Abstract: A horizontal gas coalescing filter unit having a reduced vertical footprint includes a first housing including an inlet and an outlet, the inlet being configured for receiving a gas, including liquid condensates, under pressure. The filter unit includes an impingement head, a tuyere, and a vane separator to cause liquid condensates to separate from the gas. A second housing is positioned in fluid communication with the horizontal housing and contains a coalescing filter for receiving the gas exiting the vane separator and for further removing the liquid condensates from the gas. A gas outlet is associated with the second housing for allowing the separated, dry gas to exit the filter unit. A method for separating liquid condensates from the gas is also provided.

Abstract: A desander for use with a separator for removing sand and other particles from gas under pressure including a diverter manifold including an inlet opening and an outlet opening. The inlet opening is configured for receiving the gas. The outlet opening is in fluid communication with a housing. The housing includes processing equipment for separating sand, particles, and/or liquid from the gas. The diverter manifold includes a flow diverter. The flow diverter is configured to redirect the path of the gas and its contaminants. The diverter manifold is also designed to slow down a velocity of the gas entering into the inlet opening prior to entrance of the gas into the housing of the separator to reduce erosion of the processing equipment and to facilitate separation of the sand and particles from the gas. A method of removing sand, other particles, and liquid from gas under pressure is also provided.

Abstract: A fluid strainer assembly and a method of reducing an amount of fluid used during a cleaning cycle of the fluid strainer assembly including: a body defining a chamber; a screen positioned within the chamber; and a backwash port associated with an internal portion of the screen and rotatable about a central axis to cause a tangential flow and backflow of backwash fluid in order to dislodge and remove foreign material collected on the inner surface of the screen to flow into the backwash port and exit out a discharge outlet and backwash pipe, wherein the backwash port is configured such that the area of draw is determined by the equation: i) CS×1.875×1.5?A; and ii) A?CS of backwash pipe, where CS represents the internal transverse area of the backwash pipe and A represents the area of draw of the backwash port.

Abstract: A horizontal gas coalescing filter unit having a reduced vertical footprint includes a first housing including an inlet and an outlet, the inlet being configured for receiving a gas, including liquid condensates, under pressure. The filter unit includes an impingement head, a tuyere, and a vane separator to cause liquid condensates to separate from the gas. A second housing is positioned in fluid communication with the horizontal housing and contains a coalescing filter for receiving the gas exiting the vane separator and for further removing the liquid condensates from the gas. A gas outlet is associated with the second housing for allowing the separated, dry gas to exit the filter unit. A method for separating liquid condensates from the gas is also provided.

Abstract: A desander for use with a separator for removing sand and other particles from gas under pressure including a diverter manifold including an inlet opening and an outlet opening. The inlet opening is configured for receiving the gas. The outlet opening is in fluid communication with a housing. The housing includes processing equipment for separating sand, particles, and/or liquid from the gas. The diverter manifold includes a flow diverter. The flow diverter is configured to redirect the path of the gas and its contaminants. The diverter manifold is also designed to slow down a velocity of the gas entering into the inlet opening prior to entrance of the gas into the housing of the separator to reduce erosion of the processing equipment and to facilitate separation of the sand and particles from the gas. A method of removing sand, other particles, and liquid from gas under pressure is also provided.

Abstract: A fluid strainer assembly and a method of reducing an amount of fluid used during a cleaning cycle of the fluid strainer assembly including: a body defining a chamber; a screen positioned within the chamber; and a backwash port associated with an internal portion of the screen and rotatable about a central axis to cause a tangential flow and backflow of backwash fluid in order to dislodge and remove foreign material collected on the inner surface of the screen to flow into the backwash port and exit out a discharge outlet and backwash pipe, wherein the backwash port is configured such that the area of draw is determined by the equation: i) CS×1.875×1.5?A; and ii) A?CS of backwash pipe, where CS represents the internal transverse area of the backwash pipe and A represents the area of draw of the backwash port.

Abstract: A high temperature filter and a self-cleaning filtering system for filtering media, such as biomass materials, are provided. The filter and filtering system is particularly useful in the filtration of syngas in a plasma arc gasification process to remove char and other particles of down to a submicron size from the syngas. The filter is formed from a pleated metal mesh material including end caps secured by a high-temperature metallic paste or adhesive, such that the filter is capable of withstanding operating temperatures up to 2000° F. The system includes a backflush unit for injecting cleaning media therein to remove trapped char and other debris from the filter. At least two filtering systems can be placed in parallel so that one system can be cleaned while the other is operating. A method for filtering media is also disclosed.

