The subject matter of the present invention is a process for treating organic waste coupling in-situ biostimulation to produce hydrolytic enzymes and hydrolysis of the refractory organic matter from waste using these enzymes for the purpose of energy recovery.
The invention relates to a method for ventilating a drum (10), said drum containing organic matter and bacteria, the method comprising steps consisting of: rotating (100) the drum in order to move the waste along in a direction of movement between an inlet and an outlet of the drum; injecting gas into the drum (110) by means of at least one ventilation device arranged in the drum; and extracting gas from the drum (120) by means of an extraction device. The invention is essentially characterised in that it also comprises a step consisting in regulating (130) the temperature and the flow rate of the injected gas.
A method is described for cold-cutting a lamp having an inner pressure that is lower than the atmospheric pressure and containing a pollutant. The method includes keeping the lamp in position; cutting the lamp at at least one cutting point; prior to cutting, submerging the cutting point in a liquid or pasty composition; keeping the cutting point submerged during the cutting; and suctioning part of the composition into each cut-off portion. The composition is a dilatant and has a temperature no lower than the pour point thereof, prior to the cutting step. After the cutting, the temperature of the dilatant composition is reduced to a temperature lower than the pour point thereof, such as to increase the viscosity thereof and create a sealed stopper.
The invention concerns a method for regulating the ventilation of a pre-composting drum (10), into which waste (19) is introduced (100) and of which the shutters are closed (101). It is essentially characterised in that it comprises: - characterising (102) beforehand the nature of the waste introduced, - measuring (103) the temperature and determining (104) the total mass of waste (19) in the drum, - calculating (105) at least one of the values chosen from a quantity of air and a flow rate of air to be injected, depending on the temperature measured, from the determined total mass of the waste, and from the characterised nature of the waste, with reference to a set of matches stored in a memory, and - injecting (106) the calculated quantity of air or injecting the air at the calculated flow rate into the drum (10) by means of a fan (17), while the inlet shutter (12) and outlet shutter (13) are closed.
A pre-composting drum (10) comprising a main body (11), an inlet shutter (12), an outlet shutter (13), and optionally a supply chute (14), characterised in that it further comprises: - at least one inlet (16), - at least one ventilation device (17), and - a selective blocking device (160) per inlet for selectively uncovering or covering said inlet, said selective blocking device comprising a flange inserted into an inlet and a mobile stopper mounted on the flange, said mobile stopper comprising a guide element configured to come into contact with a guide rail.
The invention relates to a method for cold-cutting a lamp (21) having an inner pressure that is lower than the atmospheric pressure and containing a pollutant. Said method includes: keeping the lamp in position; cutting (102) said lamp at at least one cutting point; prior to cutting, submerging (110) said cutting point in a liquid or pasty composition; keeping said cutting point submerged during the cutting; and suctioning (130) part of the composition into each cut-off portion (26A, 26B). Said method is essentially characterized in that the composition is dilatant and has a temperature no lower than the pour point thereof, prior to the cutting step. The method is also characterized in that, after the cutting, the temperature of the dilatant composition (104) is reduced to a temperature lower than the pour point thereof, such as to increase the viscosity thereof and create a sealed stopper.
The invention relates to a method for at least partially deconstructing a flat display screen (10), the screen (10) comprising: —a substantially flat faceplate (11) comprising four side edges and a visible part (12) on a front face of the screen (10), said visible part (12) being intended to display images, —a frame (13) that mounts the faceplate (11) by partially covering at least the front face and two side edges, the method comprising steps of: —disposing (100) a single screen (10) on a holding device (20), and —clamping (110) the single screen (10) to the holding device (20). The method is essentially characterized in that it also comprises a step of: —effecting plastic deformation (120) of the frame (13) while maintaining the integrity of the faceplate (11).
The invention relates to a method for cold-cutting a lamp (21) having an inner pressure that is lower than the atmospheric pressure and containing a pollutant. Said method includes: keeping the lamp in position; cutting (102) said lamp at at least one cutting point; prior to cutting, submerging (110) said cutting point in a liquid or pasty composition; keeping said cutting point submerged during the cutting; and suctioning (130) part of the composition into each cut-off portion (26A, 26B). Said method is essentially characterized in that the composition is dilatant and has a temperature no lower than the pour point thereof, prior to the cutting step. The method is also characterized in that, after the cutting, the temperature of the dilatant composition (104) is reduced to a temperature lower than the pour point thereof, such as to increase the viscosity thereof and create a sealed stopper.
