Our Products

Rotary Evaporator

Laboratory equipment

Jacketed Reactor

Contact Us

We Cherish All Interactions

Thermal Decomposition Plant Thermal Decomposition Plant .

Thermal Decomposition Plant Thermal Decomposition Plant .

Thermal Decomposition of Organic Materials. I-Pec Engineering OÜ is a company with more than 10 year experience in handling the feedstock from waste and converting it into reliable source of alternative energy. TDP plant is dedicated to the low-temperature pyrolysis processing of hydrocarbon materials of any composition.

Bioforcetech | Pyrolysis

Bioforcetech | Pyrolysis

Pyrolysis can be defined as the thermal decomposition of organic material through the application of heat without the addition of extra air or oxygen. Through this process, that takes place at temperatures between 660 and 1,650 degrees F, two co-products are obtained: syngas and Biochar.

Pyrolysis Reactor - an overview | ScienceDirect Topics

Pyrolysis Reactor - an overview | ScienceDirect Topics

In this paper, an optimal design of thermal cracking (pyrolysis) reactor is studied. . Heat for the thermal decomposition of biomass is supplied either from an external source or by allowing limited combustion as in a beehive oven (Figure 3.2). The product may flow out of the pyrolyzer because of volume expansion while the char remains in the .

Pyrolysis of Municipal Wastes | BioEnergy Consult

Pyrolysis of Municipal Wastes | BioEnergy Consult

Aug 02, 2019 · Pyrolysis is rapidly developing biomass thermal conversion technology and has been garnering much attention worldwide due to its high efficiency and good eco-friendly performance characteristics. Pyrolysis technology provides an opportunity for the conversion of municipal solid wastes, agricultural residues, scrap tires, non-recyclable plastics etc into clean energy.

Influence of Gas-Phase Reactions on the Product Yields .

Influence of Gas-Phase Reactions on the Product Yields .

The characterization of the product fractions obtained from the pyrolysis of polyethylene (PE) in a laboratory-scale fixed bed reactor was performed. The experimental system allowed quantitative information to be obtained on the global tar, char, and gas yields. Pyrolysis runs were performed using reactor temperatures ranging between 500 and 800 °C. The influence of the residence times in the .

The thermal decomposition of the benzyl radical in a .

The thermal decomposition of the benzyl radical in a .

The thermal decomposition of benzyl radicals has been reconsidered without participation of tropyl radicals. There are at least three distinct pathways for pyrolysis of benzyl radical: the Benson fragmentation, the methyl-phenyl radical, and the bridgehead norbornadienyl radical.

Continuous Thermal Decomposition Plant

Continuous Thermal Decomposition Plant

2. The pyrolysis reactor is heated by the fuel burner. When the heat temperature rises to the set value, the decomposition process starts. 3. After the operation process is stable, heating is carried out by gas burner operating on pyrolysis gas. 4. From the pyrolysis reactor, the oil gas goes into condensers. Then it is cooled in the heat .

Solar Assisted Fast Pyrolysis: A Novel Approach of .

Solar Assisted Fast Pyrolysis: A Novel Approach of .

Pyrolysis processes can be categorized as slow pyrolysis and fast pyrolysis on the basis of time it takes to complete thermal decomposition of the feed materials. Fast pyrolysis is widely used as it takes seconds to complete decomposition of biomass and produces about 60% of yield as biooil whereas slow pyrolysis results in biochar as the main .

What is pyrolysis process? - | Biogreen

What is pyrolysis process? - | Biogreen

Thermal decomposition leads to the formation of new molecules. This allows to receive products with a different, often more superior character than original residue. Thanks to this feature, pyrolysis becomes increasingly important process for today industry – as it allows to bring far greater value to common materials and waste.

Pyrolysis Reactor - an overview | ScienceDirect Topics

Pyrolysis Reactor - an overview | ScienceDirect Topics

2.1.3 Catalytic pyrolysis reactor. Catalytic pyrolysis of biomass has been investigated with several types of pyrolysis reactors. The most widely used reactor for catalyst testing or screening is a microscale fixed-bed reactor coupled with gas chromatography/mass spectrometry (GC/MS) and/or gas chromatography/flame ionisation detector (GC/FID).

