Produse pentru incineratoarele (8)

Incineratoare Orizontale și Verticale - Incineratoare

Incineratoare Orizontale și Verticale - Incineratoare

Normal incinerators for waste gas and/or waste liquids are used to destroy the hazardous waste streams with an efficiency higher than 99.99% whilst maintaining low NOx, CO and TOC emissions. Each incinerator is designed to meet project specific requirements, using standard modules and concepts. Vertical incinerators are mostly used where high dust formation e.g. ash or salt, are present. Most liquid and waste gas incinerators are horizontally configured. Key Features - Horizontal or vertical arrangement – Executed with or without mixing wall – Custom burner arrangements with separate waste gas or waste liquid injection lances, in the incinerator front wall, roof or body. – Designed to maintain a minimum residence time, typically one or two seconds, at a minimum temperature, typically 850°C or 1150°C depending on local legal requirements. Key Advantages - Destruction efficiency over 99.99% – Production of clean flue gases at high temperatures, as input for waste heat recovery units – No CO formation and low NOx emissions – Complete odour destruction
Incineratoare - Recuperarea Căldurii Reziduale

Incineratoare - Recuperarea Căldurii Reziduale

Most of the Europem incinerators are equipped with waste heat recovery systems. Europem has supplied a wide range of waste heat recovery installations including steam boilers, thermal oil boilers, gas-liquid heat exchangers, gas-gas heat exchangers, bath heaters and air heaters. All waste heat recovery installations are tailored to the needs of the client and the optimal design of the overall installation. Our range of waste heat recovery systems include: -Fired tube boilers with or without economizer. Single pass and multi-pass systems can be supplied Boilers can be equipped with an on-line cleaning system to allow operation with dust-loaded (flue) gases Boilers up to 30 MW capacity can be supplied with pressures ranging from 10 to 22 bar. - Single pass and multi-pass systems can be supplied -Water tube boiler boilers with or without economizer Superheated or saturated steam Horizontal or vertical boiler arrangements Bundles in refractory lined casing or with membrane walls Capacities up to 40 MWth with pressures ranging from 15 to 65 bar. – Thermal oil boilers – Bath heat exchangers – Air – flue gas tube and shell heat exchangers – Flue gas – liquid tube and shell heat exchangers – Air heaters Heat exchangers can be manufactured in carbon steel or high grade alloys e.g. Duplex, Hasteloy, Inconel, AISI 316, AISI 304.
Incineratoare - Incineratoare de Înaltă Intensitate (HI)

Incineratoare - Incineratoare de Înaltă Intensitate (HI)

The HI Incinerator features a combustion chamber with a mixing wall which divides this chamber into a high temperature combustion HI zone and a lower temperature post-combustion zone. This particular configuration is most suited to the fuel efficient combustion of lean waste gases and effluents, as it reduces the need for any support fuel. Key Features - Combustion chamber with mixing wall – High intensity combustion zone at elevated temperatures – Waste gases and liquids are delivered to the HI zone through the burner and a series of injection lances. – The mixing wall creates a high temperature zone around flame ensuring complete oxidisation and also to increase turbulence, thus avoiding cold spots and the formation of CO – Post-combustion zone after the mixing wall to ensure residence time of 2 seconds at >850°C Key Advantages - All hydrocarbons are destroyed – No CO formation – Complete odour destruction – Up to 20% fuel saving – Destruction efficiency over 99.99%
Incineratoare - Unități de Recuperare a Sulfului (SRU)

Incineratoare - Unități de Recuperare a Sulfului (SRU)

A SRU incinerator is an oxidation-reduction reactor for the recovery of elemental Sulphur from H2S rich waste gases. The first stage of the so called Claus process, is the complete free flame oxidisation of typically 1/3 of the H2S to SO2 in a reaction furnace (H2S + 1½ O SO2 + H2O). The SO2 and the then remaining H2S undergo the Claus reaction both in the reaction furnace and in a series of catalytic reactors (2 H2S + SO2 3S + 2 H2O) resulting in the overall chemical reaction H2S + ½ O H2 + S. Key Features One combustion chamber with mixing wall Part of the waste containing H2S is injected through the burner, the remainder before the mixing wall. The burner is a robust Multifuel design suitable for the combined combustion of different waste gas and gaseous or liquid support fuel streams. The mixing wall ensure the waste and combustion gases combine and also ensures a uniform temperature profile to improve the overall efficiency of the reaction. Key Advantages - Sulphur recovery – Ultra-low NOx combustion possible – Complete oxidisation of all hydrocarbons – No CO formation – Complete odour destruction – Destruction efficiency over 99.99% – For waste air/gas streams containing a high percentage of H2S
Incineratoare - Incineratoare cu cuptor rotativ

