PUMICE STONE (cas 1332-09-8)s as potential in-situ burning enhancer
-
Add time:08/18/2019 Source:sciencedirect.com
Small-scale and mid-scale experiments were conducted in order to evaluate pumice stones as a potential enhancement for in-situ burning (ISB). Four oil types, several emulsification degrees of one crude oil were studied. In general, it was observed that the pumice stones did not improve the burning efficiency (BE). In fact, for large pumice coverage ratios, the BE was affected negatively, especially for the emulsified crude oil, which is the most likely condition of the oil that may be subjected to ISB. Furthermore, it was observed that a relatively large amount of the pumice stones were sinking during and after the burn, thus bringing the oil into the water column. Finally, the species production of CO and CO2 was not reduced. Based on the presented results, pumice stones have a negative impact on the efficiency of ISB, and they are ruled out as an ISB enhancer and should not be used in relation to ISB.
We also recommend Trading Suppliers and Manufacturers of PUMICE STONE (cas 1332-09-8). Pls Click Website Link as below: cas 1332-09-8 suppliers
Prev:Research paperInvestigating the effect of PUMICE STONE (cas 1332-09-8)s sensible heat storage on the performance of a solar still
Next:Effect of modification by five different acids on PUMICE STONE (cas 1332-09-8) as natural and low-cost adsorbent for removal of humic acid from aqueous solutions ‐ Application of response surface methodology) - 【Back】【Close 】【Print】【Add to favorite 】
- Related Information
- Removal of noxious dye—Acid Orange 7 from aqueous solution using natural pumice and Fe-coated PUMICE STONE (cas 1332-09-8)08/26/2019
- Comparative analysis of thermophilic immobilized biohydrogen production using packed materials of ceramic ring and PUMICE STONE (cas 1332-09-8)08/25/2019
- Formaldehyde biodegradation using an immobilized bed aerobic bioreactor with PUMICE STONE (cas 1332-09-8) as a support08/24/2019
- Optimization of autogenous shrinkage and microstructure for Ultra-High Performance Concrete (UHPC) based on appropriate application of porous pumice08/23/2019
- Spectroscopic analysis of Ahlat stone (ignimbrite) and pumice formed by volcanic activity08/22/2019
- Dating volcanic ash and PUMICE STONE (cas 1332-09-8)s from volcano El Misti, Peru, by thermoluminescence08/21/2019
- Experimental studies on the quasi-static movements of tube sections filled with PUMICE STONE (cas 1332-09-8)08/20/2019
- Effect of modification by five different acids on PUMICE STONE (cas 1332-09-8) as natural and low-cost adsorbent for removal of humic acid from aqueous solutions ‐ Application of response surface methodology08/19/2019
- Research paperInvestigating the effect of PUMICE STONE (cas 1332-09-8)s sensible heat storage on the performance of a solar still08/17/2019