The invention concerns, in particular, a method of containing a sample of a gaseous mixture flowing in a pipeline (11) at a flow rate, for analysis of same by at least one analyser (12) of which the operating conditions are not compatible with the physico-chemical conditions of the gaseous mixture in the pipeline, the method comprising steps consisting of: collecting (100) a sample of the gaseous mixture in the pipeline, diluting (110) the collected sample with a dry dilution gas, at a dilution temperature (T_dil) equal to or close to the temperature (T_prel) of the gaseous mixture in the pipeline during the collection step, and conveying (130) the collected and diluted sample out of the pipeline via an outlet pipe (7) for analysis of same by said analyser (12).
The invention relates to a method for adjusting the thickness (H2) of a layer of solid products on a conveyor (20), comprising the steps of: conveying products on a first linear conveyor (10) at a first speed (V1), emptying the products from the first conveyor (10) onto the second linear conveyor (20), and conveying the products on the second conveyor (20) at a second speed (V2). Said method is substantially characterized in that it further includes steps of: determining a nearly constant set product flow rate Ø2,cons and a second nearly constant speed (V2) on the second conveyor (20), measuring the flow of products on the first conveyor (10) by means of a first sensor (11), and controlling the first speed (V1) by at least the value of the flow measured by the first sensor (11) and at set product flow rate value Φ2.
The invention relates to a device for regulating the flow rate of a fluid in a pipe (13X) of a network of pipes, the device comprising: measurement means (17'); means for extracting the fluid from the pipe (10, 0'); and control means (14, 14') that are configured to control the extraction of the fluid on the basis of the measurements (1) carried out by the measurement means (17'). The device is substantially characterized in that the control means (14, 14') are configured to control the extraction means (10, 10'), and in that the extraction means (10, 10') include unit extraction means (10') configured to be moved into or towards said pipe (13X).
The invention relates to a method for making profitable use of industrial fumes (1), involving steps consisting in: -incinerating (10) waste (100) in a furnace (110) at an incineration temperature of between 600°C and 1100°C, producing industrial fumes (1) comprising acidic gases and dust, - performing a post‑combustion (20) of the fumes (1) in a post‑combustion zone (120) at a post‑combustion temperature, if the incineration temperature is below a threshold temperature, and - introducing (30) the fumes (1) into a boiler (150). It is essentially characterized in that it further comprises, upstream of the introduction into the boiler (150), steps consisting in: treating (40) the fumes (1) by injecting reagents (141) that at least partially neutralize the acidic gases, and - performing a catalytic filtration (50) of the treated fumes using a catalytic filter (131).
The invention relates to a method for upgrading substrates, comprising: A. introducing (110) volumes of substrates (10) into strainers (20), B. humidifying (120) a volume in order to hydrolyse the organic constituents thereof, C. injecting (140) the leachate from the humidified volume into an anaerobic digester (30), D. sending a portion of the liquid from the digester back into a strainer for step B, and E. repeating steps B to D. The method is characterised in that all of the leachate is injected directly into the digester, and in that, beyond a threshold time value, the method further comprises: F. performing aerobic fermentation (181) of the volume of substrates in the strainer; and G. performing aerobic maturation (182) of the volume of substrates in another aerobic location (50) in order to obtain a stabilised compost, lower than a maximum threshold value and/or higher than a minimum threshold value.
The invention relates to a method for establishing a strategy for cutting out a flat screen (10) including an exposed panel (12) and a frame (11), with a view to upgrading at least a portion of the components thereof, comprising the steps of: determining (110) the dimensions of the exposed panel and the outer dimensions of the screen at least in the plane of the exposed panel; defining (120) the three-dimensional position of the screen in a three-dimensional frame of reference space; defining (130), in the frame of reference, at least one reference line (REF) that is parallel to one of the edges of the frame; and defining (140) at least one cutting line (CUT) of the frame, from which the distance (DC) to the reference line is constant and predetermined.
