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The Opportunities and Challenges of Geotourism:A Case Study in Oldonyo Lengai in Tanzania
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作者 Stephen Joseph Nyagonde Constantine Deus Shirati 《地学前缘》 EI CAS CSCD 北大核心 2009年第S1期293-294,共2页
Both geoparks and geosites are unique geological features of spectacular importance to earth science (global scientific importance) and the surrounding community.The Oldonyo Lengai(The God for the Maasai people and un... Both geoparks and geosites are unique geological features of spectacular importance to earth science (global scientific importance) and the surrounding community.The Oldonyo Lengai(The God for the Maasai people and unique active felsic magmatism) 展开更多
关键词 Oldonyo lengai GEOTOURISM opportuneities and CHALLENGES
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Oldoinyo Lengai Volcanic Ash for Removal of Hydrogen Sulfide and Ammonia from Biogas
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作者 Isack Kandola Alexander Pogrebnoi Tatiana Pogrebnaya 《Journal of Materials Science and Chemical Engineering》 2018年第4期78-93,共16页
Oldoinyo Lengai mountain located in Northern Tanzania is the only active natrocarbonatite volcano with unusually alkali-rich natrocarbonatites which are not found elsewhere in the world. Volcanic ash formed earlier du... Oldoinyo Lengai mountain located in Northern Tanzania is the only active natrocarbonatite volcano with unusually alkali-rich natrocarbonatites which are not found elsewhere in the world. Volcanic ash formed earlier during eruptions was collected from different sites along the mountain, and its potency to adsorb hydrogen sulfide (H2S) and ammonia (NH3) from biogas was investigated. The samples were calcinated at different temperatures (550℃ - 850℃) and were characterized by X-ray florescent, scanning electron microscopy and X-ray diffraction techniques. The on-site adsorption experiments were conducted at the biogas digester at ambient conditions. The calcinated ash was packed into the reactor bed, biogas allowed to pass through the adsorbent, and the inlet and outlet concentrations of H2S and NH3 were measured. The height of the site where the adsorbent was taken from, calcination temperature, biogas flowrate and mass of the adsorbent were variable parameters and found to influence greatly on the efficiency of H2S and NH3 removal. The efficiency is increased with calcination temperature raise and mass of adsorbent and decreased with flowrate increase. The samples collected from the top site of the mountain and calcinated at 850℃ exhibited the best sorption performance. 展开更多
关键词 Adsorption CALCINATION Flowrate Oldoinyo lengai VOLCANIC ASH H2S and NH3 REMOVAL
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