In the world of scientific research, energy analysis, and quality
control, the Calorific Bomb Calorimeter stands as a crucial
instrument for accurately determining the calorific value of
various substances. This state-of-the-art combustion test equipment
offers precise and reliable measurements, enabling industries and
research institutions to make informed decisions regarding fuel
quality, energy content, and chemical reactivity. The Calorific Bomb Calorimeter is specifically designed to measure
the calorific value of combustion, which represents the amount of
heat energy released when a substance is completely burned in a
controlled environment. It is widely used in fields such as energy
research, petrochemicals, food science, and waste management to
assess the energy potential of fuels, evaluate the calorific
content of food products, and determine the heat of combustion of
waste materials for proper disposal and energy recovery strategies. - High-Precision Construction and Insulation
- The calorimeter is constructed with high-quality stainless steel,
ensuring durability and resistance to corrosion. The inner chamber,
where the combustion takes place, is carefully designed to minimize
heat loss and ensure accurate heat transfer measurements. It is
surrounded by advanced insulation materials that provide excellent
thermal isolation, reducing the impact of external temperature
fluctuations and maximizing the accuracy of calorific value
determinations.
- The bomb vessel, which houses the sample and withstands the high
pressures and temperatures of combustion, is made of a robust alloy
that can handle the extreme conditions without deformation or
leakage. It is engineered to maintain a sealed environment,
allowing for complete combustion and accurate measurement of the
heat released.
- Precise Instrumentation and Measurement Capabilities
- Equipped with a highly sensitive temperature sensor, the
calorimeter can detect even the slightest changes in temperature
during the combustion process. The sensor is calibrated to provide
accurate and reproducible readings, ensuring the reliability of the
calorific value calculations. The data acquisition system records
the temperature data in real-time and uses advanced algorithms to
calculate the calorific value based on the temperature change and
other parameters such as the mass of the sample and the heat
capacity of the calorimeter system.
- The instrument also features a precise pressure measurement device
to monitor the pressure build-up during combustion. This
information is valuable for ensuring the safety of the operation
and for understanding the combustion kinetics of the sample. The
user interface is intuitive and allows for easy setup of test
parameters, data viewing, and result analysis.
- Flexible and User-Friendly Design
- The Calorific Bomb Calorimeter can accommodate a wide range of
sample types and sizes. It is suitable for testing solid, liquid,
and gaseous fuels, as well as food samples and other combustible
materials. The sample holder and loading mechanism are designed for
easy operation, allowing for quick and accurate sample placement.
- The equipment can be configured to perform different types of
combustion tests, including constant-volume and constant-pressure
calorimetry, depending on the specific requirements of the
application. It also offers options for automated sample handling
and testing, increasing the throughput and efficiency of the
laboratory.
3. Specifications| Item | Specification | | Gross heat of combustion | 0.01MJ / kg ~ 30MJ / kg | | Heat of combustion repeatability error (Dynamic) | ≤0.1% | | Temperature range | 0 ~ 50 ℃ | | Temperature resolution | 0.0001 ℃ (using PT100 sensor) | | Oxygen calorimetric bomb volume | 300ML | | Oxygen calorimetric bomb mass | 3.2KG | | Calorimetric vessel volume | 2200ML | | Calorimetric bomb oxygen-supply pressure | 0 ~ 3.5Mpa without leakage | | Balance - Analytical balance accuracy | 0.1mg | | Balance - Ordinary balance accuracy | 0.1g | | Balance - "Cigarette" device for distribution preparation | One set (die size tolerance of cigarette sample ≤±0.15mm),
including crucible method and the cigarette method | | Balance - Total calorific value of combustion (PCS) | >10kJ/kg | | Balance - Repeatability error of combustion calorific value | ≤0.2% | | Balance - Temperature measurement range | 0 ~ 50 °C | | Control part (host) | 1 set | | Ignition circuit - Voltage | 12V | | Ignition circuit - Adjustable current | 100mA | | Ignition circuit - Ignition wire diameter | 0.1mm | | Pressure gauge and needle valve - Installation location | Installed on the oxygen supply circuit | | Pressure gauge and needle valve - Function | Showing the pressure of the oxygen bomb during oxygenation,
accurate to 0.1Mpa, oxygen bomb oxygenation pressure 0~3.5Mpa
without air leakage |
- Accurate Calorific Value Determination
- The primary function of the calorimeter is to provide highly
accurate measurements of the calorific value of combustion. By
precisely measuring the temperature rise in the calorimeter system
during combustion and accounting for all heat losses and gains, it
calculates the amount of heat energy released per unit mass of the
sample. This information is essential for evaluating the energy
content of fuels, which directly impacts their performance in
engines and heating systems. In the food industry, it helps in
determining the calorie content of food products, which is crucial
for nutrition labeling and diet planning.
- Quality Control and Product Development
- In industries such as petrochemicals and energy, the calorimeter is
used for quality control purposes. It ensures that fuels meet the
required calorific value specifications, which is vital for
maintaining the efficiency and performance of combustion processes.
