HHV experiment with bomb calorimeter

In summary, the conversation discusses the impact of using a higher initial temperature in an experiment to determine the HHV value of bio diesel fuel. It is suggested that a higher initial temperature may result in a higher value for HHV due to heat loss to the surroundings if the bomb is not 100% insulated. However, the experts explain that the bomb should not be insulated as heat transfer from the bomb to the surrounding water is necessary to calculate the HHV. Further research into the equations used for calculating HHV is suggested before proceeding.
  • #1
Will
This question refers to a lab that we did for determining the HHV value of bio diesel fuel. We are asked if the experiment was done using a higher initial temperature than the bomb was calibrated for, how would this affect the HHV determined? The room temperature is assumed to be the same in both cases. Our logic says that if the bomb is not 100% insulated, then more heat would be lost to the surroundings, and thus a lower value for HHV would result. Is this correct? Looking at some results online, it seems that a higher value was found with higher initial temperatures. So I need some input from the experts here; it would be greatly appreciated.
 
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  • #2
Think about it this way...you are looking at how much energy has to go into the fuel to find it's HHV. If the bomb is not insulted, you will lose energy to the surroundings which means that it will appear that you have to add more to the fuel to overcome that loss. As an example, let's say it takes 10 units of energy in a perfectly insulated machine. Now, there is a slight loss of 2 units to the atmosphere. You now have to provide 12 units of energy to get the same result. So, with the imperfections, it would tend to show an increase in HHV.
 
  • #3
FredGarvin said:
So, with the imperfections, it would tend to show an increase in HHV.
Why higher? Wouldn't more heat lost to the system mean less change in temperature in the bomb, thus a lower calculated HHV? Also how does this relate to changing the initial temperature of the bomb?
 
  • #4
You do not want the bomb to be insulated. It's the fact that heat transfers from the bomb to the surrounding water that gives you the temperature rise to calculate the HHV. You do not want any heat transfer from the bucket to the surroundings. In fact, the more precise machines will have a water jacket around the bucket with heated water to try to match the rate of temperature rise of the water in the bucket in an attempt to make the entire bucket adiabatic.

I am trying to remember the whole process of doing this. We should look at the equations you use to calculate the HHV. I haven't read the ASTM spec on this in quite a while. Let me do some research back into the calcs before we go any further.
 

Related to HHV experiment with bomb calorimeter

1. What is the purpose of conducting an HHV experiment with a bomb calorimeter?

The purpose of conducting an HHV experiment with a bomb calorimeter is to determine the higher heating value (HHV) of a substance, which is the maximum amount of heat released when the substance is completely burned. This value is important in industries such as energy production and fuel analysis.

2. How does a bomb calorimeter work?

A bomb calorimeter works by igniting a sample of the substance inside a sealed steel container (the "bomb") filled with oxygen and submerged in a known amount of water. As the substance burns, it releases heat which is absorbed by the surrounding water. The change in temperature of the water is then measured, allowing the calculation of the HHV of the substance.

3. What type of substances can be tested using a bomb calorimeter?

A bomb calorimeter can be used to test a wide range of substances, including solid and liquid fuels, food items, and chemicals. However, it is not suitable for substances that do not burn completely, such as gases and some volatile liquids.

4. What are the advantages of using a bomb calorimeter for HHV experiments?

Using a bomb calorimeter for HHV experiments has several advantages. It is a highly accurate method, producing precise and repeatable results. It also allows for the determination of the HHV of substances that are difficult to burn in open air. Additionally, the setup is relatively simple and the equipment is widely available.

5. Are there any limitations to using a bomb calorimeter?

While a bomb calorimeter is a reliable method for determining HHV, it does have some limitations. It is not suitable for substances that do not completely burn, and it may not accurately measure the HHV of substances that contain moisture or other impurities. Additionally, the combustion process in a bomb calorimeter may not accurately reflect the actual conditions in which the substance would be burned in real-world applications.

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