The invention relates to a method for at least partially deconstructing a flat display screen (10), the screen (10) comprising: - a substantially flat faceplate (11) comprising four side edges and a visible part (12) on a front face of the screen (10), said visible part (12) being intended to display images, - a frame (13) that mounts the faceplate (11) by partially covering at least the front face and two side edges, the method comprising steps of: - disposing (100) a single screen (10) on a holding device (20), and - clamping (110) the single screen (10) to the holding device (20). The method is essentially characterized in that it also comprises a step of: - effecting plastic deformation (120) of the frame (13) while maintaining the integrity of the faceplate (11).
16.
METHOD FOR AT LEAST PARTIALLY DECONSTRUCTING A FLAT DISPLAY SCREEN
The invention relates to a method for at least partially deconstructing a flat display screen (10), the screen (10) comprising: - a substantially flat faceplate (11) comprising four side edges and a visible part (12) on a front face of the screen (10), said visible part (12) being intended to display images, - a frame (13) that mounts the faceplate (11) by partially covering at least the front face and two side edges, the method comprising steps of: - disposing (100) a single screen (10) on a holding device (20), and - clamping (110) the single screen (10) to the holding device (20). The method is essentially characterized in that it also comprises a step of: - effecting plastic deformation (120) of the frame (13) while maintaining the integrity of the faceplate (11).
H01J 9/50 - Repairing or regenerating used or defective discharge tubes, lamps or their salvageable components
H01J 9/52 - Recovery of material from discharge tubes or lamps
G02F 1/13 - Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulatingNon-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
17.
METHOD FOR THE PRODUCTION OF GLASS FIBRES AND ASSOCIATED GLASS FIBRES
The invention relates to a method for the production of glass fibres, comprising the following steps: supplying the starting ingredients including silica, a material that can provide a supply of alumina and at least one flux; melting the starting ingredients at a temperature of between 1300°C and 1500°C; subjecting the molten mixture to fibre forming; and collecting the fibres thus obtained. According to the invention, the above-mentioned material that can provide a supply of alumina consists of coal fly ash. The invention also relates to the mineral fibres that can be obtained by this method.
The invention relates to a method of deconstructing at least partially a flat screen, the screen (10) comprising connectors (15) attached to the screen (10), back-lighting lamps (11) connected to at least one respective connector (15), and attached to the screen (10) by this connector (15), the method comprising steps consisting in: - when the screen (10) comprises a faceplate, removing (100) beforehand said faceplate to render the lamps (11) and the board (13) apparent, and - detaching (120) the lamps (11) from the screen (10) without breaking them.
The invention relates to a method for at least partially dismantling a flat screen, said screen (10) comprising: a substantially flat base (12); connectors (50) solidly connected to the screen (10); back-light lamps (11) connected to at least one connector (15) and solidly connected to the screen (10) by means of said connector (15); at least two lateral edges (R1, R3); and at least one plate (30) substantially perpendicular to at least one of the lateral edges (R1, R3), said plate (13) covering the connectors (15) and the end of the lamps (11) connected thereto and being provided with openings (14) for the passage of said lamps (11) to the connectors (15). The method comprises the following steps: when the screen (10) comprises a faceplate, the faceplate is first removed (100) in order to reveal the lamps (11) and the above-mentioned plate (13), and the lamps (11) are dismantled (120) from the screen without breaking same.
39 - Transport, packaging, storage and travel services
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
Storage of waste, including green waste, biological waste,
slurry and household waste; storage of organic matter
derived from the treatment of waste including green waste,
biological waste, slurry and household waste; information on
storage of green waste and organic matter derived from
treating waste. Treatment of materials; sorting, treatment, composting and
recycling of waste, including green waste, biological waste,
slurry and household waste; monitoring of the fermentation
of waste, including green waste, biological waste, slurry
and household waste, and of the stability of the organic
matter derived from the treatment of such waste. Research and development services in the field of sorting
and treatment of waste, design of technical devices intended
for monitoring the fermentation of organic waste and for the
treatment of organic waste, including the composting
thereof; design (creation), development and updating of
software intended for monitoring the fermentation of waste
and monitoring the stability of the organic matter derived
from the treatment of waste.
21.
EQUIPMENT FOR CLEANING TANKS INTENDED FOR STORING INFLAMMABLE PRODUCTS
The invention relates to cleaning equipment for cleaning a tank intended for storing inflammable products and that defines an internal volume (Vint) provided with an opening, this equipment comprising a shutter (1) suitable for closing the opening, a flexible hose (2) that passes through the shutter (1), a trolley (3) sized in order to be able to be introduced into the internal volume (Vint) of the tank, and a cleaning head (4) borne by the trolley (3), connected to the flexible hose (2), and designed in order to spray a cleaning liquid delivered at high pressure by the flexible hose (2). The equipment of the invention also comprises a rod (5) connected to the trolley (3) and passing through the shutter (1), and the trolley (3) comprises a chassis (30) provided with rolling members (300) so as to be able to adopt, in the tank, a position controlled by an action exerted on the rod (5) in the space (Ext) external to the tank.
