PL201657B1 - Method of economically utilising wastes - Google Patents

Abstract

A method of waste management by integrating all known elements into a system that guarantees the possibility of simultaneous recycling, material recovery, fuel formation, static composting, and the incorporation of active landfill reclamation, enabling the recovery and processing of stale (landfill) waste. The method according to the invention involves conducting a series of technological processes in a single integrated waste management facility, enabling the material recovery of raw materials and the production of fuel intended for energy use. The waste management facility includes a combination of the following processes: waste segregation and treatment, static (pile) composting, material recovery, energy fuel production, active landfill reclamation, and construction waste processing. The proposed waste management method allows for the use of municipal waste to a greater extent than with previously used technologies. It ensures both material and energy utilization, resulting in greater waste utilization.

Description

Patent Office of the Republic of Poland (21) Application number: 376497 ^{(51) Int.Cl.}

B09B 3/00 (2006.01) B03B 9/06 (2006.01) C05F 9/00 (2006.01) (22) Filed on: 08/04/2005 (54)

Waste management method

(43) Application was announced: 05.02.2007 BUP 03/07 (73) The right holder of the patent: Mentel Leszek Przedsiębiorstwo Produkcyjno-Usługowo-Handlowe LWM, Białystok, PL (45) The grant of the patent was announced: April 30, 2009 WUP 04/09 (72) Inventor (s): Janusz W. Wandrasz, Gliwice, PL Wojciech Hryb, Gliwice, PL Leszek Mentel, Białystok, PL Olga Dec, Białystok, PL

WASTE (57) A method of waste management by integrating all known elements into a system that guarantees the possibility of simultaneous recycling, material recovery, fuel formation, static composting and the inclusion of active landfill reclamation to recover and process old waste (landfill). The method according to the invention consists in the fact that in one integrated waste management plant, a number of technological processes are carried out allowing for material recovery and production of fuel intended for energy use. The waste management plant includes a combination of the following processes: waste segregation and treatment, static composting (prism), material recovery, energy fuel production, active landfill reclamation and construction waste processing. The proposed method of waste management allows the use of municipal waste to a greater extent than the technologies used so far. It ensures both their material and energy use, which results in a greater use of waste.

MOBILE

SCREEN

SUB-Fraction <40 mm

FRACTION <15mm

STAR

SEPARATOR

AIR

FUEL

ENERGY

DRUM

FRACTION

OVERFLOW

EQUIPMENT

SHREDDING

MAGNETIC

SCREEN

WKOPRĄDOWi

HEAVY Fraction

PL 201 657 B1

Description of the invention

The subject of the invention is a method of landfill waste management, called active landfill reclamation.

Known methods of waste management are carried out in plants aimed at isolating components that can be further used, and if there is no such possibility, their collection.

The method of waste management in plants aimed at material or energy recovery is also known. However, the previously used and known methods of waste management do not include the treatment of waste from a landfill.

The well-known method of landfill reclamation consists in the appropriate formation of the landfill's canopy and its sealing against infiltration of rainwater and the penetration of harmful gases (biogas collection and use system). Earthen spacers are used, and the formed slopes are sown with a mixture of grasses or turf is laid, planted with bushes and trees.

The method according to the invention consists in screening the waste from the landfill preferably using a mobile drum screen, the screening fraction preferably below 40 mm, which is mainly the mineral fraction, remains in the landfill or is mixed with the biological material of the composting process, and the fraction the over-sieve is processed in a technological line by means of single-stage grinding, then magnetic metals are separated and a fine mineral fraction is separated, preferably below 15 mm, and then non-magnetic metals are separated, and the light fraction is separated, and the obtained light fraction is used as fuel.

Municipal, industrial, construction, agricultural and forest waste, waste from active landfill reclamation and waste from selective collection are used as waste.

In another variant of the invention, combustible fractions, preferably comminuted rubber or wood, are added to the light fraction. The method according to the invention allows both the use of recovery products in energy and material recovery processes, and at the same time allows for active reclamation of landfills. The main effect of introducing this technology for the environment is the reduction of the stream or almost complete elimination of waste sent to the landfill. Another environmental effect will be the active rehabilitation of the landfill - by processing the waste stored there and leaving (if necessary) only the mineral fraction (fraction <40 mm) - this will result in the possibility of further use of the landfill in accordance with EU requirements. The processing of waste from a landfill has additional ecological aspects, as it interrupts the processes of unorganized methanogenesis and greenhouse gas emissions, and also reduces the need to monitor leachate in this area due to the significant release of toxic and harmful substances. The method according to the invention makes it possible to use municipal waste to a greater extent than the technologies used so far. It ensures both their material and energy use, which results in a greater use of waste. In addition, the method according to the invention will allow to extend the life of the landfill and thus reduce the need to create new facilities of this type, and will allow the use of the flammable fraction deposited in landfills and will leave only ballast - a non-flammable fraction harmless to the environment.

The invention is exemplified in the drawing, which is a diagram of a waste management plant. Municipal waste from the landfill is fed to the charge of a mobile drum screen (1), where the under-screen fraction (less than 40 mm) is separated, which is mainly the mineral fraction, and the over-sieve fraction. The back-screen fraction remains in the landfill or is mixed with the biological material of the composting process. Then, using a wheeled transport or a belt conveyor, the oversized fraction is transported from the mobile drum screen to the crushing device (2), which ensures a one-stage crushing of the waste fed to it. The fragmented waste fraction is sent to an unloading conveyor, above which there is a magnetic separator (3) in the form of an electromagnet used for the separation of ferrous metals. The stream of shredded waste is directed to the star screen (4), which separates fine particles (sand, stones, glass, etc.) smaller than 15 mm. Then the waste is subjected to the eddy current separator (5) in order to separate non-ferrous metals (aluminum, copper). Subsequently, the waste is directed to an air separator (6), which separates the material into two fractions: a light fraction - end product - fuel, e.g. for a cement plant, and a heavy fraction - sent to a landfill.

PL 201 657 B1

Claims (3)

Patent claims A method of waste management consisting in recycling, material recovery and fuel formation, characterized in that the waste from the landfill is screened preferably using a mobile drum screen, the undersize fraction preferably below 40 mm, which is mainly the mineral fraction, remains in the landfill or mixed it is combined with the biological material of the composting process, and the over-sieve fraction is processed in the technological line by means of one-stage grinding, then magnetic metals are separated and a fine mineral fraction is separated, preferably below 15 mm, and then non-magnetic metals are separated, and then the light fraction is separated, and the obtained light fraction is used as fuel. 2. The method according to p. The method of claim 1, characterized in that municipal, industrial, construction waste, waste from a landfill and waste from selective collection are used as waste. 3. The method according to p. A process as claimed in any one of the preceding claims, characterized in that combustible fractions, preferably crushed rubber or wood, are added to the light fraction.