会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Brine treatment
    • 盐水处理
    • US5240687A
    • 1993-08-31
    • US843169
    • 1992-02-28
    • Darrell L. GallupAllen W. DotyMorton M. WongCharles F. WongJohn L. FeatherstoneJessie P. ReverentePhilip H. Messer
    • Darrell L. GallupAllen W. DotyMorton M. WongCharles F. WongJohn L. FeatherstoneJessie P. ReverentePhilip H. Messer
    • C01D3/16F24J3/08
    • C01D3/16F24J3/085Y02E10/14
    • Geothermal brine is passed through a zone containing a packing metal so as to reduce its tendency to deposit iron/silica scale, reduce corrosivity of the brine, and/or remove and recover metals from the brine. The method polishes the geothermal brine by contacting the brine with a packing metal higher in the electromotive series than silver for a time sufficient for a precious metals to precipitate onto the packing at brine temperature and pH conditions which inhibit iron-rich silica scale. Most preferably, the contacting is accomplished near an injection well at the end of a heat extraction process and the packing comprises coiled zinc-galvanized steel chicken wire mesh packed in a sufficient density to also act as a filter for suspended particles. Alternatively, contacting is also accomplished near the production well. Dissolving the packing in a suitable acid leaves a precious metal-rich residue behind for subsequent recovery. When the brine is treated in accordance with this method, the useful life of injection wells used to return cooled brine back to the geothermal field is extended by at least about 3 time as compared to that observed with untreated brine. Further the contacted brine is less corrosive than it was before contacting.
    • 地热盐水通过含有包装金属的区域,以便降低其沉积铁/二氧化硅垢的倾向,降低盐水的腐蚀性,和/或从盐水中除去和回收金属。 该方法通过使盐水与电荷系列比银高的填充金属接触一段时间,使贵金属在盐水温度和pH条件下沉淀到填料上,从而抑制富铁二氧化硅垢。 最优选地,在热提取过程结束时,在注入井附近进行接触,并且填料包括以足够密度填充的卷绕的镀锌钢丝鸡丝网,还用作悬浮颗粒的过滤器。 或者,也可以在生产井附近进行接触。 将包装溶解在合适的酸中,留下贵重的富含金属的残留物,以便后续回收。 当根据该方法处理盐水时,将冷却的盐水返回到地热场的注入井的使用寿命比未处理的盐水所观察到的延长至少约3倍。 此外,接触的盐水比接触前的腐蚀性较小。
    • 3. 发明授权
    • Process and apparatus for reducing the concentration of suspended solids
in clarified geothermal brine
    • 降低澄清地热盐水中悬浮固体浓度的方法和装置
    • US4874529A
    • 1989-10-17
    • US162005
    • 1988-02-29
    • John L. FeatherstoneS. Timothy SpangDavid G. NewellDarrell L. Gallup
    • John L. FeatherstoneS. Timothy SpangDavid G. NewellDarrell L. Gallup
    • B01D36/04C02F1/54E21B43/40
    • B01D36/04C02F1/54E21B43/40
    • A process and apparatus is provided for reducing the concentration of fine, residual solids still remaining suspended in clarified geothermal brine overflow from a primary brine clarification stage in which hot, flashed, silica-rich geothermal brine, containing suspended siliceous material, is gravity separated, comprises flowing the brine overflow from the primary clarification stage into a closed secondary clarifier vessel having an internal reaction well. Capacity of the secondary clarifier vessel provides a brine residence time in the vessel of between about 45 and about 150 minutes, the brine residence time in the reaction well being between about 10 and about 20 minutes. Brine in the vessel is blanketed with steam flashed from the brine to exclude air from the vessel. In the reaction well, the brine is contacted with a flocculating agent, such as a cationic, anionic, or non-ionic polyacrylamide having a molecular weight of at least about 1 million, in an amount of between about 0.25 and about 2 parts per million. An underflow slurry of flocculated siliceous solids and brine is discharged from the bottom of the vessel. An amount of such underflow slurry is recirculated back into the reaction well to cause the solids concentration in the well to be between about 0.5 and about 3 weight percent. A secondarily clarified brine overflow from the secondary clarifier vessel has a concentration of fine, siliceous material remaining suspended therein that is substantially reduced over the concentration of such material suspended in the brine overflow from the primary clarification stage.