The invention particularly relates to a device for automatically cleaning the outer surface (FE) of a container (K), such as a waste container, having a vertical axis of symmetry (Z). Said device includes a crane (2) sized so as to be able to seize the container (K) by an anchor point (A) and lift the container along the vertical axis (Z) thereof, at least two retractable brushes (1) arranged symmetrically relative to the vertical axis (Z) of the container (K), and a rotary bearing (3) arranged between the crane (2) and the anchor point (A).
The invention relates to a method for processing waste and for producing methane that comprises filling a chamber with waste in which the latter undergoes an anaerobic degradation. According to the invention, the method is substantially characterised in that a large chamber (1) and a small chamber (2) are respectively filled with slightly organic waste and with highly organic waste, and in that a liquid fraction generated by the degradation of waste in the large chamber is fed into the small chamber. The invention also relates to a plant adapted for implementing the method according to the invention.
The invention relates to a method, and a device, for selectively sorting objects comprising the steps consisting in: - providing (110) a stream of objects comprising a set of unitary objects, - producing (120) an image of a part at least of the set of objects, and broadcasting it over a set of at least one video screen, - targeting (125) an object in the image projected onto a video screen, and - automatically sorting (199) the object selected from the stream. According to the invention, the method is essentially characterized in that it furthermore comprises a step consisting in: - marking (130) on the set of at least one video screen the object selected.
The invention relates to an automatic waste treatment process, and corresponding device, said process comprising the steps consisting in: delivering (200) a number of individual waste items; conveying (210) at least one individual waste item; and analysing (220) said individual waste item. According to the invention, the step of analysing the individual waste item includes a step consisting in determining (230) the biogenic carbon content of the individual waste item.
The invention concerns a composting method, and corresponding device, for an organic mass placed in a composting zone, comprising the following steps: measuring, by means of a probe, in at least one measuring point of the composting zone, at least one physico-chemical parameter, and aerating the organic mass. The invention is basically characterized in that the probe is inserted in the organic mass, and in that aeration comprises a step of sequential blowing, a function of the measuring step. Advantageously, the probe is mobile so that it can cover any point of the composting zone.
The invention relates particularly to an equipment for processing fatty waste (1) essentially comprising a fatty fraction (11), an aqueous fraction (12), and a residual fraction (13), wherein said equipment includes at least one boiler (2), a station (3) for collecting waste (1), a fractioning station (4), a loop including a duct (5) having a constant utility volume for the waste (1) flow between the collecting station (3) and the fractioning station (4), and at least one heat exchanger (61 - 63) for heating the waste. According to the invention, each heat exchanger (61 - 63) is mounted on said duct (5).
The invention relates to a method for degrading waste in an assembly that comprises at least one container, said method comprising the following steps: depositing the waste in the container; and recovering (210) the lixiviate from the housing into a basin. The method is characterised in that it further comprises the step of sequentially humidifying (250) the waste in the container by dispensing a liquid that contains the collected lixiviate. The selection of at least one dispensing head is carried out by selection means based on fuzzy logic.
The invention essentially relates to a method for controlling the extraction of a biogas from a housing (50) equipped with at least one extraction assembly (31A, 31B) connected to a manifold (70A, 70B) via a control valve (10A, 10B), said method comprising the following steps: providing a respective predetermined manifold pressure (Pr) for each manifold (70A, 70B), and opening the control valve (10A, 10B) in a given position. The method is essentially characterised in that it further comprises the following steps: measuring the value of a meteorological parameter outside the housing; calculating a global set point (dPci) of the control valve (0A, 10B) position based on the measured meteorological parameter value, and opening the control valve (10A, 10B) in a given position in response to the global set point (dPci).
