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    • 2. 发明申请
    • METHODS AND SYSTEMS FOR ENHANCING MERCURY, SELENIUM AND HEAVY METAL REMOVAL FROM FLUE GAS
    • 从燃气中提高汞,硒和重金属去除的方法和系统
    • WO2009067645A1
    • 2009-05-28
    • PCT/US2008/084285
    • 2008-11-21
    • CH2M HILL, INC.HIGGINS, Thomas E.
    • HIGGINS, Thomas E.
    • B01D47/00
    • C01F11/464B01D53/64B01D2251/404B01D2251/604B01D2257/60
    • A method for treating flue gas may include adding iron to a slurry in a ratio between approximately 20-to-1 and 5000-to-1 by weight of iron to a weight of mercury, selenium or other heavy metal to be removed from the flue gas, and contacting the slurry with the flue gas in a flue gas desulfurization system. A system for treating flue gas may include a scrubber, a slurry tank, and a water source. Water and limestone may be combined in the slurry tank to form a limestone slurry. At least a portion of the limestone slurry may be used to treat flue gas in the scrubber. Iron may be added to at least a portion of the limestone slurry used to treat flue gas in the scrubber. The iron used in either the method or system may be a ferrous or ferric salt, or elemental iron.
    • 用于处理烟道气的方法可以包括将浆料中的铁以约20-1比5000重量%的比例添加到汞,硒或其它重金属从烟道中除去的重量 气体,并在烟道气脱硫系统中将浆料与烟道气接触。 用于处理烟道气的系统可以包括洗涤器,浆料罐和水源。 水和石灰石可以在浆料罐中组合以形成石灰石浆料。 石灰石浆料的至少一部分可用于处理洗涤器中的烟道气。 铁可以添加到至少一部分用于处理洗涤器中的烟道气的石灰石浆料中。 在该方法或系统中使用的铁可以是亚铁或铁盐或元素铁。
    • 3. 发明申请
    • SYSTEMS AND METHODS FOR SOLAR MAPPING, DETERMINING A USABLE AREA FOR SOLAR ENERGY PRODUCTION AND/OR PROVIDING SOLAR INFORMATION
    • 用于太阳能测绘的系统和方法,确定用于太阳能生产和/或提供太阳能信息的可用区域
    • WO2009025928A9
    • 2009-04-16
    • PCT/US2008067389
    • 2008-06-18
    • CH2M HILL INCHOCHART STEVENMILLER RYANNUGENT NIGEL HSTOPPENHAGEN STEPHANIE
    • HOCHART STEVENMILLER RYANNUGENT NIGEL HSTOPPENHAGEN STEPHANIE
    • G06T15/50
    • G06T19/00F24J2200/04G06T17/05
    • A method of determining usable area of a structure for solar energy production may include obtaining a three-dimensional model of a structure and obstructions associated therewith, and performing a shading analysis using the obtained three-dimensional model to obtain a usable area of the structure. A method of providing solar information for a structure using a Web portal may include providing an interactive map, receiving a user selection of a structure located on the interactive map, and providing solar information for the selected structure, wherein the solar information is based at least in part on a usable area obtained by performing a shading analysis using a three-dimensional model of the structure and obstructions associated therewith. A system for providing an interactive Web portal may include a database including solar information regarding a structure, and a server configured to access the database to retrieve the solar information and provide the Web portal.
    • 确定用于太阳能生产的结构的可用面积的方法可以包括获得结构的三维模型和与其相关联的障碍物,并且使用所获得的三维模型执行阴影分析以获得结构的可用面积。 一种使用网络门户为结构提供太阳能信息的方法可以包括:提供交互式地图;接收位于交互式地图上的结构的用户选择;以及为所选择的结构提供太阳能信息,其中太阳能信息至少基于 部分地基于通过使用结构的三维模型和与其相关联的障碍物执行阴影分析而获得的可用区域。 用于提供交互式Web门户的系统可以包括包含关于结构的太阳信息的数据库,以及被配置为访问数据库以检索太阳信息并提供Web门户的服务器。
    • 4. 发明申请
    • METHOD AND SYSTEM FOR WATER FLOW ANALYSIS
    • 水流分析方法与系统
    • WO2005116906A2
    • 2005-12-08
    • PCT/US2005/018324
    • 2005-05-24
    • CH2M HILL, INC.PATWARDHAN, Avinash, S.JOBES, ThomasTHORPE, Jared, N.MADON, Sharook
    • PATWARDHAN, Avinash, S.JOBES, ThomasTHORPE, Jared, N.MADON, Sharook
    • G06G7/48
    • G06F17/5009G06F2217/16G06F2217/80
    • A method and system for modeling water flow quantity, quality, and fish biogenetics of a watershed restoration project. The modeling system allows a user to create a graphical representation of the different areas of a development site design. The graphical representation shows the water flows (quantity and quality) between the different areas. The user may also specify the attributes of each area, such as rate of infiltration, runoff coefficient, size, rate of evapotranspiration, and so on. The modeling system can simulate the impact of rainfall on the development design. The simulation determines the inflow (quantity and quality) of water to each area and determines the outflow (quantity and quality) of water for each area. The results of this simulation can be used to evaluate the development design and adjust the design to achieve the desired cost-benefit balance of the watershed protection criteria of choice.
