Patent application number | Description | Published |
20080213843 | Glucoamylase Variants - The invention relates to a variant of a parent fungal glucoamylase, which exhibits altered properties, in particular improved thermal stability and/or increased specific activity. | 09-04-2008 |
20080241315 | PROCESS FOR TREATING VEGETABLE MATERIAL WITH AN ENZYME - The enzymatic effect on an intracellular substrate present in vegetable cells with a membrane can be increased by pre-treating the vegetable material with a pulsed electric field. | 10-02-2008 |
20090074915 | Prcoess for Reducing Acrylamide - The present invention relates to a process for production of cooked vegetable food materials having reduced levels of acrylamide. | 03-19-2009 |
20100285175 | Method for Producing a Dairy Product - The present invention relates to a method for producing a dairy product using an enzyme having lactase activity. | 11-11-2010 |
20110027836 | Glucoamylase Variants - The invention relates to a variant of a parent fungal glucoamylase, which exhibits improved thermal stability and/or increased specific activity using saccharide substrates. | 02-03-2011 |
20110256267 | STABILIZATION OF ASPARAGINASE - The present invention relates to stabilization of asparaginase enzymes. | 10-20-2011 |
20120088277 | Glucoamylase Variants - The invention relates to a variant of a parent fungal glucoamylase, which exhibits improved thermal stability and/or increased specific activity using saccharide substrates. | 04-12-2012 |
20120208243 | Glucoamylase Variants - The invention relates to a variant of a parent fungal glucoamylase, which exhibits altered properties, in particular improved thermal stability and/or increased specific activity. | 08-16-2012 |
20120258196 | Process for Treating Vegetable Material with An Enzyme - The enzymatic effect on an intracellular substrate present in vegetable cells with a membrane can be increased by pre-treating the vegetable material with a pulsed electric field. | 10-11-2012 |
20140314908 | Process for Reducing Acrylamide - The present invention relates to a process for production of cooked vegetable food materials having reduced levels of acrylamide. | 10-23-2014 |
20140377406 | Process for Treating Vegetable Material with an Enzyme - The enzymatic effect on an intracellular substrate present in vegetable cells with a membrane can be increased by pre-treating the vegetable material with a pulsed electric field. | 12-25-2014 |
20150210995 | Thermostable Asparaginase Variants and Polynucleotides Encoding Same - The present invention relates to asparaginase variants. The present invention also relates to polynucleotides encoding the variants; nucleic acid constructs, vectors, and host cells comprising the polynucleotides; and methods of using the variants. The further relates to a process of producing a fermentation product, comprising: liquefying a starch-containing material to dextrins with an alpha-amylase in the presence of an asparaginase of the invention; saccharifying the dextrins to a sugar with a glucoamylase; and fermenting the sugar using a fermenting organism. | 07-30-2015 |
20150230503 | Process for Treating Vegetable Material with an Enzyme - The enzymatic effect on an intracellular substrate present in vegetable cells with a membrane can be increased by pre-treating the vegetable material with a pulsed electric field. | 08-20-2015 |
20150320089 | Method for Producing a Food Product - The present invention relates to a method for producing a heat-treated food product from a food material which has been contacted with an asparaginase in the presence of magnesium or manganese ions. | 11-12-2015 |
20150359246 | Method for Producing A Food Product - The present invention relates to a method for producing a heat-treated vegetable-based food product which comprises contacting with asparaginase at high temperature and subsequent drying. | 12-17-2015 |
20160037807 | Method for Reducing the Level of Asparagine in a Food Material - The present invention relates to a method for reducing the level of asparagine in a food material to be heat-treated comprising soaking the food material in water and contacting at least part of the soaking water with an immobilized asparaginase. | 02-11-2016 |
Patent application number | Description | Published |
20100136380 | SOLID OXIDE CELL AND SOLID OXIDE CELL STACK - A solid oxide cell obtainable by a process comprising the steps of: depositing a fuel electrode layer on a fuel electrode support layer; depositing an electrolyte layer comprising stabilised zirconia on the fuel electrode layer to provide an assembly of fuel electrode support, fuel electrode and electrolyte; optionally sintering the assembly of fuel electrode support, fuel electrode and electrolyte together to provide a pre-sintered half cell; depositing on the electrolyte layer of the pre-sintered half cell one or more oxygen electrode layers, at least one of the oxygen electrode layers comprising a composite of lanthanum-strontium-manganite and stabilised zirconia to provide a complete solid oxide cell; sintering the oxygen electrode layers together with the pre-sintered half cell to provide a sintered complete solid oxide cell; and impregnating the one or more oxygen electrode layers of the sintered complete solid oxide cell with manganese to obtain a manganese impregnated solid oxide cell. | 06-03-2010 |
