Reesink
Bennie Reesink, De Meern NL
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20110037342 | THERMOMAGNETIC GENERATOR - A thermomagnetic generator which converts thermal energy to electrical energy without intermediate conversion to mechanical work and which works at temperatures in the range from −20° C. to 200° C. comprises a thermomagnetic material selected from, for example, | 02-17-2011 |
Bennie Reesink, Ad Winterswijk-Kotten NL
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20110030939 | HEAT EXCHANGER BEDS COMPOSED OF THERMOMAGNETIC MATERIAL - What are described are a packed heat exchanger bed composed of thermomagnetic material particles which have a mean diameter in the range from 50 μm to 1 mm and give rise to a porosity in the packed bed of 30 to 45%, and a heat exchanger bed composed of a thermomagnetic material monolith which has continuous channels with a cross-sectional area of the individual channels in the range from 0.001 to 0.2 mm | 02-10-2011 |
Bennie Reesink, Winterswijk-Kotten NL
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20110041513 | POLYCRYSTALLINE MAGNETOCALORIC MATERIALS - What are described are polycrystalline magnetocaloric materials of the general formula | 02-24-2011 |
20110042608 | OPEN-CELLED, POROUS SHAPED BODY FOR HEAT EXCHANGERS - An open-cell porous shaped body for heat exchangers comprises a thermomagnetic material selected from, for example, | 02-24-2011 |
20110094243 | MAGNETO-CALORIC HEAT PUMP WITH THE USE OF A CASCADE OF MAGNETO-CALORIC MATERIALS - A heat exchanger bed is formed from a cascade of at least three different magnetocaloric materials with different Curie temperatures, which are arranged in succession by ascending or descending Curie temperature and are preferably isolated from one another by intermediate thermal and/or electrical insulators, the difference in the Curie temperatures of adjacent magnetocaloric materials being 0.5 to 6° C. | 04-28-2011 |
20110167837 | MAGNETOCALORIC MATERIALS - What are described are magnetocaloric materials of the general formula | 07-14-2011 |
20120033002 | PRINTING METHOD FOR PRODUCING THERMOMAGNETIC FORM BODIES FOR HEAT EXCHANGERS - In a method for producing form bodies for heat exchangers, comprising a thermomagnetic material, said form bodies having channels for passage of a fluid heat exchange medium, a powder of the thermomagnetic material is introduced into a binder, the resulting molding material is applied to a carrier by printing methods, and the binder and if appropriate a carrier are removed subsequently and the resulting green body is sintered. | 02-09-2012 |
Bernard Hendrik Reesink, Ad Winterswijk-Kotten NL
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20150330721 | HEAT EXCHANGER BEDS COMPOSED OF THERMOMAGNETIC MATERIAL - Provided is a packed heat exchanger bed composed of thermomagnetic material particles having a mean particle diameter of 50 μm to 1 mm. The packed bed has porosity of 30-45%. A thermomagnetic material is a metal containing material such as (A | 11-19-2015 |
Bernard Hendrik Reesink, Doorn NL
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20100219103 | PROCESS FOR THE PURIFICATION OF BENZENE FEEDSTOCK CONTAINING CONTAMINATING SULFUR COMPOUNDS - The invention is directed to a process for the purification of benzene feedstock containing contaminating sulfur compounds, more in particular thiophenic sulfur compounds, said process comprising contacting the benzene feedstock in the presence of hydrogen with a sulfided nickel adsorbent, wherein in said adsorbent part of the nickel is present in the metallic form, and subsequently contacting the said feedstock with a supported metallic copper adsorbent. | 09-02-2010 |
Bernard Hendrik Reesink, Winterswijk-Kotten NL
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20130157055 | Nano-Particles Containing Carbon and a Ferromagnetic Metal or Alloy - The invention relates to nano-particles comprising metallic ferromagnetic nanocrystals combined with either amorphous or graphitic carbon in which or on which chemical groups are present that can dissociate in aqueous solutions. According to the invention there is provided nano-particles comprising metal particles of at least one ferromagnetic metal, which metal particles are at least in part encapsulated by graphitic carbon. The nano-particles of the invention are prepared by impregnating carbon containing bodies with an aqueous solution of at least one ferromagnetic metal precursor, drying the impregnated bodies, followed by heating the impregnated bodies in an inert and substantially oxygen-free atmosphere, thereby reducing the metal compounds to the corresponding metal or metal alloy. | 06-20-2013 |
20140202171 | PERFORMANCE IMPROVEMENT OF MAGNETOCALORIC CASCADES THROUGH OPTIMIZED MATERIAL ARRANGEMENT - A magnetocaloric cascade containing at least three different magnetocaloric materials with different Curie temperatures, which are arranged in succession by descending Curie temperature, wherein none of the different magnetocaloric materials with different Curie temperatures has a higher layer performance Lp than the magnetocaloric material with the highest Curie temperature and wherein at least one of the different magnetocaloric materials with different Curie temperatures has as lower layer performance Lp than the magnetocaloric material with the highest Curie temperature wherein Lp of a particular magnetocaloric material being calculated according to formula (I): | 07-24-2014 |
Hendrik Willem Reesink, Amsterdam Zuidoost NL
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20150044167 | Means and Method for Response Prediction of Hepatitis B Treatment - The present invention provides means and methods for determining whether a hepatitis B patient is susceptible to hepatitis B treatment, comprising determining whether a sample of the patient comprises nucleic acid with nucleotide polymorphisms that are associated with a positive outcome of hepatitis B treatment and/or determining whether a sample of the patient comprises an expression level of carnitine or of a carnitine derivative that is associated with a positive outcome of hepatitis B treatment. Compositions, kits of parts, (micro)arrays and vectors useful for such methods are also herewith provided. | 02-12-2015 |
Henk Reesink, Amstelveen NL
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20150192583 | HBV IMMUNOCOMPLEXES FOR RESPONSE PREDICTION AND THERAPY MONITORING OF CHRONIC HBV PATIENTS - The present invention relates to a method for identifying a subject suffering from hepatitis B virus (HBV) infection as being susceptible to interferon treatment, said method comprising the steps of a) determining, in a sample of said subject, the amount of HBV immune complexes, b) comparing the amount of HBV immune complexes obtained in step a) to a reference value, and c) identifying a subject suffering from HBV infection as being susceptible to interferon treatment based on the result of the comparison made in step b). The present invention further relates to the use of the determination of the amount of HBV immune complexes in a sample from a subject suffering from HBV infection and of a detection agent for HBV immune complexes for identifying a subject suffering from HBV infection as being susceptible to interferon treatment. Furthermore, the present invention relates to a device and a kit allowing identifying a subject suffering from HBV infection as being susceptible to interferon treatment. | 07-09-2015 |