Skip to main content

Home/ BioenergyBR/ Group items tagged patente

Rss Feed Group items tagged

Pannir selvam

Fuel cell power generation system - Google Patents - 0 views

  •  
    Patent number: 5658681 Filing date: Sep 27, 1995 Issue date: Aug 19, 1997 Abstract A fuel cell power generation system including a reforming reactor for reacting a fuel with water to produce a hydrogen-rich reformed gas including carbon monoxide; a CO shift reactor for carrying out a CO shift reaction to decrease the concentration of carbon monoxide in the reformed gas;... About this patent
Pannir selvam

Biomass Gasification Power Generation (LHC-400(Kw)), China Biomass Gasification Power G... - 1 views

  •  
    Power generation by biomass fuels gasification and its comprehensive utilization is a rising industry. Our company specially recruit Mr. Guo Dezhang, expert and patent owner in this field, to research and design newly type complete set of equipment of biomass gasification power generation in order to reduce the fuel cost for the users and improve the efficiency of energy exchange. According to users needs, safe and reliable computerized controlling system can be designed. For the ash residue of the burned materials, it can be used to produce white carbon black, activated carbon and machine carbon, which can make comprehensive use of recycling energy and helpful to harmonious development of human being and nature.
Pannir selvam

Method for SOx removal by catalytic carbon - Patent EP0786282 - 0 views

  •  
    An improved process is provided for the removal of sulfur oxides from gas or vapor media containing oxygen and water by contacting said media with a catalytically-active carbonaceous char. The improvement is provided by the use of a catalytically-active carbonaceous char prepared by low-temperature carbonization and oxidation of a bituminous coal or bituminous coal-like material followed by exposure to a nitrogen-containing compound during the initial high-temperature exposure of the low-temperature oxidized char. Following this initial high-temperature treatment the material can be further calcined or activated as desired.
Pannir selvam

ScienceDirect - Energy : Economical CO2, SOx, and NOx capture from fossil-fuel utilizat... - 0 views

  •  
    Economical CO2, SOx, and NOx capture from fossil-fuel utilization with combined renewable hydrogen production and large-scale carbon sequestration Danny Daya, Corresponding Author Contact Information, E-mail The Corresponding Author, Robert J. Evansb, James W. Leec and Don Reicoskyd aEprida, Inc., 6300 Powers Ferry Road, Suite 307, Atlanta, GA 30339, USA bNational Renewable Energy Laboratory, 1617 Cole Blvd, Golden, CO 80401, USA cOak Ridge National Laboratory, 4500N, A16, MS-6194, Oak Ridge, TN 37831, USA dUSDA-Agricultural Research Service, 803 Iowa Avenue, Morris, MN 56267, USA Available online 17 November 2004. Purchase the full-text article References and further reading may be available for this article. To view references and further reading you must purchase this article. Abstract The objective of this project was to investigate and demonstrate production methods at a continuous, bench-scale level and generate sufficient material for an initial evaluation of a potentially profitable method of producing bioenergy and sequestering carbon. The novel process uses agricultural, forestry, and waste biomass to produce hydrogen using pyrolysis and reforming technologies conducted in a 50 kg/h pilot demonstration. The test runs produced a novel, nitrogen-enriched, slow-release, carbon-sequestering fertilizer. Seven kilograms of the material were produced for further plant growth response testing. A pyrolysis temperature profile was discovered that results in a carbon char with an affinity for capturing CO2 through gas phase reaction with mixed nitrogen-carrying nutrient compounds within the pore structures of the carbon char. A bench-scale project demonstrated a continuous process fluidized-bed agglomerating process. The total amount of CO2 sequestration was managed by controlling particle discharge rates based on density. The patent-pending process is particularly applicable to fossil-fuel power plants as it also removes SOx and NOx, does not require ene
1 - 4 of 4
Showing 20 items per page