Abstract: A high temperature filter and a self-cleaning filtering system for filtering media, such as biomass materials, are provided. The filter and filtering system is particularly useful in the filtration of syngas in a plasma arc gasification process to remove char and other particles of down to a submicron size from the syngas. The filter is formed from a pleated metal mesh material including end caps secured by a high-temperature metallic paste or adhesive, such that the filter is capable of withstanding operating temperatures up to 2000° F. The system includes a backflush unit for injecting cleaning media therein to remove trapped char and other debris from the filter. At least two filtering systems can be placed in parallel so that one system can be cleaned while the other is operating. A method for filtering media is also disclosed.

Abstract: A high temperature filter and a self-cleaning filtering system for filtering media, such as biomass materials, are provided. The filter and filtering system is particularly useful in the filtration of syngas in a plasma arc gasification process to remove char and other particles of down to a submicron size from the syngas. The filter is formed from a pleated metal mesh material including end caps secured by a high-temperature metallic paste or adhesive, such that the filter is capable of withstanding operating temperatures up to 2000° F. The system includes a backflush unit for injecting cleaning media therein to remove trapped char and other debris from the filter. At least two filtering systems can be placed in parallel so that one system can be cleaned while the other is operating. A method for filtering media is also disclosed.

Abstract: An automatic strainer assembly for straining a slurry comprises an inlet for receiving the slurry, a horizontally disposed strainer body in fluid communication with the inlet, and a rotatable strainer member received within the body having an inner surface and an outer surface. One or more scrapers are positioned for removing material from the outer surface of the strainer assembly. A collection vessel is positioned substantially below the body for receiving material scraped from the outer surface of the strainer member. A transport member can be provided for returning the scraped material to the slurry supply for reprocessing thereof. An outlet expels the strained slurry. A manual or automatic washdown system is provided for removing the slurry from the strainer member. A radial bearing assembly and radial seal are associated with the drive shaft of the strainer member to prevent galling. A method for processing a slurry is provided.

Abstract: An automatic strainer assembly for straining a slurry comprises an inlet for receiving the slurry, a horizontally disposed strainer body in fluid communication with the inlet, and a rotatable strainer member received within the body having an inner surface and an outer surface. The strainer member defines a plurality of passageways for strained fluid to pass therethrough. A scraper is positioned substantially adjacent to and contacting the outer surface of the strainer member for removing material from the outer surface of the strainer member. A collection vessel is positioned substantially below the body for receiving material scraped from the outer surface of the strainer member. A helical member is mounted on an internal shaft or auger is located within the strainer member for contacting the slurry to increase mixing and promote flow of the slurry through the system.

Abstract: A high temperature filter and a self-cleaning filtering system for filtering media, such as biomass materials, are provided. The filter and filtering system is particularly useful in the filtration of syngas in a plasma arc gasification process to remove char and other particles of down to a submicron size from the syngas. The filter is formed from a pleated metal mesh material including end caps secured by a high-temperature metallic paste or adhesive, such that the filter is capable of withstanding operating temperatures up to 2000° F. The system includes a backflush unit for injecting cleaning media therein to remove trapped char and other debris from the filter. At least two filtering systems can be placed in parallel so that one system can be cleaned while the other is operating. A method for filtering media is also disclosed.

Abstract: An automatic strainer assembly for straining a slurry comprises an inlet for receiving the slurry, a horizontally disposed strainer body in fluid communication with the inlet, and a rotatable strainer member received within the body having an inner surface and an outer surface. The strainer member defines a plurality of passageways for strained fluid to pass therethrough. A scraper is positioned substantially adjacent to and contacting the outer surface of the strainer member for removing material from the outer surface of the strainer member. A collection vessel is positioned substantially below the body for receiving material scraped from the outer surface of the strainer member. This collection vessel can include a transport member for returning this scraped material to an initial slurry supply for reprocessing thereof. An outlet is provided in fluid communication with the horizontal strainer body to expel the strained slurry.