The invention relates to a process for measuring the diffuse gaseous emissions (13) emanating from an emissive site (1) comprising a step that consists in carrying out a first measurement, using at least one measurement device, by analysing at least one constituent of the diffuse gaseous emissions (13) at a first measurement point (A). According to the invention, the process comprises the following steps: - comparing the first measurement with a threshold value of the diffuse gaseous emissions (13) previously stored in the memory by attributing a predetermined priority level to the first measurement, - defining in the space the positioning of another point (B) for measuring the diffuse gaseous emissions (13) by applying a predetermined rule specific to the priority level of the first measurement. The invention also relates to an autonomous mobile robot (2) intended to carry out the process.
The present invention generally pertains to the field of liquid effluent analysis and essentially relates to the characterisation of organic matter in these effluents. More precisely, the invention relates to a method for characterising organic matter (OM) in a liquid effluent by discontinuous and static fractioning of the organic matter.
The invention relates to an incineration furnace adapted for recovering the thermal energy of combustion gases (G) and comprising a hearth (1) for receiving the fuel (D) in the form of a bed and provided with primary oxidant-gas injectors (11-15), and a flue (2) whose base (20) comprises at least two secondary oxidant-gas inlets (3, 4) formed therein. The furnace of the invention further includes injection adjustment means (5) for modifying, over time and in a cyclic manner, the secondary oxidant-gas flows respectively fed through said oxidant-gas inlets (3, 4).
F23G 5/14 - Methods or apparatus, e.g. incinerators, specially adapted for combustion of waste or low-grade fuels including supplementary heating including secondary combustion
F23L 9/02 - Passages or apertures for delivering secondary air for completing combustion of fuel by discharging the air above the fire
33.
DEVICE FOR MEASURING THE FLOW RATE OF ONE OF THE CONSTITUENTS OF A MULTIPHASE FLUID FLOWING IN A CONDUIT
The invention relates to a device for measuring the flow rate of at least a first constituent of a multiphase fluid flowing axially in a conduit having a favoured axis by measurement of friction noise generated by the first constituent of the multiphase fluid, the measurement device comprising a non-intrusive noise detector linked to an outer face of the conduit, at least one obstacle added to the inside of the conduit and formed by at least one metal lamella comprising at least one portion that extends axially in the conduit and at least one segment connecting the portion with the conduit. According to the invention, the portion forms, with the segment, in a plane comprising the axis, a predetermined non-zero angle.
G01F 1/66 - Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by measuring frequency, phase shift or propagation time of electromagnetic or other waves, e.g. using ultrasonic flowmeters
G01F 1/704 - Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow using marked regions or existing inhomogeneities within the fluid stream, e.g. statistically occurring variations in a fluid parameter
G01F 1/74 - Devices for measuring flow of a fluid or flow of a fluent solid material in suspension in another fluid
G05D 11/13 - Controlling ratio of two or more flows of fluid or fluent material characterised by the use of electric means
34.
SEQUENTIAL SELECTIVE SORTING METHOD AND INSTALLATION FOR IMPLEMENTING IT
The present invention relates in general to a method for selectively sorting miscellaneous items, particularly waste, which allows various types of item to be sorted sequentially, and to a selective sorting installation suited to such a method.
The invention concerns a method for composting organic waste arranged in windrows including a step of covering the windrows. The invention concerns a method for composting organic waste, of the type including a step of placing in at least one windrow (1) said organic waste. The invention is characterized in that it includes at least one step of covering said windrow(s) with at least one layer (2) comprising at least two materials, the first of which is mature compost, and the second material being an adjuvant belonging to the following group: organic material different from said mature compost; inorganic material.
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
(1) Gestion des affaires commerciales dans les domaines de la collecte, du traitement, du recyclage, et de la valorisation des déchets; conseils, informations ou renseignements d'affaires dans les domaines de la collecte, du traitement, du recyclage, de la valorisation des déchets et de la dépollution de sites pollués; gestion de fichiers informatiques dans le domaine des déchets; organisation d'expositions à but commercial dans les domaines de la collecte, du traitement, du recyclage, de la valorisation des déchets, de la dépollution de sites pollués et de l'environnement.
(2) Traitement des déchets et des boues, en particulier, compostage, broyage, maturage, criblage, élimination par incinération et incinération énergétique de déchets; recyclage de déchets et des boues; valorisation des déchets et des boues; valorisation du bois, papier, carton, verre, plastiques, déchets d'équipements électriques et électroniques, tubes fluorescents en fin de vie; traitement de boues y compris traitements de boues de stations d'épuration, humidification, homogénéisation, fermentation et traitement biologique de déchiquetas, fabrication de composts à partir des déchets; traitement des résidus de gaz.
