 |
|
| |
Beta zeolite was the first zeolite to be identified, and its name was previously given to the ZSM naming system before Mobil's discovery. Beta zeolite's complex composition includes a mixture of two separate structures, polymorph A and polymorph B. Both of these polymorphs have a three-dimensional network of doceelike pores with a total of 12. Each polymorph is composed of a 2D sheet that grows along the y-axis, and the sheets in beta zeolite are randomly assigned to either of the two polymorphs. The growth of the polymorphs has little to no effect on the pores in two of the dimensions, however, the direction of the fault is more tortuous than the direction of the growth.
Beta zeolites are commonly utilized in the reduction of VOC, N2O, and NOx, as well as in the purification of industrial gases and the control of automotive emissions. Additionally, they are beneficial for increasing chemical diversity, producing chemical intermediaries, and taking part in chemical processes. Additionally, beta zeolites have a special utility in adsorbent applications, these include the replacement of active carbon and the removal of odors.
Product | Series Code | Framework | SiO2/Al2O3 (mol/mol) | Pore Diameter Å | Crystal Size μm | Cation | BET mm2/g | L.O.I 1000℃,% | Na2O % | Partcicle Size μm(D50) |
Beta | YT-B | *BEA | 25~150 | 7 | _ | Na, NH4+ H+ | >600 | <10 | <0.10 | 5-10 |
Application:
- Reduction of VOC, N2O, and NOx
- Industrial gas purification
- Automotive emission control
- Active carbon replacement
- Odor Removal
Beta zeolite was the first zeolite to be identified, and its name was previously given to the ZSM naming system before Mobil's discovery. Beta zeolite's complex composition includes a mixture of two separate structures, polymorph A and polymorph B. Both of these polymorphs have a three-dimensional network of doceelike pores with a total of 12. Each polymorph is composed of a 2D sheet that grows along the y-axis, and the sheets in beta zeolite are randomly assigned to either of the two polymorphs. The growth of the polymorphs has little to no effect on the pores in two of the dimensions, however, the direction of the fault is more tortuous than the direction of the growth.
Beta zeolites are commonly utilized in the reduction of VOC, N2O, and NOx, as well as in the purification of industrial gases and the control of automotive emissions. Additionally, they are beneficial for increasing chemical diversity, producing chemical intermediaries, and taking part in chemical processes. Additionally, beta zeolites have a special utility in adsorbent applications, these include the replacement of active carbon and the removal of odors.
Product | Series Code | Framework | SiO2/Al2O3 (mol/mol) | Pore Diameter Å | Crystal Size μm | Cation | BET mm2/g | L.O.I 1000℃,% | Na2O % | Partcicle Size μm(D50) |
Beta | YT-B | *BEA | 25~150 | 7 | _ | Na, NH4+ H+ | >600 | <10 | <0.10 | 5-10 |
Application:
- Reduction of VOC, N2O, and NOx
- Industrial gas purification
- Automotive emission control
- Active carbon replacement
- Odor Removal