A method and system for treatment of biomass/organic material in which steam, generated by evaporative or vacuum/evaporative cooling of a thermally pre-treated biomass/organic material, is used for steam stripping of an anaerobically digested biomass/organic material or reject water from dewatering. In the present invention, steam resulting from evaporative or vacuum/evaporative cooling of biomass/organic material treated in a thermal pretreatment step, e.g. comprising THP, HTC, Wet Oxidation, HTL and/or SCWO, "Upstream" of a biological process, e.g., an anaerobic digestion, is used to carry out steam stripping for removal of ammonia from a digestate "Downstream" of an anaerobic digestion.
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
Plants for the treatment of sewage sludge, household waste
and/or industrial and agricultural waste, sludge and other
by-products; installations for the treatment of sewage
sludge, household waste and/or industrial and agricultural
waste, sludge and other by-products; purification
installations for the treatment of sewage sludge, household
waste and/or industrial and agricultural waste, sludge and
other by-products; plants for thermal hydrolysis and steam
explosion of sewage sludge, household waste, industrial
sludge, industrial waste, agricultural waste and/or other
organic material such as straw and wood; installations for
thermal hydrolysis of sludge, household waste and/or
industrial and agricultural waste, sludge and other
by-products and/or other organic material such as straw and
wood; plants for thermal hydrolysis of sludge, household
waste and/or industrial and agricultural waste, sludge and
other by-products and/or other organic material such as
straw and wood; plants for conversion of sewage sludge,
household waste and/or industrial and agricultural waste,
sludge and other by-products into renewable energy and
biogas; installations for conversion of sewage sludge,
household waste and/or industrial and agricultural waste,
sludge and other by-products into renewable energy and
biogas. Treatment of materials, namely treatment of sludge from
wastewater treatment plants; treatment of solid and liquid
household waste, organic industrial waste, sewage sludge,
fish waste and animal by-products; conversion of sewage
sludge, household waste and/or industrial and agricultural
waste, sludge and other by-products into renewable energy
and biogas; water treatment services. Engineering services related to the treatment,
transformation, and valorisation of biological, organic and
industrial residual streams, engineering services related to
sewage sludge, food waste, wet and dry organic waste,
industrial by-products and other feedstocks, engineering
services related to nutrient and energy recovery,
engineering services related to process design, optimisation
and automation, engineering services related to software for
industrial monitoring, engineering services related to
remote control and data management, engineering services,
namely, advisory services relating to industrial
engineering, engineering services relating to environmental
technologies and circular economy solutions, namely, an
environmental technology system where materials never become
waste and nature is regenerated; plant engineering for
sludge management; hydrological engineering services.
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
Plants for the treatment of sewage sludge, household waste and industrial and agricultural waste, sludge and other by-products; installations for the treatment of sewage sludge, household waste and industrial and agricultural waste, sludge and other by-products; purification installations for the treatment of sewage sludge, household waste and industrial and agricultural waste, sludge and other by-products; plants for thermal hydrolysis and steam explosion of sewage sludge, household waste, industrial sludge, industrial waste, agricultural waste and other organic material, namely, straw and wood; installations for thermal hydrolysis of sludge, household waste and industrial and agricultural waste, sludge and other by-products and other organic material, namely, straw and wood; plants for thermal hydrolysis of sludge, household waste and industrial and agricultural waste, sludge and other by-products and other organic material, namely, straw and wood; plants for conversion of sewage sludge, household waste and industrial and agricultural waste, sludge and other by-products into renewable energy and biogas; installations for conversion of sewage sludge, household waste and industrial and agricultural waste, sludge and other by-products into renewable energy and biogas. Treatment of materials, namely treatment of sludge from wastewater treatment plants; treatment of solid and liquid household waste, organic industrial waste, sewage sludge, fish waste and animal by-products; conversion of sewage sludge, household waste and industrial and agricultural waste, sludge and other by-products into renewable energy and biogas; water treatment services. Engineering services related to the treatment, transformation, and valorisation of biological, organic and industrial residual streams, engineering services related to sewage sludge, food waste, wet and dry organic waste, industrial by-products and other feedstocks, engineering services related to nutrient and energy recovery, engineering services related to process design, optimisation and automation, engineering services related to software for industrial monitoring, engineering services related to remote control and data management, engineering services, namely, advisory services relating to industrial engineering, engineering services relating to environmental technologies and circular economy solutions, namely, an environmental technology system where materials never become waste and nature is regenerated; plant engineering for sludge management; hydrological engineering services.
