Abstract:
A sludge treatment system, comprising a pump (1), an ozone generation device, an ejector (2) and pipe reactors (3). The pump (1), the ozone generation device, the ejector (2) and the pipe reactors (3) are sequentially connected by pipes. An oxygen generator (4) and an ozone machine (5) are arranged within the ozone generation device, and are connected by a pipe. The ozone generation device is used for providing ozone into the pipe reactors (3). The inner surfaces of the pipe reactors (3) are coated with a catalyst layer used for increasing the oxidative capacity of the ozone on the sludge. Spiral fin plates (6) allowing a fluid to generate a spiral flow are arranged within the pipe reactors (3). Also disclosed is a sludge treatment method using the present sludge treatment system. The present system has a high ozone utilization rate, and a low ozone input proportion.
Abstract:
Disclosed is a cassette type modular water treatment package system for water treatment, including a container in which water treatment modules are installed.
Abstract:
A device (1) for purification of water driven by gravity through a purification unit between an upper dirt water container (2) and a lower clean water tank (3). A backwash system may be integrated, the system comprising a receptacle (8) for accumulation of the backwash water to prevent consumption thereof by mistake.
Abstract:
An UV reactor system that allows single or multiple flange-less reactors to be installed between the flanges of existing piping systems. Benefits include reduced installation space and lamp placement flexibility to improve UV treatment. Each reactor can be rotated, pre and post installation, to provide multiple positions for the radiation sources that are included in each reactor.
Abstract:
Embodiments of the invention describe an apparatus, method, and system of wastewater treatment using modular membrane bioreactor (MBR) cartridges. In one embodiment, said method of wastewater treatment includes adjusting the number of activated modular MBR cartridges in a container and adjusting the wastewater processing rate of the container to dynamically change the throughput of a fixed-size wastewater processing container. According to one embodiment, said method can include utilizing modular MBR cartridges to provide for a fault-tolerant wastewater treatment container.
Abstract:
Embodiments of the invention describe an apparatus, method, and system of wastewater treatment using modular membrane bioreactor (MBR) cartridges. In one embodiment, said method of wastewater treatment includes adjusting the number of activated modular MBR cartridges in a container and adjusting the wastewater processing rate of the container to dynamically change the throughput of a fixed-size wastewater processing container. According to one embodiment, said method can include utilizing modular MBR cartridges to provide for a fault-tolerant wastewater treatment container.
Abstract:
The instant invention describes a device and system for dispensing microbial solutions into a wastewater treatment environment. The device contains one or more removable modules that provides the user with the capability of quickly and easily removing one or more of the modules without the need for replacing or removing the entire unit. The modules are preferably designed to hold bags filled with a microbial solution. The bags are fluidly connected to a pump which dispenses the solution to a predetermined location.
Abstract:
A modular antimicrobial and antifungal treatment system for a spa or pool includes a main module. The main module comprising a transition metal mesh configured to allow fluid to enter and exit the main module. An anti-microbial and antifungal plastic material arranged in an interior portion of the main module. Individual modules in the main module includes a time release anti-bacterial, anti-fungal, or both, components, a sea salt component, and an adsorbent material. Further, a modular antimicrobial and antifungal treatment system for a spa or pool includes a support member coupled to the main module configured to hold the main module within an interior portion of a filter.
Abstract:
A greywater recycling system. The system is designed using flow control management and minimally-sized holding tanks allowing use of on-site greywater recycling in locations where conventional greywater recycling systems are unsuitable. Where conventional greywater recycling systems produce low-value recycled water suitable for use in irrigation, the system produces high-value recycled water suitable for use in other systems, such as cooling towers with minimal impact on the facility and changes to existing processes. By using higher capacity extraction, reducing the size of storage tanks, and returning permeate to supply the extractor, as needed, the system operates efficiently while with a greywater source producing a non-continuous flow of greywater being modular and compact.
Abstract:
Apparatuses for generating electrical power and/or treating water desalinating salt water are described, and may include a top manifold comprising one or more inlets, a bottom manifold comprising one or more outlets, a casing connecting the top manifold and the bottom manifold to define an internal space, and at least one electrode set disposed in the internal space. The electrode set may include a silver chloride cathode in fluid communication with a first fluid container including an aqueous solution, such as diluted sodium chloride solution, and a silver anode in fluid communication with a second fluid container including another aqueous solution, e.g., a higher concentration sodium chloride solution. The electrode set also may include a membrane that allows chloride and sodium ions to pass therethrough, and a connector electrically connecting the cathode to the anode to form an electrical circuit.