    • 提供了一种方法和装置,用于降低仍然悬浮在澄清的地热盐水溢出物中的细小残留固体的浓度,其中主要的盐水澄清阶段,其中含有悬浮的硅质材料的热的,闪蒸的含二氧化硅的地热卤水被重力分离, 包括将盐水溢出物从初级澄清段流入具有良好内部反应的封闭的次级澄清池。 次级澄清器容器的容量在容器中提供在约45至约150分钟之间的盐水停留时间,反应中的盐水停留时间为约10至约20分钟。 容器中的盐水被从盐水中闪蒸的蒸汽覆盖,以排除容器中的空气。 在反应槽中,将盐水与絮凝剂如分子量至少约100万的阳离子,阴离子或非离子聚丙烯酰胺接触,其量为约0.25至约2ppm 。 絮凝的硅质固体和盐水的下溢浆料从容器的底部排出。 将这种下溢浆料的量再循环回到反应井中,以使井中的固体浓度在约0.5重量%至约3重量%之间。 次要澄清的二次澄清池容器中的盐水溢出物具有悬浮在其中的精细的二氧化硅材料的浓度,其基本上比悬浮在盐水从初级澄清阶段溢出的材料的浓度降低。
    • 4. 发明授权
    • Treatment of brine
    • 处理盐水
    • US5145515A
    • 1992-09-08
    • US458886
    • 1989-12-29
    • Darrell L. GallupJohn L. FeatherstoneJessie P. ReverentePhilip H. MesserAllen W. Doty
    • Darrell L. GallupJohn L. FeatherstoneJessie P. ReverentePhilip H. MesserAllen W. Doty
    • F03G4/00C01D3/16C02F5/00C02F5/08C02F5/10F24J3/08
    • F24J3/085C01D3/16Y02E10/14Y10S423/19
    • A method is disclosed for polishing geothermal brines containing iron-rich silica scale and silica particles suspended therein while removing and recovering copper, silver and other precious metals dissolved therein. The method comprises passing brine having a pH just below about 5.0 through a conduit packed with a metal higher in the electromotive series than silver for a time sufficient for a substantial portion of the copper and silver therein to precipitate onto the packing. Preferably, the packing comprises coiled zinc-galvanized steel chicken wire mesh packed in a sufficient density to act as a filter for said suspended particles. Dissolving the packing in a suitable acid will leave a precious metal-rich residue behind for subsequent recovery. When the brine is treated in accordance with this method, the useful life of injection wells used to return cooled brine back to the geothermal field is extended by at least about 3 time as compared to that observed with untreated brine. Further the treated brine is less corrosive than it was before treatment.
    • 公开了一种用于抛光含有富铁二氧化硅垢和悬浮在其中的二氧化硅颗粒的地热盐水的方法,同时除去和回收溶解在其中的铜,银和其它贵金属。 该方法包括将具有低于约5.0的pH的盐水通过填充有比电银系列更高的金属的导管充满足以使其中大部分铜和银沉淀到填料上的时间的导管。 优选地,填料包括以足够的密度填充的卷绕的镀锌钢丝鸡丝网,以充当所述悬浮颗粒的过滤器。 将包装溶解在合适的酸中将留下贵重的富含金属的残留物,以便随后的回收。 当根据该方法处理盐水时,将冷却的盐水返回到地热场的注入井的使用寿命比未处理的盐水所观察到的延长至少约3倍。 此外,处理过的盐水比处理前的腐蚀性低。
    • 8. 发明授权
    • Brine treatment
    • 盐水处理
    • US5145656A
    • 1992-09-08
    • US559042
    • 1990-07-26
    • Darrell L. GallupAllen W. DotyMorton M. WongCharles F. WongJohn L. FeatherstoneJessie P. ReverentePhilip H. Messer
    • Darrell L. GallupAllen W. DotyMorton M. WongCharles F. WongJohn L. FeatherstoneJessie P. ReverentePhilip H. Messer
    • C01D3/16F24J3/08
    • F24J3/085C01D3/16Y02E10/14Y10S423/19
    • Geothermal brine is passed through a zone containing a packing metal so as to reduce its tendency to deposit iron/silica scale, reduce corrosivity of the brine, and/or remove and recover metals from the brine. The method polished the geothermal brine by contacting the brine with a packing metal higher in the electromotive series than silver for a time sufficient for a precious metals to precipitate onto the packing at brine temperature and pH conditions which inhibit iron-rich silica scale. Most preferably, the contacting is accomplished near an injection well at the end of a heat extraction process and the packing comprises coiled zinc-galvanized steel chicken wire mesh packed in a sufficient density to also act as a filter for suspended particles. Alternatively, contacting is also accomplished near the production well. Dissolving the packing in a suitable acid leaves a precious metal-rich residue behind for subsequent recovery. When the brine is treated in accordance with this method, the useful life of injection wells used to return cooled brine back to the geothermal field is extended by at least about 3 time as compared to that observed with untreated brine. Further the contacted brine is less corrosive than it was before contacting.
    • 地热盐水通过含有包装金属的区域,以便降低其沉积铁/二氧化硅垢的倾向,降低盐水的腐蚀性,和/或从盐水中除去和回收金属。 该方法通过使盐水与电动系列比银高的填充金属接触足够使贵金属在盐水温度和抑制富铁二氧化硅垢的pH条件下沉淀到填料上的时间来抛光地热盐水。 最优选地,在热提取过程结束时在注入井附近进行接触,并且填料包括以足够的密度填充的卷曲的镀锌钢丝鸡丝网,还用作悬浮颗粒的过滤器。 或者,也可以在生产井附近进行接触。 将包装溶解在合适的酸中,留下贵重的富含金属的残留物,以便后续回收。 当根据该方法处理盐水时,将冷却的盐水返回到地热场的注入井的使用寿命比未处理的盐水所观察到的延长至少约3倍。 此外,接触的盐水比接触前的腐蚀性较小。