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Da Silva Neto
Amilcar Pereira Da Silva Neto, Rio De Janeiro BR
| Patent application number | Description | Published |
|---|---|---|
| 20080313955 | Catalytic cracking process for production of diesel from seeds of oleaginous plants - The present invention comprises a thermocatalytic cracking process for the production of diesel oil from a charge of vegetable origin made from seeds of oleaginous plants in refineries possessing at least two FCC reactors. At least -one of such reactors processes heavy gas oil or residue under conventional conditions whilst at least one of such reactors processes the charge of vegetable origin made from seeds of oleaginous plants under conditions suitable, for production of diesel oil. Said process employs the same catalyst utilised in the fluid catalytic cracking process which, simultaneously, processes a conventional charge. | 12-25-2008 |
Eugenio Ferreira Da Silva Neto, Biel-Benken CH
| Patent application number | Description | Published |
|---|---|---|
| 20090016462 | Field bus application comprising several field devices - In a fieldbus application with multiple field devices, in addition to a fieldbus serving as a wire-based communication network (CN | 01-15-2009 |
| 20090076629 | Field bus distribution unit - A field bus distribution unit (VE) designed for use in process automation technology involving several field devices. The unit is equipped with a microcontroller μC, which is connected to the field bus (FB) and transmits device-specific information of the field devices that are connected to a field bus distribution unit (VE). | 03-19-2009 |
| 20100063602 | METHOD FOR OPERATING A BLOCK MODEL BASED FIELD DEVICE FOR A DISTRIBUTED AUTOMATION SYSTEM - In a method for operating a field device working according to the block model for a distributed automation system, which exchanges data via a fieldbus, a first function block application serving for process control is provided, which makes available to other system participants process data via a first virtual field device object. In addition, a second function block application is provided, which serves for plant monitoring and which makes available to other system participants plant monitoring data via a second virtual field device object, wherein the first and second function block applications are executed according to different schedules. | 03-11-2010 |
Manoel Lisboa Da Silva Neto, Porto Alegre BR
| Patent application number | Description | Published |
|---|---|---|
| 20110251343 | PROCESS FOR POLYMERIZATION IN THE PRESENCE OF NANOPARTICLES OF A MINERAL FILLER FOR THE ATTAINMENT OF POLYMER NANOCOMPOSITES, AND A POLYMER NANOCOMPOSITE - The present invention refers to a process for the preparation of high performance polymer nanocomposites by means of an in situ continuous or batch polymerization process. More specifically, in this process, the sheet-like (layered) or spherical-like mineral filler is previously swollen with a swelling agent consisting in a saturated or unsaturated hydrocarbon or a polar or vinylic organic compound, in liquid state or near the critical point or in supercritical state, in a stirred continuous flow or batch type reactor, prior to being introduced into a polymerization reactor. The swelling agent is subjected to an endoenthalpic or isoenthalpic phase change upon being mixed with the mineral filler, in order to exfoliate and disperse the same at the nanometric level prior to the polymerization. By means of this process, mineral filler nanoparticles are incorporated and distributed homogeneously throughout the polymer matrix during the polymerization step, allowing the obtainment of a high performance polymer nanocomposite. The present invention further refers to polymer nanocomposites exhibiting differentiated properties compared with the properties of the traditional composites, such as, for example, improved mechanical and barrier properties, enhanced chemical and thermal strength and further, in case of comprising a conductive sheet-like (layered) filler, to the obtainment of a thermally and electrically conductive polymer composite. | 10-13-2011 |