# Combined Equations (5) and (10) can calculate the total amount of Pb and 21Bi atoms in activated carbon after adsorption for any length of time (i.e., the total number of activated carbon Y).Let n=0 in Equation (10), then the accumulation and attenuation

Answers:0 | LastUpdateAt:2022-01-14 22:57:28

**Q**uestion-
- Asked at 2022-01-14 22:57:28

Combined Equations (5) and (10) can calculate the total amount of Pb and 21Bi atoms in activated carbon after adsorption for any length of time (i.e., the total number of activated carbon Y).Let n=0 in Equation (10), then the accumulation and attenuation of total atomic amount of 2Pb and 2Bi (total number of activated carbon Y) after the removal of activated carbon can be calculated in Equation (10).In fact, if thin layer activated carbon is used, the value of N should be equal to the product of the adsorption coefficient of activated carbon and radon concentration, while the radon adsorption coefficient of activated carbon mainly depends on the type of activated carbon and is affected by temperature, humidity and other factors. gold adsorption onto activated carbon

When the radon adsorption coefficient of activated carbon is constant,n is proportional to the concentration of radon. In this case, Equation (10) represents the functional relationship among the total number of activated carbon V, radon concentration and adsorption (or exposure) time. Therefore, the concentration of radon in the environment can be calculated according to the total number of activated carbon and adsorption time.Simulation calculation and result analysis of total number of activated carbon According to Equations (5) and (10), a computer program can be written to calculate the relationship between the total number of Y in the process of radon adsorption on activated carbon and the relationship between the total number of Y after the removal of activated carbon and the change of time. activated carbon manufacturers uae

Answers

This Question:"Combined Equations (5) and (10) can calculate the total amount of Pb and 21Bi atoms in activated carbon after adsorption for any length of time (i.e., the total number of activated carbon Y).Let n=0 in Equation (10), then the accumulation and attenuation " No answers yet.

Be the first!

Related Questions

- Combined Equations (5) and (10) can calculate the total amount of Pb and 21Bi atoms in activated carbon after adsorption for any length of time (i.e., the total number of activated carbon Y).Let n=0 in Equation (10), then the accumulation and attenuation
Combined Equations (5) and (10) can calculate the total amount of Pb and 21Bi...

- The volatiliability and total pore area of activated carbon
Activated carbon adsorption, is the use of activated carbon on the solid surf...

- The volatiliability and total pore area of activated carbon
Acid-base modification is to use acid, alkali and other substances to treat a...

- Adsorption rate and amount of activated carbon
With the rapid development of pharmaceutical preparation industry and primary...

- Adsorption rate and amount of activated carbon
Particle strength is also a main index of granular activated carbon.

...

- Adsorption rate and amount of activated carbon
Increase the number of activated carbon mesh and millimeter corresponding tab...

- Adsorption rate and amount of activated carbon
In 1916, Langmuir studied the adsorption of monolayer molecules and proposed ...

- Adsorption rate and amount of activated carbon
Under certain operating conditions, the gas mixture by adsorption bed, adsorp...

- Adsorption rate and amount of activated carbon
Factors such as [10. For honeycomb activated carbon, the wall thickness is a ...

- Adsorption rate and amount of activated carbon
Under certain operating conditions, the gas mixture by adsorption bed, adsorp...

### Answer This
Question:**Combined Equations (5) and (10) can calculate the total amount of Pb and 21Bi atoms in activated carbon after adsorption for any length of time (i.e., the total number of activated carbon Y).Let n=0 in Equation (10), then the accumulation and attenuation **