(PDF) WASTE DISPOSAL &POWER GENERATION THROUGH THERMAL .

(PDF) WASTE DISPOSAL &POWER GENERATION THROUGH THERMAL .

thermal pyrolysis and thermal plasma pyrolysis along with its use in safe decomposition of medical waste a long with the recovery of energy. Moreover the development of thermal plasma for .

Biomass Screening for the Production of Furfural via .

Biomass Screening for the Production of Furfural via .

Packed-bed pyrolysis (heating temperature 800 K) is studied of beech and fir wood, several agro-industrial residues (corn cobs and stalks, olive husks, wheat straw, hazelnut and almond shells, orange peels, grape residues, artichoke stems, brewer's spent grain, and pruning cuts from cherry, olive, vine, and poplar trees) and cellulose, aimed at determining the potentially most promising .

(PDF) Vacuum pyrolysis of PVC I. Kinetic study

(PDF) Vacuum pyrolysis of PVC I. Kinetic study

into the PVC thermal decomposition and useful data for controlling the release of HCl during PVC pyrolysis have been made. . tion in vacuum pyrolysis reactors, where the pyrolysis. Table 1.

Thermal and catalytic pyrolysis of plastic waste

Thermal and catalytic pyrolysis of plastic waste

1.1.1 Thermal pyrolysis. The pyrolysis of waste plastics involves the thermal decomposition in the absence of oxygen / air. During the pyrolysis, the polymer materials are heated to high temperatures and thus, their macromolecules are broken into smaller molecules, resulting .

The quest for CO2-free hydrogen methane pyrolysis at

The quest for CO2-free hydrogen methane pyrolysis at

Methane pyrolysis in thermal plasmas (I): plasma is only the heat source for thermal decomposition 11 Hüls acetylene process: in operation since 1940th Kvaerner: industrial plant operated ca 2000, for carbon black production Monolith: industrial plant to be commissioned 2020, for carbon black production

Continuous Thermal Decomposition Plant (TDP-2-200 .

Continuous Thermal Decomposition Plant (TDP-2-200 .

Pyrolysis, thermal decomposition, is the used tyres treatment technology based on thermal destruction of feedstock under the high temperatures and lack of oxygen . Pyrolysis reactor TDP-2-2000 was sent for Slavneft-Krasnoyarskneftegaz. At the end of December, IPEC shipped a new reactor to complete. 21.10.2019. TDP-1 pyrolysis unit treats the .

Pyrolysis - Wikipedia

Pyrolysis - Wikipedia

Pyrolysis is the thermal decomposition of materials at elevated temperatures in an inert atmosphere. It involves a change of chemical composition.The word is coined from the Greek-derived elements pyro "fire" and lysis "separating".. Pyrolysis is most commonly used in the treatment of organic materials. It is one of the processes involved in charring wood. In general, pyrolysis of organic .

The thermal decomposition of n‐hexane - Ebert - 1983 .

The thermal decomposition of n‐hexane - Ebert - 1983 .

The kinetics of the pyrolysis of n ‐hexane was studied in a conventional static reactor over a temperature range of 650–840 K.The overall reaction is essentially first order with the kinetic parameters A = 10 13.92 s −1 and E A = 260.3 kJ/mol. The distributions of .

Hazards associated with process of pyrolysis | Thermal .

Hazards associated with process of pyrolysis | Thermal .

Pyrolysis as an environmentally friendly and cost-effective waste tyres treatment technology. Pyrolysis, thermal decomposition, is the used tyres treatment technology based on thermal destruction of feedstock under the high temperatures and lack of oxygen

Potential of pyrolysis processes in the waste management .

Potential of pyrolysis processes in the waste management .

2. Types of pyrolysis reactors used to utilize different domestic waste. The reactor type being used for the pyrolysis of waste has to be given great importance because of the large amount of heat to be transferred across the reactor wall to ensure material degradation .Reactors described in literature used in the pyrolysis of different wastes include fixed bed reactors, batch or semi-batch .

Dissociative Ionization and Thermal Decomposition of .

Dissociative Ionization and Thermal Decomposition of .

Jul 10, 2017 · Dissociative ionization. The dissociative photoionization of cyclopentanone has been studied to distinguish dissociative ionization products from thermal decomposition products. 17 Furthermore, it is interesting to compare and contrast .