40 - Treatment of materials; recycling, air and water treatment,
Goods & Services
Stationary and mobile sludge treatment units for thermally hydrolyzing sludge, namely, sewage treatment plants for the treatment of sewage sludge, household waste, industrial sludge, industrial waste, agricultural waste, organic waste material Sludge treatment services, namely, services for the treatment of sewage sludge, household waste, industrial sludge, industrial waste, agricultural waste, organic waste material
5.
METHODS, SYSTEMS AND PROCESS EQUIPMENT FOR OPTIMIZED CONTROL OF THERMAL HYDROLYSIS PROCESSES
Methods, systems, process equipment and plants useful in the context of subjecting biomass material to thermal hydrolysis processes (THP) and subsequent processing in the form of e.g. anaerobic fermentation, thermal reduction, biological, chemical or electrochemical processing or the like. The present invention also relates to methods for retrofitting existing plants employing Thermal Hydrolysis Processes (THP).
The present invention provides a device for controlling steam explosion of biomass having a dry solids content above 1%, a VS content of above 20%, and including abrasive material, in a pressure relief vessel, which includes one or more blowdown conduits having at their outlets an adjustable open area for regulating the blowdown discharge rate. The adjustable open area of each of the one or more blowdown conduits are constructed in such a way that expansion/spray due to flashing takes place either inside the pressure relief vessel itself or in an additional inlet device through which the discharged biomass is directed from the adjustable open area and into the pressure relief vessel and which either have a large enough dimension to avoid the discharged biomass hitting essential parts of the construction or is made from a highly resistant/durable material.
A method and plant for hydrolysis of a liquid substrate, having a dry solids content of between 2 and 30%, to be used in an anaerobic fermentation, digestion or another process aimed at producing or extracting methane or other valuable substances, which method and plant relies on the use of vacuum and several pulpers and one or several flashtanks in series for step-wise pre-heating and pressure reduction, respectively.
4, thereby increasing the amount of P recovered and avoiding struvite formation in the anaerobic digester and accessory equipment thereof, such as pipes.
Sludge purification apparatus, devices and installations;
apparatus, devices and installations for treatment of
sludge, particularly sludge from water treatment or
potabilization plants; apparatus, devices and installations
for hydrolysis, stabilization, oxidation, digestion, drying
and destruction of sludge; installations for thermal
hydrolysis of sludge; apparatus, devices and installations
for industrial and domestic waste treatment, apparatus,
devices and installations for industrial and domestic waste
sorting and incineration.
11.
DEVICE FOR CONTROLLING THERMAL HYDROLYSIS DECOMPRESSION AND PROCESS PLANT COMPRISING SUCH DEVICE
The present invention provides a device for controlling steam explosion of biomass having a dry solids content above 1%, a VS content of above 20%, and including abrasive material, in a pressure relief vessel, which includes one or more blowdown conduits having at their outlets an adjustable open area for regulating the blowdown discharge rate. The adjustable open area of each of the one or more blowdown conduits are constructed in such a way that expansion/spray due to flashing takes place either inside the pressure relief vessel itself or in an additional inlet device through which the discharged biomass is directed from the adjustable open area and into the pressure relief vessel and which either have a large enough dimension to avoid the discharged biomass hitting essential parts of the construction or is made from a highly resistant/durable material.