Abstract: Disclosed is a two or three phase separator including a centrifugal separator, a demister (if a three phase separator), and a filter contained within a housing. The filter uses an outside-in flow principle. The filter includes an inner layer or a center core that defines a hollow interior. An outer layer is positioned adjacent and surrounding the inner layer. The outer layer includes a re-enforcement layer, a first particle filter layer, a coalescer layer, and a second particle filter layer. An access cover of the separator includes a cover plug, an actuator cam, a plurality of idler cam plates, and a plurality of mechanisms. The access cover cooperates with an opening and an annular groove in the housing to close off and seal the separator.

Abstract: An apparatus for cultivating photosynthetic organisms is provided. The apparatus can be used in a renewable energy system. The apparatus comprises a chamber for growing photosynthetic organisms in a liquid medium; a device for holding the photosynthetic organism; a carbon dioxide source; a medium intake source; and a system for providing movement of the liquid medium within the chamber. A system for cultivating photosynthetic organisms comprises a plurality of apparatuses for cultivating photosynthetic organisms, wherein the plurality of apparatuses are interconnected in parallel, series, or a combination thereof, in order to increase algae production. Also described is a method of cultivating a photosynthetic organism.

Abstract: An automatic strainer assembly for straining a slurry comprises an inlet for receiving the slurry, a horizontally disposed strainer body in fluid communication with the inlet, and a rotatable strainer member received within the body having an inner surface and an outer surface. One or more scrapers are positioned for removing material from the outer surface of the strainer assembly. A collection vessel is positioned substantially below the body for receiving material scraped from the outer surface of the strainer member. A transport member can be provided for returning the scraped material to the slurry supply for reprocessing thereof. An outlet expels the strained slurry. A manual or automatic washdown system is provided for removing the slurry from the strainer member. A radial bearing assembly and radial seal are associated with the drive shaft of the strainer member to prevent galling. A method for processing a slurry is provided.

Abstract: A renewable energy system and related process includes a biomass unit for receiving biomass energy sources, e.g., municipal wastes, used tires and wood waste. The biomass is fed to a power plant which produces electricity and steam which are fed to several units of the system. A bio-diesel unit uses the electricity to convert vegetable oil and animal fat into a bio-diesel fuel. An algae farm uses the electric power and steam in the form of heat to produce algae oil which is fed to the bio-diesel unit and which also is biomass. A corn unit and a corn stover unit produce ethanol. The corn unit also produces corn oil which is fed to the bio-diesel unit, and residue corn becomes dry distilled grains. A fermentation unit discharges carbon dioxide which along with that discharged by the power plant is distributed to the algae farm for growing algae. Also described is a method for converting carbon dioxide to oxygen through the use of algae.

Abstract: In an eye cup for an eyepiece of an optical observation apparatus, for individual and convenient adjustment of the eye cup it is provided that a second adjusting element can be rotated in a mode dependent on a compressive force independently or together with a first adjusting element, such that a light-shield section can be positioned as desired for any distance of the adjusting elements with respect to one another.

Abstract: An automatic strainer assembly for straining a slurry comprises an inlet for receiving the slurry, a horizontally disposed strainer body in fluid communication with the inlet, and a rotatable strainer member received within the body having an inner surface and an outer surface. The strainer member defines a plurality of passageways for strained fluid to pass therethrough. A scraper is positioned substantially adjacent to and contacting the outer surface of the strainer member for removing material from the outer surface of the strainer member. A collection vessel is positioned substantially below the body for receiving material scraped from the outer surface of the strainer member. A helical member is mounted on an internal shaft or auger is located within the strainer member for contacting the slurry to increase mixing and promote flow of the slurry through the system.

Abstract: A high temperature filter and a self-cleaning filtering system for filtering media, such as biomass materials, are provided. The filter and filtering system is particularly useful in the filtration of syngas in a plasma arc gasification process to remove char and other particles of down to a submicron size from the syngas. The filter is formed from a pleated metal mesh material including end caps secured by a high-temperature metallic paste or adhesive, such that the filter is capable of withstanding operating temperatures up to 2000° F. The system includes a backflush unit for injecting cleaning media therein to remove trapped char and other debris from the filter. At least two filtering systems can be placed in parallel so that one system can be cleaned while the other is operating. A method for filtering media is also disclosed.