    • 水流恢复工程水流量,质量和鱼类生物遗传学模拟方法与系统。 建模系统允许用户创建开发站点设计的不同区域的图形表示。 图形显示了不同地区之间的水流量(数量和质量)。 用户还可以指定每个区域的属性,例如渗透速率,径流系数,大小,蒸发速率等。 建模系统可以模拟降雨对开发设计的影响。 模拟确定每个区域的水流量(数量和质量),并确定每个区域的水流量(数量和质量)。 该模拟结果可用于评估开发设计和调整设计,以实现所选择的流域保护标准所需的成本效益平衡。
    • 7. 发明申请
    • GIS-BASED EMERGENCY MANAGEMENT
    • 基于GIS的应急管理
    • WO2004111754A2
    • 2004-12-23
    • PCT/US2004/016350
    • 2004-05-25
    • CH2M HILL, INC.RIEGELMAN, Edward A.HUBER, Daniel C.HEYERDAHL, Luke A.
    • RIEGELMAN, Edward A.HUBER, Daniel C.HEYERDAHL, Luke A.
    • G06F
    • G08B25/016G09B19/00
    • A GIS-based system and method for simulating, viewing, analyzing and managing emergency or other events is provided. A multi-layered map of the event location and surrounding area is displayed by a computer. A cordon area around the event location may be displayed as an additional layer and affected facilities may be highlighted. Traffic control points (TCPs) around the periphery of the cordon area may also be identified on the map. Thus, emergency personnel may be efficiently dispatched to assist evacuations and restrict access to the cordon area. If the event includes a hazardous material spill or threat, the computer may generate a plume dispersion model and display the estimated plume as another layer on the map whereupon an extended cordon area may be displayed and additional affected facilities and new TCPs highlighted. Real-time information may be received from on-scene personnel, remote sensors and other means and the map may thus be kept current.
    • 提供了一种用于模拟,查看,分析和管理紧急情况或其他事件的基于GIS的系统和方法。 计算机显示事件位置(220)和周围区域的多层地图。 事件位置(220)周围的警戒区域(230)可以被显示为附加层,并且可以突出显示受影响的设施。 也可以在地图上识别围绕警戒区(230)周边的交通控制点(TCP)(240)。 因此,可以有效地派遣急救人员以协助撤离并限制进入警戒区(230)。 如果事件包括危险材料溢出或威胁,则计算机可以生成羽流分散模型(250)并且将估计羽流(250)显示为地图上的另一层,因此可以显示扩展警戒区(230)并且附加影响 设施和新TCP(240)。 可以从现场人员,远程传感器和其他手段接收实时信息,因此可以保持地图保持当前状态。
    • 10. 发明申请
    • IN-SITU TREATMENT OF IN GROUND CONTAMINATION
    • 地面污染的现场处理
    • WO2007056641A2
    • 2007-05-18
    • PCT/US2006/060425
    • 2006-11-01
    • CH2M HILL, INC.HIGGINS, Thomas, E.SIMPKIN, Thomas, J.
    • HIGGINS, Thomas, E.SIMPKIN, Thomas, J.
    • B09C1/00
    • B09C1/002
    • In systems and methods for treatment of underground contamination, ferrous sulfide is provided as a substantially insoluble material in an underground formation. The ferrous sulfide accordingly may remain substantially in place, even over long periods of time, regardless of underground water movement or diffusion. As a result, the ferrous sulfide may act continuously to chemically reduce and remove contamination. When used for treatment of chromium ore processing residue contamination, the ferrous sulfide may remain in the pores of the soil or residue. As hexavalent chromium diffuses from the soil or residue, it is reduced by the ferrous sulfide. The ferrous sulfide may be injected as a liquid into the underground formation, and then change to a more solid form. Chlorinated solvent contamination, dissolved chromium from other than COPR contamination, and other dissolved metals may also be treated.
    • 在用于处理地下污染物的系统和方法中,硫化亚铁作为地下地层中基本不溶的物质提供。 因此,即使在长时间的时间内,硫化亚铁也可能保持基本就位,而不管地下水的运动或扩散。 结果,硫化亚铁可以连续地作用以化学还原和去除污染物。 当用于铬矿加工残渣污染处理时,硫化亚铁可能残留在土壤或残渣的孔隙中。 由于六价铬从土壤或残渣中扩散,所以硫化亚铁被还原。 硫化亚铁可以作为液体注入地下地层,然后变成更固体的形式。 也可以处理氯化溶剂污染,COPR污染以外的溶解铬和其他溶解的金属。