C02F 11/18 - Treatment of sludgeDevices therefor by thermal conditioning
F16K 1/12 - Lift valves, i.e. cut-off apparatus with closure members having at least a component of their opening and closing motion perpendicular to the closing faces with streamlined valve member around which the fluid flows when the valve is opened
F16K 5/04 - Taps or cocks comprising only cut-off apparatus having at least one of the sealing faces shaped as a more or less complete surface of a solid of revolution, the opening and closing movement being predominantly rotary with plugs having cylindrical surfacesPackings therefor
C02F 1/02 - Treatment of water, waste water, or sewage by heating
37 - Construction and mining; installation and repair services
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
Apparatus and devices for lighting, heating, steam generating, cooking, refrigerating, drying, ventilating, water supply and sanitary purposes; installations, machines and apparatus for purifying water, gas and oil; refuse disposal plants. Building construction; building construction management; building information; repair services, namely repair of apparatus and devices for lighting, heating, steam generating, cooking, refrigerating, drying, ventilating, water supply and sanitary purposes, installations, machines and apparatus for purifying water, gas and oil and refuse disposal plants, and repair of all connecting spare parts thereof; installation services, namely installation of apparatus and devices for lighting, heating, steam generating, cooking, refrigerating, drying, ventilating, water supply and sanitary purposes, installations, machines and apparatus for purifying water, gas and oil and refuse disposal plants, and installation of all connecting spare parts thereof; maintenance of computer hardware; counselling regarding construction. Treatment of materials, namely treatment of sludge from waste water treatment plants, food waste, slaughterhouse and fisheries waste, straw waste, forestry waste, dairy and brewery waste, industrial feedstocks from refineries and the pharmaceutical sector and similar organic waste streams that lend themselves to treatment by thermal processes; treatment of waste; treatment of water; counselling regarding treatment plants and refuse disposal plants. Scientific and technological services and research and design relating thereto; industrial analysis and research services; technical planning and technical counselling regarding construction; product development; industrial design; design and development of computer hardware and software; updating and maintenance of computer software; land surveying; plan drawing regarding construction; technical feasibility studies.
A method and plant for hydrolysis of a liquid substrate, having a dry solids content of between 2 and 30 %, to be used in an anaerobic fermentation, digestion or another process aimed at producing or extracting methane or other valuable substances, which method and plant relies on the use of vacuum and several pulpers and one or several flashtanks in series for step-wise pre-heating and pressure reduction, respectively.
A method and plant for hydrolysis of a liquid substrate, having a dry solids content of between 2 and 30 %, to be used in an anaerobic fermentation, digestion or another process aimed at producing or extracting methane or other valuable substances, which method and plant relies on the use of vacuum and several pulpers and one or several flashtanks in series for step-wise pre-heating and pressure reduction, respectively.
4444, thereby increasing the amount of P recovered and avoiding struvite formation in the anaerobic digester and accessory equipment thereof, such as pipes.
A method and plant for recovering phosphate from a biomass material, the biomass material suitably being a waste activated sludge from an upstream wastewater treatment process including a biological P removal process. The method includes an anaerobic digestion stage and steps for recovering independent streams rich in PO4 and Mg, or rich in PO4 and NH4, thereby increasing the amount of P recovered and avoiding struvite formation in the anaerobic digester and accessory equipment thereof, such as pipes.
The present invention provides a method for recovery of phosphate, in the form of magnesium ammonium phosphate (MAP), from a process for treating a biomass material which process comprises a digestion step performed in a digestion tank and includes a pre-treatment step employing a thermal hydrolysis, characterized in that a magnesium source is added to the material in the process flow before said flow enters the digestion tank, and phosphate is recovered as MAP as an integral part of a solid or semi-solid digestate product from the digestion tank.
The present process relates to thermally hydrolyzing sludge in a thermal hydrolysis system. A flash tank or waste heat boiler is located downstream of the thermal hydrolysis system. Hydrolyzed sludge is continuously directed into the flash tank or waste heat boiler for recovering supplemental steam. The supplemental steam is used independently or in combination with live steam produced by a main boiler to heat sludge being directed into the thermal hydrolysis system.
