier load protection, overtemperature
load protection, fault warning light |
By subjecting car engines to precise and controlled temperature and
humidity conditions, automotive manufacturers can identify and
address potential performance issues early in the design and
development process. This allows for the optimization of engine
components, such as the combustion chamber, fuel injection system,
and cooling system, to ensure they perform at their best under
different environmental conditions. The ability to simulate real -
world scenarios helps in improving the overall efficiency, power
output, and fuel economy of the engine, resulting in a more
enjoyable and cost - effective driving experience for customers.
Testing engines in a controlled environment helps manufacturers
evaluate the durability of different engine components and
materials. The chamber's ability to replicate extreme temperature
and humidity conditions allows for the identification of parts that
may be prone to wear, corrosion, or failure over time. By
addressing these issues before mass production, manufacturers can
improve the long - term durability of their engines, reducing the
need for costly repairs and replacements. This not only benefits
the customers but also enhances the reputation of the automotive
brand.
The automotive industry is subject to numerous international and
national regulations regarding engine performance, emissions, and
safety under different environmental conditions. Our high -
precision test chamber enables manufacturers to conduct the
necessary tests to ensure compliance with these regulations. By
providing accurate and reliable test data, manufacturers can obtain
the required certifications and approvals, facilitating the sale of
their vehicles in different markets around the world.
Early detection of potential problems through comprehensive testing
in the chamber can save manufacturers significant costs. By
identifying and fixing issues before mass production, manufacturers
can avoid costly product recalls, warranty claims, and customer
dissatisfaction. Additionally, the ability to optimize engine
components based on test results can lead to cost savings in terms
of materials, manufacturing processes, and energy consumption. This
helps in improving the overall profitability of the automotive
business.
For automotive research and development teams, the test chamber
provides a valuable tool for exploring new technologies and
materials. The ability to precisely control the temperature and
humidity allows for in - depth studies of how these factors affect
the performance of new engine components, such as advanced
combustion engines, hybrid powertrains, and alternative fuel
systems. This can lead to the development of innovative solutions
and the improvement of existing technologies, giving automotive
manufacturers a competitive edge in the global market.
During the development of new car engines, manufacturers use the
test chamber to evaluate the performance of prototypes under
various temperature and humidity conditions. This includes testing
the engine's starting performance, power output, fuel consumption,
and emissions. The test results are used to make design
improvements and ensure that the final product meets the desired
performance and quality standards.
In addition to whole - engine testing, the test chamber can be used
to test individual engine components. Manufacturers can subject
components such as pistons, valves, and sensors to extreme
temperature and humidity conditions to evaluate their performance
and reliability. This helps in selecting the best components for
use in the engine and ensuring that they will function properly in
different environments.
In the manufacturing process, the test chamber is used for quality
control purposes. A sample of engines from each production batch is
tested in the chamber to ensure that they meet the specified
quality standards. The precise control of temperature and humidity
allows for accurate evaluation of the engine's performance, and any
issues can be identified and addressed before the engines are
shipped to the market.
The test chamber can also be used to conduct emissions testing of
car engines under different temperature and humidity conditions. By
simulating real - world driving scenarios, manufacturers can
accurately measure the engine's emissions of pollutants such as
carbon monoxide, nitrogen oxides, and particulate matter. This
helps in ensuring that the engine meets the strict emissions
regulations and in developing strategies to reduce emissions.
Our high - precision automotive temperature humidity test chamber
for car engines is an essential tool for the automotive industry.
With its high - precision environmental control, customizable test
scenarios, engine - specific design, advanced monitoring and data
acquisition, durable construction, and safety features, it provides
a comprehensive and reliable platform for testing, evaluating, and
improving car engine performance. Whether it's for new engine
development, component testing, quality control, or emissions
testing, this test chamber is a valuable asset for automotive
manufacturers, researchers, and quality control teams. Contact us
today to learn more about how our product can meet your automotive
engine testing needs.