For example, in a power plant, accurate calorific value
measurements of coal or gas help in optimizing the fuel-air mixture
and maximizing power generation. In the research and development of
new fuels and energy-efficient materials, the calorimeter provides
valuable data on their combustion characteristics, enabling
scientists to optimize their formulations and properties.
- Research and Energy Efficiency Studies
- The Calorific Bomb Calorimeter is an invaluable tool for
fundamental research in thermochemistry and energy science. It
allows researchers to study the combustion behavior of different
substances, understand the chemical reactions involved, and develop
new models and theories. In the context of energy efficiency and
sustainability, it helps in evaluating the potential of alternative
fuels and waste-to-energy conversion processes. By accurately
measuring the calorific value of waste materials, it is possible to
design more efficient waste incineration and energy recovery
systems, reducing the environmental impact and increasing the
utilization of waste resources.
- Stringent Manufacturing Process
- The Calorific Bomb Calorimeter is manufactured in a controlled
environment following strict quality management systems. Each
component is carefully selected and inspected for quality and
performance. The assembly process is carried out by trained
technicians using precise manufacturing techniques to ensure the
proper alignment and functionality of all parts. The calibration of
the temperature and pressure sensors is a critical step, and it is
performed using traceable reference standards to guarantee the
accuracy of the measurements.
- The equipment undergoes comprehensive testing and quality checks
before leaving the factory. It is tested with known reference
samples to verify its accuracy and reproducibility. Regular audits
and inspections are conducted to maintain the highest standards of
production and quality control.
- Quality Certification and Validation
Our calorimeter has obtained relevant international quality
certifications, attesting to its compliance with industry standards
and regulations. It has been validated by independent testing
laboratories and research institutions, demonstrating its
reliability and accuracy in calorific value measurements. We also
continuously update and improve our product based on the latest
technological advancements and customer feedback to ensure its
long-term performance and competitiveness.
- Energy and Petrochemical Industries
- In the energy sector, the calorimeter is used by power plants, oil
refineries, and gas companies to measure the calorific value of
their primary fuels. For example, a natural gas supplier uses the
calorimeter to determine the energy content of the gas, which is
essential for billing customers accurately and ensuring the proper
functioning of gas-fired appliances. In petrochemical research and
production, it helps in evaluating the quality of crude oils,
refined products, and chemical intermediates, enabling companies to
optimize their production processes and product specifications.
- Food and Nutrition Science
- In the food industry, the calorimeter is used to measure the
calorie content of various food products. A leading food
manufacturer uses the calorimeter to develop and label new products
with accurate nutritional information. It also helps in research on
food formulation and processing, allowing for the optimization of
recipes to meet specific calorie and nutritional requirements. For
example, in the development of low-calorie or high-energy food
products, the calorimeter provides crucial data on the energy
content of different ingredients and formulations.
- Waste Management and Environmental Science
- In waste management, the calorimeter is used to assess the energy
potential of waste materials. A waste-to-energy facility uses the
calorimeter to determine the calorific value of municipal solid
waste, industrial waste, and biomass. This information helps in
designing efficient waste incineration and gasification systems,
maximizing energy recovery and reducing the volume of waste sent to
landfills. In environmental science research, the calorimeter is
used to study the combustion characteristics of pollutants and
hazardous waste, providing insights into their environmental impact
and potential remediation strategies.
- Pre-Sales Technical Consultation
Our team of experts provides in-depth technical consultations to
help customers select the right model and configuration of the
Calorific Bomb Calorimeter based on their specific application
requirements. We offer demonstrations and training to familiarize
customers with the operation and functionality of the equipment
before purchase. We also provide detailed information on sample
preparation and handling, ensuring that customers can obtain
accurate and reliable results. - After-Sales Service and Maintenance
We offer comprehensive after-sales service, including on-site
installation and commissioning. Our technicians are available for
regular maintenance, calibration, and emergency repairs. We provide
spare parts and upgrades to keep the calorimeter operating at peak
performance. We also offer service contracts that include
preventive maintenance and priority technical support, ensuring the
long-term reliability and availability of the equipment. - Training and Technical Support
We conduct training programs for new users to ensure they can
effectively operate the calorimeter and interpret the test results.
Our technical support team is available 24/7 to answer questions,
provide troubleshooting assistance, and offer guidance on test
method optimization and compliance with relevant standards. We also
provide software updates and support for the data acquisition and
analysis systems, enabling customers to take full advantage of the
latest features and technologies.
The Calorific Bomb Calorimeter is an essential tool for accurate
combustion testing and calorific value determination. With its
advanced features, reliable performance, and comprehensive service
and support, it is the ideal choice for industries and research
institutions seeking to enhance their understanding of energy
content, fuel quality, and chemical reactivity. Invest in our
calorimeter and unlock the potential for more efficient and
sustainable operations in your field. |