The present invention provides a method for recovery of phosphate, in the form of magnesium ammonium phosphate (MAP), from a process for treating a biomass material which process comprises a digestion step performed in a digestion tank and includes a pre-treatment step employing a thermal hydrolysis, characterised in that a magnesium source is added to the material in the process flow before said flow enters the digestion tank, and phosphate is recovered as MAP as an integral part of a solid or semi-solid digestate product from the digestion tank.
The present invention provides a method for recovery of phosphate, in the form of magnesium ammonium phosphate (MAP), from a process for treating a biomass material which process comprises a digestion step performed in a digestion tank and includes a pre-treatment step employing a thermal hydrolysis, characterised in that a magnesium source is added to the material in the process flow before said flow enters the digestion tank, and phosphate is recovered as MAP as an integral part of a solid or semi-solid digestate product from the digestion tank.
Method and installation of thermal hydrolysis of sludges implementing a group of thermal hydrolysis reactors (71,72,73,74) characterized in that it comprises successions of cycles, each of these successions of cycles being dedicated to one of said thermal hydrolysis reactors, each cycle comprising: a step a) for conveying a batch of non-preheated sludges to be treated into a thermal hydrolysis reactor (71,72,73,74), said step for conveying comprising the continuous passage of the sludges of said batch of sludges into a dynamic mixer (3) into which recovery steam is injected; a step b) for injecting live steam into said thermal hydrolysis reactor (71,72,73,74) containing said batch of sludges so as to increase the temperature and the pressure prevailing in this reactor; a step c) of thermal hydrolysis of the batch of sludges in the thermal hydrolysis reactor; a step d) for emptying the content of the batch of hydrolyzed sludges of said thermal hydrolysis reactor towards a recovery vessel (13), and for concomitant de-pressurizing of said reactor prompting the emission of recovery steam from the recovery vessel (13); the cycle starting points of the successions of cycles being staggered in time so that the steps a) of a succession of cycles are concomitant with the steps d) of another succession of cycles, the recovery steam emitted during the steps d) of a succession of cycles constituting the recovery steam injected during the steps a) of another succession of cycles.
The present invention provides a method for treatment of biomass material by fermentation, said method comprises a pre-treatment of the biomass material by thermal hydrolysis and wet explosion, resulting in an intermediate product having a dry matter concentration above 25% and temperature above 90° C. which is to be introduced to the fermentation, wherein a part of the content of the digestion tank used for the fermentation is recirculated and mixed with a part of the intermediate product from the pre-treatment.
heating said sludge coming from said dynamic mixer, this heating being obtained by the introduction, into a heat exchanger, on the one hand of said sludge coming from said dynamic mixer and, on the other hand, of said hydrolyzed sludge, this introduction inducing said cooling.
A method of treating primary sludge and activated sludge produced by a wastewater system is disclosed. A portion of the activated sludge is wasted to form biological sludge. The biological sludge is thermally hydrolyzed. The method entails cooling the thermally hydrolyzed biological sludge by mixing primary sludge with the thermally hydrolyzed biological sludge. Thereafter, the combined sludge is directed through a pasteurization process and then to an anaerobic digester which performs anaerobic digestion of the combined sludge.
The invention pertains to a method for the continuous thermal hydrolysis of sludge to be treated, containing organic matter, said method comprising the steps of simultaneously carrying out the injection of recovered steam into said sludge and mixing said sludge with said recovered steam by means of a primary dynamic injector-mixer so as to obtain a primary uniform mixture; simultaneously carrying out the injection of fresh steam into said primary uniform mixture and mixing said primary uniform mixture with said fresh steam by means of a secondary dynamic injector-mixer so as to obtain a secondary uniform mixture of sludge; conveying said secondary uniform mixture towards a tube reactor under pressure and prompting an essentially plug-type flow of this secondary uniform mixture into said reactor for a residence time that is sufficient and at a temperature that is sufficient to enable the thermal hydrolysis of the organic matter present in this secondary uniform mixture; producing said recovery steam within means for the production of recovered steam from said secondary uniform mixture obtained at exit from said tubular reactor; cooling said secondary uniform mixture when it exits said means for producing recovery steam to a temperature enabling the subsequent digestion of the hydrolyzed organic matter that it contains.
