科技报告详细信息
Ultra-low Sulfur Reduction Emission Control Device/Development of an On-board Fuel Sulfur Trap
Rohrbach, Ron ; Barron, Ann
关键词: CATALYSTS;    COMBUSTION;    DESULFURIZATION;    DIESEL ENGINES;    ENGINES;    FILTRATION;    FUEL CELLS;    FUEL SYSTEMS;    LIFE CYCLE;    MANUFACTURERS;    PETROLEUM;    POWER GENERATION;    RECYCLING;    REGENERATION;    RESOLUTION;    SULFUR;    TESTING;    US EPA;    WASTES;   
DOI  :  10.2172/947010
RP-ID  :  None
PID  :  OSTI ID: 947010
Others  :  TRN: US200904%%460
美国|英语
来源: SciTech Connect
PDF
【 摘 要 】

Honeywell has completed working on a multiyear program to develop and demonstrate proof-of-concept for an 'on-vehicle' desulfurization fuel filter for both light duty and heavy-duty diesel engines. Integration of the filter into the vehicle fuel system will reduce the adverse effects sulfur has on post combustion emission control devices such as NOx adsorbers. The NOx adsorber may be required to meet the proposed new EPA Tier II and '2007-Rule' emission standards. The proposed filter concept is based on Honeywell's reactive filtration technology and experience in liquids handling and conditioning. A regeneration and recycling plan for the spent filters was also examined. We have chosen to develop and demonstrate this technology based on criteria set forth for a heavy duty CIDI engine system because it represents a more challenging set of conditions of service intervals and overall fuel usage over light duty systems. In the second phase of the program a light duty diesel engine test was also demonstrated. Further, technology developed under this proposal would also have application for the use of liquid based fuels for fuel cell power generation. The program consisted of four phases. Phase I focused on developing a concept design and analysis and resolution of technical barriers concerning removal of sulfur-containing species in low sulfur fuels. In Phase II concentrated on prototype filter design and preparation followed by qualification testing of this component in a fuel line application. Phase III studied life cycle and regeneration options for the spent filter. Phase IV focused on efficacy and benefits in the desulfation steps of a NOx adsorber on both a heavy and light duty engine. The project team included a number of partners, with Honeywell International as the prime contractor. The partners include an emission control technology developer (Honeywell International), a fuel technology developer (Marathon Ashland Petroleum), a catalyst technology developer (Johnson Matthey), a CIDI engine manufacturer (Navistar Inc. (formerly International Truck & Engine Corporation) and Mack Trucks Inc.), and filter recycler (American Wastes Industries).

【 预 览 】
附件列表
Files Size Format View
RO201705180001441LZ 393KB PDF download
  文献评价指标  
  下载次数:8次 浏览次数:20次