Pyrolysis Technical Analysis

Pyrolysis Technical Analysis

Pyrolysis is the thermal decomposition of organic compounds in the absence of air/oxygen, starting at temperatures between 350-550oC up to 700-800oC. The long hydrocarbon chains in the biomass break down into smaller molecules in the form of gases, condensable vapors (tars and oils) and solid charcoal.

Plasma Pyrolysis of Methane to Hydrogen and Carbon Black .

Plasma Pyrolysis of Methane to Hydrogen and Carbon Black .

The plasma-driven gas-phase thermal decomposition of methane yielding hydrogen and solid-phase carbon has been suggested as an environmentally friendly alternative to conventional methods of producing hydrogen from natural gas. The advantage of the process is that hydrogen is obtained directly from methane without producing CO2 as a byproduct.

Thermolysis of High-Density Polyethylene to Petroleum Products

Thermolysis of High-Density Polyethylene to Petroleum Products

Thermal degradation of plastic polymers is becoming an increasingly important method for the conversion of plastic materials into valuable chemicals and oil products. In this work, high-density polyethylene (HDPE) was chosen as a material for pyrolysis. A simple pyrolysis reactor system has been used to pyrolyse HDPE with an objective to optimize the liquid product yield at a .

Plasma Pyrolysis of Methane to Hydrogen and Carbon Black .

Plasma Pyrolysis of Methane to Hydrogen and Carbon Black .

The plasma-driven gas-phase thermal decomposition of methane yielding hydrogen and solid-phase carbon has been suggested as an environmentally friendly alternative to conventional methods of producing hydrogen from natural gas. The advantage of the process is that hydrogen is obtained directly from methane without producing CO2 as a byproduct.

Continuous Thermal Decomposition Plant - Pyrolysis

Continuous Thermal Decomposition Plant - Pyrolysis

2. The pyrolysis reactor is heated by the fuel burner. When the heat temperature rises to the set value, the decomposition process starts. 3. After the operation process is stable, heating is carried out by gas burner operating on pyrolysis gas. 4. From the pyrolysis reactor, the oil gas goes into condensers. Then it is cooled in the heat .

Thermal decomposition of bio-oil: Focus on the products .

Thermal decomposition of bio-oil: Focus on the products .

Thermal decomposition of bio-oil: Focus on the products yields under different pyrolysis conditions Younes Chhitia,⇑, Sylvain Salvadora, Jean-Michel Commandréb, François Broustb a Ecole des Mines d'Albi – Carmaux, Centre RAPSODEE, FRE CNRS 3213, Campus Jarlard, route de Teillet 81013, Albi CT Cedex 09, France bCIRAD, UR Biomasse Energie, TA B-42/16, 73, Avenue J.-F. Breton, 34398 .

Thermal Decomposition Plant is the leading product on the .

Thermal Decomposition Plant is the leading product on the .

Thermal Decomposition Plant is the leading product on the international waste management market. International Power Ecology Company was founded in 2004 and uses a proprietary pyrolysis process to decompose hydrocarbon waste of different types with recovery of pyrolysis oil, syngas and dry residue (carbon black).. Thermal Decomposition Plants manufactured by IPEC are efficient at:

Continuous Thermal Decomposition Plant For Tire And Rubber .

Continuous Thermal Decomposition Plant For Tire And Rubber .

2. The pyrolysis reactor is heated by the fuel burner. When the heat temperature rises to the set value, the decomposition process starts. 3. After the operation process is stable, heating is carried out by gas burner operating on pyrolysis gas. 4. From the pyrolysis reactor, the oil gas goes into condensers. Then it is cooled in the heat .

Mathematical Model for Wood PyrolysisComparison of .

Mathematical Model for Wood PyrolysisComparison of .

Autothermal pyrolysis of biomass due to intrinsic thermal decomposition effects. Journal of Thermal Analysis and Calorimetry 2018, 158 DOI: 10.1007/s10973-018-7562-7. Pious O. Okekunle, Olasunkanmi O. Adeoye. Numerical investigation of the effects of some selected thermo-physical properties on products evolution and yields during biomass pyrolysis.