The present invention provides a method for treatment of biomass material by fermentation, said method comprises a pre-treatment of the biomass material by thermal hydrolysis and wet explosion, resulting in an intermediate product having a dry matter concentration above 25% and temperature above 90°C which is to be introduced to the fermentation, wherein a part of the content of the digestion tank used for the fermentation is recirculated and mixed with a part of the intermediate product from the pre-treatment.
The present invention provides a method for treatment of biomass material by fermentation, said method comprises a pre-treatment of the biomass material by thermal hydrolysis and wet explosion, resulting in an intermediate product having a dry matter concentration above 25% and temperature above 90°C which is to be introduced to the fermentation, wherein a part of the content of the digestion tank used for the fermentation is recirculated and mixed with a part of the intermediate product from the pre-treatment.
C07C 29/00 - Preparation of compounds having hydroxy or O-metal groups bound to a carbon atom not belonging to a six-membered aromatic ring
C10L 1/02 - Liquid carbonaceous fuels essentially based on components consisting of carbon, hydrogen, and oxygen only
C12M 1/00 - Apparatus for enzymology or microbiology
C12P 1/00 - Preparation of compounds or compositions, not provided for in groups , by using microorganisms or enzymesGeneral processes for the preparation of compounds or compositions by using microorganisms or enzymes
C12P 3/00 - Preparation of elements or inorganic compounds except carbon dioxide
The present invention describes a method and device for pretreatment of organic material, more specific bio mass, for energy conversion, where said method comprises a first preheating step with a preheating vessel (4), a hydrolysis step with a hydrolysis reactor (5) and a pressure reducing step with a pressure reduction vessel (6), where the transfer of said organic material from the preheating vessel (4) to the hydrolysis rector (5) is effected by gravity and by creating a vacuum in the reactor (5). This method results in a very fast transfer of material from the preheating vessel (4) to the reactor (5). In addition, the filling volume of the reactor (5) is being controlled by a high frequency pressure sensor and supply of steam (3A) to the top of the reactor in order to provide the necessary head space. The invention also describes a device for performing said method.
B01J 3/00 - Processes of utilising sub-atmospheric or super-atmospheric pressure to effect chemical or physical change of matterApparatus therefor
C02F 11/18 - Treatment of sludgeDevices therefor by thermal conditioning
C08H 8/00 - Macromolecular compounds derived from lignocellulosic materials
C10G 1/00 - Production of liquid hydrocarbon mixtures from oil shale, oil-sand, or non-melting solid carbonaceous or similar materials, e.g. wood, coal
C10G 31/06 - Refining of hydrocarbon oils, in the absence of hydrogen, by methods not otherwise provided for by heating, cooling, or pressure treatment
C12M 1/00 - Apparatus for enzymology or microbiology
A wastewater treatment process that produces primary sludge and biological sludge. The system and process hydrolyzes the biological sludge in a hydrolysis reactor. The primary sludge is directed to a pasteurization unit and pasteurized. Thereafter, the hydrolyzed biological sludge and the pasteurized primary sludge are directed to an anaerobic digester where the combined sludges are subjected to anaerobic digestion.
A method is described for thermal biological breakdown and dewatering of biomass, which is characterised in that it comprises the following steps: - lead the biological residue material (8) from a digesting tank (6) to a dewatering device (9) and dewater the material to typically 15-25% dry matter, - lead the dewatered material (10) to a device (12) and carry out a thermal hydrolysis at typically 145-170 °C for typically 10-40 minutes, - subject the hydrolysed biomass (14) to a quick pressure reduction that results in a steam explosion in the biomass, - dewater the thermally hydrolysed and steam exploded hot biomass (14), at typically 85-105 °C in a closed dewatering unit (16), typically a centrifuge, to typically 35-60% dry matter, - cool the dewatered biomass (18) in a cooler (19), preferably an air- cooler and dewater the biomass further by evaporation to typically 40- 75% dry matter, - lead the liquid phase (17) from the dewatering unit (16), which contains considerable amounts of hydrolysed organic matter and heat upstream of the digesting tank (6) for increased production of biogas. Also described is a device to carry out the method.