20130052548 | PROCESS FOR OPERATING A HIGH TEMPERATURE FUEL CELL STACK - Process for operating a high temperature fuel cell stack, the process comprising the following steps: b) connecting the fuel cell stack in parallel to a power supply unit at a predefined temperature and/or voltage of the fuel cell stack, h) applying a voltage from the power supply unit of between 700 to 1500 mV per fuel cell across the fuel cell stack irrespective of the electro-motive force of the fuel cell stack, i) heating up the fuel cell stack from the predefined temperature to operation temperature while maintaining the voltage per fuel cell the power supply unit, j) maintaining the fuel cell stack at or above a predetermined operation temperature and/or above a predetermined voltage until the fuel cell stack is to be put into operation, k) supplying fuel to the fuel cell stack, l) disconnecting the power supply unit followed by m) connecting a power-requiring load to the fuel cell stack. | 02-28-2013 |
20130224620 | SOLID OXIDE CELL STACK AND METHOD FOR PREPARING SAME - A method for producing and reactivating a solid oxide cell stack structure by providing a catalyst precursor in at least one of the electrode layers by impregnation and subsequent drying after the stack has been assembled and initiated. Due to a significantly improved performance and an unexpected voltage improvement this solid oxide cell stack structure is particularly suitable for use in solid oxide fuel cell (SOFC) and solid oxide electrolysing cell (SOEC) applications. | 08-29-2013 |
20150244001 | METHOD AND AN ELECTRODE PRODUCED BY INFILTRATION - The present invention relates to electrodes having Gd and Pr-doped cerium oxide (CGPO) backbones infiltrated with Sr-doped LaCoO | 08-27-2015 |
Patent application number | Description | Published |
20090061287 | Horizontally Graded Structures for Electrochemical and Electronic Devices - The present invention provides a graded multilayer structure, comprising a support layer ( | 03-05-2009 |
20100015473 | MULTI-LAYER COATING - A multi-layer coating for protection of metals and alloys against oxidation at high temperatures in general is provided. The invention utilizes a multi-layer ceramic coating on metals or alloys for increased oxidation-resistance, comprising at least two layers, wherein the first layer ( | 01-21-2010 |
20100062312 | THIN SOLID OXIDE CELL - The present invention relates to a thin and in principle unsupported solid oxide cell, comprising at least a porous anode layer, an electrolyte layer and a porous cathode layer, wherein the anode layer and the cathode layer comprise an electrolyte material, at least one metal and a catalyst material, and wherein the overall thickness of the thin reversible cell is about 150 μm or less, and to a method for producing same. The present invention also relates to a thin and in principle unsupported solid oxide cell, comprising at least a porous anode layer, an electrolyte layer and a porous cathode layer, wherein the anode layer and the cathode layer comprise an electrolyte material and a catalyst material, wherein the electrolyte material is doper zirconia, and wherein the overall thickness of the thin reversible cell is about 150 μm or less, and to a method for producing same. The present invention further provides a thin separation membrane, comprising at least a porous anode layer, a membrane layer comprising a mixed conducting material and a porous cathode layer, wherein the anode layer and the cathode layer comprise the mixed conducting material and a catalyst material, and wherein the overall thickness of the thin separation membrane is about 1050 μm or less. | 03-11-2010 |
20100119886 | METHOD OF PRODUCING A MULTILAYER BARRIER STRUCTURE FOR A SOLID OXIDE FUEL CELL - The present invention provides a method of producing a multilayer barrier structure in a solid oxide cell stack, comprising the steps of: -providing a metal interconnect; -applying a first metal oxide layer on said metal interconnect; -applying a second metal oxide layer on top of said first metal oxide layer; -applying a third metal oxide layer on top of said second metal oxide layer; -forming a solid oxide cell stack comprising said metal interconnect having said metal oxide layers thereon; and -reacting the metal oxide in said first metal oxide layer with the metal of said metal interconnect during the SOC-stack initialisation, and a solid oxide stack comprising an anode contact layer and support structure, an anode layer, an electrolyte layer, a cathode layer, a cathode contact layer, a metallic interconnect, and a multilayer barrier structure which is obtainable by the above method and through an initialisation step, which is carried out under controlled conditions for atmosphere composition and current load, which depends on the layer composition facilitating the formation of the desired reaction products as a dense barrier layer without chromium species migrating to the air-electrode. | 05-13-2010 |
20110132772 | CHEAP THIN FILM OXYGEN MEMBRANES - The present invention provides a membrane, comprising a porous support layer a gas tight electronically and ionically conducting membrane layer and a catalyst layer, characterized in that the electronically and ionically conducting membrane layer is formed from a material having a crystallite structure with a crystal size of about 1 to 100 nm, and a method for producing same. | 06-09-2011 |
20110198216 | REMOVAL OF IMPURITY PHASES FROM ELECTROCHEMICAL DEVICES - The present invention provides a solid oxide cell comprising a support layer, a first electrode layer, an electrolyte layer, and a second cathode layer, wherein at least one of the electrode layers comprises electrolyte material, a catalyst and agglomerated particles selected from the group consisting of alkali oxides, earth alkali oxides and transition metal oxides. | 08-18-2011 |
20150056535 | MULTI-LAYER COATING - A multi-layer coating for protection of metals and alloys against oxidation at high temperatures is provided. The invention utilizes a multi-layer ceramic coating on metals or alloys for increased oxidation-resistance, comprising at least two layers, wherein the first layer ( | 02-26-2015 |