(3) Services d'études et de conception (élaboration) de projets techniques dans le domaine du nettoyage d'édifices (surfaces extérieures), du nettoyage de bâtiments, de la collecte, du transport, du traitement et du stockage des déchets; ingénierie dans le domaine du nettoyage d'édifices (surfaces extérieures), du nettoyage de bâtiments, de la collecte, du transport, du stockage et du traitement des déchets; contrôle de qualité et de sécurité dans le domaine du nettoyage d'édifices (surfaces extérieures), du nettoyage de bâtiments, du transport, du traitement et du stockage des déchets; analyses chimiques et bactériologiques de déchets; audits techniques dans le domaine du nettoyage d'édifices (surfaces extérieures), du nettoyage de bâtiments, du transport, du traitement et du stockage des déchets; expertises techniques dans les domaines du nettoyage d'édifices (surfaces extérieures), du nettoyage de bâtiments, du transport, du stockage et du traitement des déchets et de l'eau; recherche et développement de nouveaux produits dans le domaine du nettoyage d'édifices (surfaces extérieures), du nettoyage de bâtiments, du transport, du traitement et du stockage des déchets; recherches géologiques; programmation pour ordinateurs en vue du nettoyage d'édifices (surfaces extérieures), du nettoyage de bâtiments, et de la distribution d'eau, de la production et de la distribution d'énergie; conseil, assistance et expertise dans le domaine de l'environnement.
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
(1) Gestion des affaires commerciales dans les domaines de la collecte, du traitement, du recyclage, et de la valorisation des déchets; conseils, informations ou renseignements d'affaires dans les domaines de la collecte, du traitement, du recyclage, de la valorisation des déchets et de la dépollution de sites pollués; gestion de fichiers informatiques dans le domaine des déchets; organisation d'expositions à but commercial dans les domaines de la collecte, du traitement, du recyclage, de la valorisation des déchets, de la dépollution de sites pollués et de l'environnement.
(2) Traitement des déchets et des boues, en particulier, compostage, broyage, maturage, criblage, élimination par incinération et incinération énergétique de déchets; recyclage de déchets et des boues; valorisation des déchets et des boues; valorisation du bois, papier, carton, verre, plastiques, déchets d'équipements électriques et électroniques, tubes fluorescents en fin de vie; traitement de boues y compris traitements de boues de stations d'épuration, humidification, homogénéisation, fermentation et traitement biologique de déchiquetas, fabrication de composts à partir des déchets; traitement des résidus de gaz.
(3) Services d'études et de conception (élaboration) de projets techniques dans le domaine du nettoyage d'édifices (surfaces extérieures), du nettoyage de bâtiments, de la collecte, du transport, du traitement et du stockage des déchets; ingénierie dans le domaine du nettoyage d'édifices (surfaces extérieures), du nettoyage de bâtiments, de la collecte, du transport, du stockage et du traitement des déchets; contrôle de qualité et de sécurité dans le domaine du nettoyage d'édifices (surfaces extérieures), du nettoyage de bâtiments, du transport, du traitement et du stockage des déchets; analyses chimiques et bactériologiques de déchets; audits techniques dans le domaine du nettoyage d'édifices (surfaces extérieures), du nettoyage de bâtiments, du transport, du traitement et du stockage des déchets; expertises techniques dans les domaines du nettoyage d'édifices (surfaces extérieures), du nettoyage de bâtiments, du transport, du stockage et du traitement des déchets et de l'eau; recherche et développement de nouveaux produits dans le domaine du nettoyage d'édifices (surfaces extérieures), du nettoyage de bâtiments, du transport du traitement et du stockage des déchets; recherches géologiques; programmation pour ordinateurs en vue du nettoyage d'édifices (surfaces extérieures), du nettoyage de bâtiments, et de la distribution d'eau, de la production et de la distribution d'énergie; conseil, assistance et expertise dans le domaine de l'environnement.