Apparatus and process is provided for hydrolyzing sludge from water treatment and for conditioning the hydrolyzed sludge for optimal anaerobic digestion. Methods provided include dewatering to produce dewatered sludge, hydrolyzing the dewatered sludge in a steam fed process, preheating the dewatered sludge before hydrolysis with sludge-to-sludge heat transfer, and cooling and diluting the sludge using sludge-to-water heat transfer and water injection, and anaerobically digesting the hydrolyzed sludge. Apparatus provided includes a generally vertically oriented counterflow sludge-to-sludge heat exchanger, a hydrolysis reactor and associated source of steam, sludge-to-water heat exchangers, and a dilution unit. Temperature and pressure sensors are configured to command various variable flow pumps and valves for controlling the process.
The present invention describes a method and device for pretreatment of organic material, more specific bio mass, for energy conversion, where said method comprises a first preheating step with a preheating vessel (4), a hydrolysis step with a hydrolysis reactor (5) and a pressure reducing step with a pressure reduction vessel (6), where the transfer of said organic material from the preheating vessel (4) to the hydrolysis rector (5) is effected by gravity and by creating a vacuum in the reactor (5). This method results in a very fast transfer of material from the preheating vessel (4) to the reactor (5). In addition, the filling volume of the reactor (5) is being controlled by a high frequency pressure sensor and supply of steam (3A) to the top of the reactor in order to provide the necessary head space. The invention also describes a device for performing said method.
The present invention describes a method and device for pretreatment of organic material, more specific bio mass, for energy conversion, where said method comprises a first preheating step with a preheating vessel (4), a hydrolysis step with a hydrolysis reactor (5) and a pressure reducing step with a pressure reduction vessel (6), where the transfer of said organic material from the preheating vessel (4) to the hydrolysis rector (5) is effected by gravity and by creating a vacuum in the reactor (5). This method results in a very fast transfer of material from the preheating vessel (4) to the reactor (5). In addition, the filling volume of the reactor (5) is being controlled by a high frequency pressure sensor and supply of steam (3A) to the top of the reactor in order to provide the necessary head space. The invention also describes a device for performing said method.
It is described a process for thermal hydrolysis and team explosion of biomass, said method comprising the steps of: (i) leading the biomass approximately continuous to a first preheating step and preheat the biomass, (ii) leading the preheated biomass into at least two reactors sequentially, (iii) heating and pressurising the reactor by addition of steam, (iv) keeping the reactor(s) at a certain temperature and pressure for a certain time, (v) leading the heated and pressurized biomass from the reactor(s) to a first pressure relief tank without any substantial pressure reduction and quickly relief the pressure of the biomass by means of a nozzle, in order to disintegrate the biomass, (vi) leading the biomass from the first pressure relief tank to a second pressure relief tank having a lower pressure than the pressure of the first pressure relief tank, (vii) leading the so treated biomass to a downstream facility for subsequent treatment. The invention also comprises a device for thermal treatment of biomass.
37 - Construction and mining; installation and repair services
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
Apparatus and devices for lighting, heating, steam
generating, cooking, refrigerating, drying, ventilating,
water supply and sanitary purposes; installations, machines
and apparatus for purifying water, gas and oil; refuse
disposal plants. Building construction, building construction management,
building information, repair services, installation
services; maintenance of computer hardware. Treatment of materials, including treatment of sludge from
waste water treatment plants; treatment of waste; treatment
of water. Scientific and technological services and research and
design relating thereto; industrial analysis and research
services; planning and counselling regarding construction;
product development; industrial design; design and
development of computer hardware and software; updating and
maintenance of computer software; land surveying; plan
drawing regarding construction; technical feasibility
studies; counselling regarding treatment plants and refuse
disposal plants.