Incineratoare - Incineratoare cu cuptor rotativ

Rotary kiln incinerators are the workhorse of industry to burn solid waste in combination with sludge, waste gas and/or waste liquids and where the rotating motion transports the solid burning waste through the incinerator. Ashes are collected at the end of the rotating kiln and then combustion gases are completely oxidised in the static post combustion chamber. Rotary kiln incinerators typically feature different types of solid waste feeding systems for the bulky solid waste, containers and drums such as feeding screws and ram feeders. Waste gases and liquids are either injected into the rotary kiln, or the (vertical) post combustion chamber behind the rotary kiln. It provides for flexible and versatile incineration technology, but is characterised by a lower thermal efficiency with the associated higher operating and maintenance costs. Key Features Rotary kiln furnace with pre-set inclination and variable rotation speed. Labyrinth type seal with cooling and/or flushing with inert gas Different feeding systems for solid waste, waste liquids and waste gases Can be operated in a reducing or oxidizing environment Different drive mechanisms such as chain or direct drive, depending on the size of the kiln and the capacity Key Advantages - Robust and flexible design to burn a wide range of waste fractions – Proven technology – Destruction efficiency over 99.999% and less than 3% carbon in the ashes – Low NOx and CO emissions possible – Flue gas treatment train needed to meet acid, heavy metal, dust and PCDD/F emission levels
Incineratoare - Incineratoare Redu-reox

Incineratoare - Incineratoare Redu-reox

A Redu-reox incinerator features three reaction chambers for the low NOx combustion of waste streams and fuels with a high organically bound Nitrogen content. In the first reaction chamber a reducing environment is maintained to ensure that any free Oxygen will react with Hydrogen to form water. No Oxygen is left to combine with Nitrogen to form NOx. Complete combustion is achieved in the re-oxidation chamber, after the gases have been cooled in the quench stage. The temperature in the re-oxidation chamber is below 950°C to ensure that any Oxygen reacts with Carbon and Hydrogen and not Nitrogen, to minimize formation of thermal NOx. Key Features Three reaction chambers with staged combustion and intermediate flue gas cooling. First chamber operating under a reducing atmosphere at a temperature above 1250oC. Second chamber to quench the flue gases to about 800°C by either injection of steam or recirculated flue gas. Third or re-oxidation chamber for the post-combustion of remaining waste components at temperatures above 900oC. Key Advantages - Ultra-low NOx combustion of waste streams with high bound Nitrogen contents. – Complete oxidation with all hydrocarbons destroyed – No CO formation – Complete odour destruction – No need for SNCR or SCR deNOx to meet emission limits – Destruction efficiency over 99.999%
Incineratoare - Incineratoare cu pat fluidizat

Incineratoare - Incineratoare cu pat fluidizat

A fluidised bed incinerator is the technology of choice for the combustion of many sludge streams or solid waste streams with a high moisture content. In a fluidised bed reactor, an inert material, typically calibrated quartz sand, is fluidised by blowing air through the bed. The sand bed expands and provides an ideal medium for the mixing of waste with combustion air. Because the fluidised bed is maintained at an elevated temperature, typically between 650°C and 800°C the water evaporates and volatile organic compounds mix with combustion air whilst escaping from the fluidised bed. EUROPEM fluidised bed reactors are bubbling fluidised beds with high turbulence. Different feeding systems can be supplied ranging from feeding screws and over spreader stokers to injection lances. Key Features Turbulent bubbling fluidized bed of inert material Different feeding systems for solid waste, waste liquids and waste gases Can be operated in a reducing or oxidising environment Key Advantages - Robust and flexible design to burn sludge or solid waste with high moisture content – Stable combustion process of waste with varying moisture content over time – Proven technology – Destruction efficiency over 99.99% and less than 1% carbon in the ashes – Low NOx and CO emissions possible – Flue gas treatment train needed to meet acid, heavy metal, dust and PCDD/F emission levels
Incineratoare - Incineratoare LedeNOx

Incineratoare - Incineratoare LedeNOx

A LedeNOx incinerator is an oxidisation-reduction reactor and is the ideal design to achieve low NOx emissions whilst burning waste streams that contain Ammonia and bound Nitrogen. Part of the waste stream containing Ammonia is oxidised and forms NOx in the process. This NOx is then reduced by injecting the remaining Ammonia rich waste stream, where the Ammonia is used to promote a non-catalytic deNOx reaction and reduce NOx to Nitrogen and water. Key Features One combustion chamber with two mixing walls Part of the Ammonia containing waste is injected through the burner, part between the mixing walls. Part of the Ammonia is oxidised to form NOx, whilst the remaining Ammonia is used to react with NOx to form N2. The mixing walls ensure that the waste and combustion gases are mixed and also ensures a uniform temperature profile to improve the overall efficiency of the deNOx reaction. Key Advantages No need for SNCR or SCR deNOx to meet emission limits Ultra-low NOx combustion of waste streams with high bound Nitrogen or Ammonia contents. Complete oxidisation and destruction of all hydrocarbons No CO formation Complete odour destruction Destruction efficiency over 99.999%