公开(公告)号：IT201900006340A1

公开(公告)日：2020-10-24

申请号：IT201900006340

申请日：2019-04-24

Applicant: MERONI MANUELA ,  ROSSI ANDREA

Inventor： MERONI MANUELA ,  ROSSI ANDREA

公开(公告)号：HRP20171960T1

公开(公告)日：2018-02-23

申请号：HRP20171960

申请日：2017-12-19

Applicant: ROSSI ANDREA

Inventor： ROSSI ANDREA

IPC: F24V30/00

公开(公告)号：CL2016001856A1

公开(公告)日：2017-03-24

申请号：CL2016001856

申请日：2016-07-21

Applicant: ROSSI ANDREA

Inventor： ROSSI ANDREA

IPC: F24V30/00

Abstract: Un aparato para calentar el fluido, que constituye una alternativa al calentamiento de fluidos mediante sistemas de transferencia de calor, comprende: un tanque para mantener el fluido que se va a calentar, y un laminado de combustible en comunicación fluida con dicho fluido, dicho laminado de combustible incluye una mezcla de combustible que incluye reactivos y un catalizador, y una fuente de ignición en comunicación térmica con dicha mezcla de combustible y dicho catalizador, en donde la fuente de ignición se selecciona del grupo que consiste de un calentador de inducción, un resistor eléctrico, un calentador que depende de combustión de gas natural, y un calentador que depende de la combustión del combustible, en donde dicha fuente de ignición comprende un resistor eléctrico, en donde dicho tanque se configura para mantener el fluido que se va a calentar, en donde dicho laminado de combustible se configura para estar en comunicación térmica con dicho fluido, en donde dicho resistor se configura para ser acoplado a una fuente de voltaje, en donde dicho aparato comprende adicionalmente un controlador en comunicación con dicha fuente de voltaje, y un sensor de temperatura, en donde dicha mezcla de combustible comprende litio, e hidruro de aluminio y litio, en donde dicho catalizador comprende un grupo de 10 elementos, en donde dicho controlador se configura para supervisar una temperatura de dicho sensor de temperatura, y, con base por lo menos en parte en dicha temperatura, para revitalizar una reacción en dicha mezcla de combustible, en donde la revitalización de dicha reacción comprende variar un voltaje de dicha fuente de voltaje.

公开(公告)号：ZA201604152B

公开(公告)日：2016-11-30

申请号：ZA201604152

申请日：2016-06-20

Applicant: ROSSI ANDREA

Inventor： ROSSI ANDREA

IPC: F24V30/00

公开(公告)号：AU2015296800B2

公开(公告)日：2016-05-05

申请号：AU2015296800

申请日：2015-07-28

Applicant: ROSSI ANDREA

Inventor： ROSSI ANDREA

IPC: F24V30/00

Abstract: An apparatus for heating fluid includes a tank for holding fluid to be heated, and a fuel wafer in fluid communication with the fluid. The fuel wafer includes a fuel mixture including reagents and a catalyst, and an electrical resistor or other heat source in thermal communication with the fuel mixture and the catalyst.

公开(公告)号：IT1286513B1

公开(公告)日：1998-07-15

申请号：ITMI962514

申请日：1996-11-29

Applicant: ROSSI ANDREA

Inventor： ROSSI ANDREA

IPC: C10L20060101

公开(公告)号：ITMI962514A1

公开(公告)日：1998-05-29

申请号：ITMI962514

申请日：1996-11-29

Applicant: ROSSI ANDREA

Inventor： ROSSI ANDREA

IPC: C10L20060101

公开(公告)号：FR2452329A1

公开(公告)日：1980-10-24

申请号：FR7928142

申请日：1979-11-09

Applicant: ROSSI ANDREA

IPC: B09B3/00 ,  C10B47/18 ,  C10B53/00 ,  C10B57/02 ,  C10G1/10 ,  C10J3/00 ,  C01B31/02

Abstract: The installation is operating with several units served by travelling crane supplying the units with refuse. The refuse is emptied into converting reactor of cylindrical design, fitted with discharge door at the bottom. The refuse is subjected to pressures ranging from /O, L to 3,5 kg/cm2 and temp. ranging from (40-200 degrees C) under bio-catalytic conditions and simultaneous mechanical agitation, whereby the refuse is converted into carbonaceous products. In the same reactor the products are subjected to thermal conditions up to 350 degrees C and the gases produced are piped via line into a cooling/condensation chamber and from there by pipes into a cistern common to all units. Part of the gases are used for maintaining the operation of the installation. The exhausted residues are periodically discharged from the reactor vis door.

公开(公告)号：DE3005247A1

公开(公告)日：1980-10-09

申请号：DE3005247

申请日：1980-02-13

Applicant: ROSSI ANDREA

Inventor： ROSSI ANDREA

IPC: B09B3/00 ,  C10B47/18 ,  C10B53/00 ,  C10B57/02 ,  C10G1/10 ,  C10J3/00 ,  B03B9/06

Abstract: The installation is operating with several units served by travelling crane supplying the units with refuse. The refuse is emptied into converting reactor of cylindrical design, fitted with discharge door at the bottom. The refuse is subjected to pressures ranging from /O, L to 3,5 kg/cm2 and temp. ranging from (40-200 degrees C) under bio-catalytic conditions and simultaneous mechanical agitation, whereby the refuse is converted into carbonaceous products. In the same reactor the products are subjected to thermal conditions up to 350 degrees C and the gases produced are piped via line into a cooling/condensation chamber and from there by pipes into a cistern common to all units. Part of the gases are used for maintaining the operation of the installation. The exhausted residues are periodically discharged from the reactor vis door.

公开(公告)号：GB191508903A

公开(公告)日：1915-10-21

申请号：GB191508903D

申请日：1915-06-16

Applicant: TEDESCHI VITTORIO ,  ROSSI ANDREA GIULIO

Inventor： TEDESCHI VITTORIO ,  ROSSI ANDREA GIULIO

IPC: B60C7/16 ,  H03F13/00

Abstract: 8903. Tedeschi, V., and Rossi, A. G. June 16. Relays, non - circuitclosing.-A relay of the dynamo-electric type for amplifying telephonic and like currents comprises interchangeable primary and secondary coils arranged symmetrically in ring formation with their axes parallel to the axis of the ring, the coils being brought into inductive relation with one another by the rotation of one or more copper or like disks. In the form shown in Fig. 1, the primary and secondary circuits I, II each include a pair of stationary coils surrounding laminated soft-iron cores a, b. The primary coils A, B are wound in opposite directions and are placed at opposite sides of the centre of a rotary copper disk R, and the similarly-wound secondary coils C, D are symmetrically placed 90 degrees from the primary coils. The number of primary and secondary coils may be increased, for example, the primary coils may be 90 degrees apart and separated by secondary coils, successive primary ooils or secondary coils being wound in opposite directions. In the multiple machine shown in Fig. 4, the primary and secondary coils are arranged between a series of parallel copper disks R, all mounted on and rotated by a central shaft. The sets of primary and secondary coils may be connected respectively in series, or the first set of secondary coils may be connected to the second set of primary coils, and so on; or mixed connexions may be made. In a modification, Fig. 7, a large number of coils A is used, the whole forming a stationary ring mounted between two copper annuli R secured to the rim of a wheel M of non-magnetic material. In Fig. 9, the primary coils I, wound alternately in opposite directions, are shown all on one side of the copper annulus R, and the secondary coils II are on the other side. The centre of each primary coil is midway between the centres of the adjacent secondary coils, and the cores of adjacent coils are bridged, to form horseshoe magnets a, b, &c.