37 - Construction and mining; installation and repair services
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
(1) Plants for treatment of sewage sludge, household waste, and industrial and agricultural wastes, sludge and other by-products; plants for thermal hydrolysis and steam explosion of sewage sludge, household waste, industrial sludge, industrial waste, agricultural waste and any other organic material such as straw and wood; plants for conversion of sewage sludge, household waste, and industrial and agricultural waste, sludge and other by-products to renewable energy and biogas. (1) Building construction, building construction management, building information, repair services, installation services; treatment of materials, namely treatment of sludge from waste water treatment plants; treatment of solid and liquid household waste, industrial waste, sewage sludge, fish waste and animal by-products; conversion of sewage sludge, household waste, and/or industrial and agricultural waste, sludge and other by-products to renewable energy and biogas; purification of water; scientific and technical consultancy and research related to treatment of sludge from waste water, treatment of solid and liquid household, treatment of solid and liquid industrial waste and purification of water; development and design of technical solutions and plants for household and industrial waste treatment; industrial analysis and research services; planning and counselling regarding construction; product development; industrial design; design, development, updating and maintenance of computer hardware and software; land surveying; plan drawing regarding constructions; counselling regarding treatment plants and refuse disposal plants.
37 - Construction and mining; installation and repair services
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
[ Plants for treatment of sewage sludge, household waste, and/or industrial and agricultural wastes, sludge and other by-products; Plants for thermal hydrolysis and steam explosion of sewage sludge, household waste, industrial sludge, industrial waste, agricultural waste and/or any other organic material such as straw and wood; Plants for conversion of sewage sludge, household waste, and/or industrial and agricultural waste, sludge and other by-products to renewable energy and biogas ] [ Building construction, building construction management, building construction information, building repair services, installation and maintenance of computer hardware ] Treatment of materials, namely, treatment of sludge from waste water treatment plants; Treatment of solid and liquid household waste, organic industrial waste, sewage sludge, fish waste and animal by-products; Conversion of sewage sludge, household waste, and/or industrial and agricultural waste, sludge and other by-products to renewable energy and biogas; water treatment services Scientific and technological services and research and design relating thereto in the fields of treatment plants and refuse disposal plants; industrial analysis and research services; product development; industrial design; design and development of computer hardware and software; updating and maintenance of computer software; land surveying; drawing up of engineering drawings regarding construction; conducting technical feasibility studies; consulting services regarding the design of treatment plants and refuse disposal plants
A method for production of fuel pellets from a biological material, preferably saw dust, wood or similar, where the method comprises the following steps: supplying the material to a drying step (1) and dry the material to a relative humidity from 40-65 weight-percent to 30-45 weight-percent; supplying the material from the dryer step (1), optionally via an intermediate storage step (2), to a reactor step (3, 3') and heat the material to 200 - 300 ~C by supply of steam; keeping the material in the reactor at the achieved temperature in sufficient time to soften the material; reducing the pressure of the reactor step (3, 3') in at least two steps, in order to defibrate the material and release of lignin, and supply the material from the reactor step (3, 3') to an additional drying step (5), optionally via an intermediate storage step (4), and optionally pelletizing of the material.
09 - Scientific and electric apparatus and instruments
11 - Environmental control apparatus
40 - Treatment of materials; recycling, air and water treatment,
Goods & Services
Apparatus, devices and installations for the treatment of sludge, in particular sludge from sewage plants or drinking water treatment stations; apparatus, devices and installations for hydrolysing, stabilising, oxidating, digesting, desiccating, destroying sludge; thermal hydrolysis installations for sludge; apparatus, devices and installations for the treatment of industrial and domestic waste, apparatus, devices and installations for sorting and incinerating industrial and domestic waste. Apparatus, devices and installations for purifying sludge. Sludge-treatment services, in particular for sludge from sewage plants and drinking water treatment plants, for sludge purification; sludge stabilisation services; recycling of sludge, industrial and domestic waste, ash, by-products of water treatment.