12 - Land, air and water vehicles; parts of land vehicles
16 - Paper, cardboard and goods made from these materials
35 - Advertising and business services
36 - Financial, insurance and real estate services
37 - Construction and mining; installation and repair services
39 - Transport, packaging, storage and travel services
40 - Treatment of materials; recycling, air and water treatment,
41 - Education, entertainment, sporting and cultural services
42 - Scientific, technological and industrial services, research and design
Goods & Services
Apparatus for burning waste materials. Locomotion apparatus for the transport of waste, in particular household refuse collection vehicles, automated container washing and disinfection vehicles. Printed matter, stationery, books, periodicals and journals, visiting cards, headed paper, plastic packaging materials. Advertising relating to the environment, urban cleanliness and waste collection; management of business affairs relating to the collection, processing, recycling and reclamation of waste and industrial and urban cleanliness; assistance for industrial or commercial companies relating to the collection, processing, recycling, reclamation of waste and industrial and urban cleanliness; management of waste sorting centres; business advice or information relating to the collection, processing, recycling, reclamation of waste and industrial and urban cleanliness; computerised file management in the field of waste; organisation of exhibitions for commercial purposes relating to the collection, processing, recycling, reclamation of waste, urban cleanliness and the environment; consultancy, assistance and appraisals relating to cleanliness and the environment. Financing in the waste and industrial and urban cleanliness sector; real estate affairs in the waste and industrial and urban cleanliness sector. Maintenance and cleaning of industrial and commercial buildings, including manufacturing equipment; maintenance of machines; maintenance and cleaning of buildings (external surfaces) and street cleaning; rental of cleaning machines; installation and maintenance of sanitary and cleaning apparatus; maintenance of street cleaning equipment; disinfecting services; urban cleaning and sweeping, including washing, suction, dry stripping, bill poster removal, grafitti removal, hoeing, weed-killing, improvement of tree bases, waste collection from urban bins and litter bins; maintenance, monitoring and refurbishment of sorting and processing centres for the preparation of recyclable materials, composting platforms, incineration centres, rubbish dumps, landfill centres; maintenance of heating installations and air conditioning systems; automated washing and disinfection of containers. Waste collection; land and river transport of waste; packaging and storage of waste, including confidential papers and documents, small quantities of liquid waste and effluents, toxic waste; information relating to the collection, transport, packaging and storage of the aforesaid waste. Waste processing, in particular composting, crushing, maturation, sifting, bagging of waste, disposal through incineration and energy incineration of waste; recycling of waste; clearing, pumping and disposal of waste; waste recycling and reclamation; slag reclamation; energy recovery through waste incineration; reclamation of end-of-life fluorescent tubes; sludge treatment, including treatment of sludge from sewage-treatment plants, humidification, homogenisation, fermentation and biological processing of compost and waste; processing of gas residues; production of energy, including biogas and electricity from waste energy recovery. Providing of training, education; publication of books, journals, publications, and multimedia goods in the field of the environment; arranging of competitions for education or entertainment; organising and arranging colloquiums, conferences, congresses, organising exhibitions for cultural or educational purposes, all these services in the field of the environment, waste processing and industrial and urban cleaning. Studies and carrying out technical projects in the field of waste from its collection to its processing and reclamation; environmental protection consultancy; computer programming to help carry out the aforesaid technical projects; leasing access time to a computer database server in the field of the environment, waste processing and industrial and urban cleaning; hosting of sites; scientific and industrial research relating to processing, protection of the environment, waste and energy; legal services.
12 - Land, air and water vehicles; parts of land vehicles
16 - Paper, cardboard and goods made from these materials
37 - Construction and mining; installation and repair services
39 - Transport, packaging, storage and travel services
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
Véhicules; appareils de locomotion par terre, par air ou
par eau. Papier et articles en papier, carton et articles en carton;
imprimés, journaux et périodiques, livres; articles pour
reliures; photographies; papeterie, matières adhésives
(pour la papeterie); matériaux pour les artistes; pinceaux;
machines à écrire et articles de bureau (à l'exception des
meubles); matériel d'instruction ou d'enseignement (à
l'exception des appareils); cartes à jouer, caractères
d'imprimerie; clichés. Construction et réparations; services de nettoyage;
services d'entretien de véhicules. Transport et entrepôt; services de transports industriels,
de transports routiers, de transports de voyageurs, de
transports publics, de marchandises, de location de
véhicules et de garage de véhicules; service de collecte
des déchets. Service de traitement et de recyclage des déchets. Services d'étude de toutes affaires de transport, de
transport routier, de transport de voyageurs sur des lignes
régulières ou à des fins touristiques, de transport public
de marchandises.
