PYROLISYS AND GASIFICATION FOR BIOMASS AND OTHER WASTE

+55 19 3579 8802

WHAT ARE YOU LOOKING FOR?

Get to know our pyrolysis plants, see a comparison between technologies or learn more about pyrolysis of other wastes. Just click on the images below.
Planta de pirólise e gaseificação de biomassa
Pirólise de qualquer resíduo orgânico
 

TECHNOLOGY IN

PYROLYSIS AND GASIFICATION

Bioware is a reference in Brazil in fast pyrolysis and gasification,
both for companies and for research centers and universities.
Innovation and know-how
In addition to patented proprietary technology,
we design and manufacture our own
pyrolysis and gasification units.
Currently, several of these units
are in operation throughout Brazil.
 

PLANTS OF PYROLYSIS AND GASEIFICATION

ON VARIOUS SCALES

Get more information by clicking on the images.
Planta de pirólise Bioware em escala laboratorial
Laboratory Scale
Allows processing of
any organic material. 
Aimed at waste studies and analysis.
Planta de pirólise Bioware em escala industrial
Industrial scale
Pyrolysis and gasification plants capable of converting up to 2000 kg of biomass per hour.
Planta de pirólise Bioware em escala piloto
Pilot scale
Pyrolysis and gasification plants capable of converting up to
200 kg of biomass per hour.

INDUSTRIAL SCALE

PLANTS OF PYROLYSIS AND GASIFICATION

Plants with capacity for conversion
of 2.000 kg/h of biomass and fractional
separation system of pyrolysis vapors. 
As primary products the unit delivers:
20% organic acids
35% bio-oil
20% pyrolysis gases
15% charcoal powder
 

PILOT SCALE

PLANTS OF PYROLYSIS AND GASIFICATION

Pyrolysis and gasification plants capable
of converting up to 200 kg of biomass per hour.
Operates in the range 300 to 600 °C
Used for large sample production
and top-scale application tests
Designed to determine project
parameters for scale-up of commercial units

LABORATORY SCALE

PLANTS OF PYROLYSIS AND GASIFICATION

Biomass Thermoconversion System
for Thermogravimetric Analyzes (TGA)
of a sample of up to 15 g with recovery
of the products of transformation.
Operates in the range 30 to 1000 °C
Continuous condensation
vapor system
Process any kind
of organic material
Equipment designed
for testing concepts, physical-chemical properties survey
and studies of heat and mass transfer phenomena for samples up to 250g.
 
The purpose is to support
the choice of technologies
and equipment.
Process any kind
of organic material
Verification of any thermal process: roasting, pyrolysis, gasification and combustion
It allows conducting studies on the effects of temperature on the production of liquids and gases from organic materials
 
 
 

PYROLYSIS AND GASIFICATION

OF OTHER WASTE

In addition to the conversion of biomass, the pyrolysis / gasification can also be used
for the transformation of other organic wastes. Here are some examples. 
RESÍDUOS
PE, PS and PP
Plastics
PET Plastics
Bone meal
Garbage
 PYROLYSIS OR GASIFICATION
 
 PYROLYSIS OR GASIFICATION
 
PRODUTOS
Hydrocarbons and gasification gas
Terephthalic acid,
benzoic acid and coke
Hydrocarbons
bio-oil, charcoal with high nitrogen
and ammonia content
Charcoal, liquid fuels
and chemical inputs

TECHNOLOGIES FOR BIOMASS CONVERSION

In order to overcome the barriers that limit the use of biomass in energy generation,
some technologies are being developed. See below a comparison
between them and combustion. 
PYROLYSIS

+

+

biomass
Bio-oil, coal and organic acids
Bio-oil:
Renewable fuel
for energy generation,
replacing Diesel
and fuel oil.
Emulsions for burning, petrochemical phenol
substitution, asphalt
production, waterproofing
and carbon fiber.
 
 
Charcoal:
Heat generation, use in blast furnaces in the steel industry
or as a soil conditioner..
 
Organic acids:
Natural repellent,
insecticide and fungicide.
 
They can also be
used as feedstock for the production of esters.
COMBUSTION

+

+

biomass
Heat
Generation
of electricity, steam,
among others.
GASIFICATION

+

+

biomass
Gasification gas or synthesis gas
Gasification gas:
fuel for heat generation,
electricity, etc..
Synthesis gas:
production of synthetic fuels
such as methanol, gasoline
and Diesel.
MAIN PRIMARY PRODUCTS
APPLICATIONS