Fachada Dynamis

In 2003 Dynamis started its history by providing different industry sectors with innovative solutions. Focused on the subjects of thermal, energy and fluid mechanics, the company creates innovations that result in more efficiency and cost reduction for the customers.

Results and satisfaction obtained by customers have grown Dynamis into a reference center for innovation. The company is now multinational with the head office located in Brazil, branch offices and agents in many countries around the world.

Throughout this history more than 300 projects were developed and implemented, leading clients towards extraordinary savings. Customers come from the sectors of cement, mining, food, agribusiness, metallurgy, pulp and paper, oil and gas.

With technical solutions ranging from equipment to service, the company is already a global reference in the market.

All the technology offered to customers came from a strategic planning focused on innovation, which included renowned partners, solid investments, research projects and outstanding engineers solving problems and delivering results.

Technical Staff

A team made of professionals with different backgrounds and specializations.

Dynamis has a technical DNA that comes from the corporate partners board, made up by three engineers.  Company´s membership consists of professionals with experience in several industries, that practice an intensive knowledge exchange to converge in functional solutions. All work is focused on saving budget and enhancing results. Currently Dynamis has a team made up by more than 50 Engineers and Designers. Meet the corporate partners board of the company:

Luiz Felipe Dynamis

Luiz Felipe de Pinho

Bachelor Degree in Mechanical Engineering at the University of Sao Paulo in 1995.

Postgraduation in Thermal Engineering (University of São Paulo) and Food Engineering (University of Perugia – Italy).

Professional experience in Chemical, Agribusiness, Cement and Lime, Mining, Metallurgy and Food industries.

Luis Fabiani Dynamis

Luis Filipe Fabiani

Bachelor Degree in Mechanical Engineering at the University of São Paulo in 2003.

Specialized in Thermal and Combustion Systems Modelling.

Professional experience in Chemical, Agribusiness, Cement and Lime, Mining, Metallurgy, Food, Pulp &Paper industries.

Computational fluid dynamics experience using CFX and Fluent.

Rodrigo Borges Dynamis

Rodrigo Borges

Bachelor Degree in Mechanical Engineering at the University of São Paulo in 2001.

Specialized in Thermal Systems, Combustion, Drying, Cogeneration and Energy Efficiency.

Professional experience in Agribusiness, Electric Power Generation, Cement and Lime, Mining, Metallurgy, Food, Ceramics, Glass, Oil & Gas industries.

Software

Dynamis invests in leading edge software for the development of projects
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  • Fluent and CFX (Ansys): computational fluid dynamics software, capable of simulating several types of flow (multiphase, turbulent, reactive) as well as heat and mass transfer.
  • FEMAP (Siemens PLM): finite element analysis software, capable of simulating complex structures under different operational conditions.
  • Metalicas 3D: three-dimensional structural analysis for project of beams, connections and foundations.
  • Inventor (Autodesk): three-dimensional design software.
  • Solid Edge 5T: three-dimensional design software.
  • RDF Checker (Dynamis): in-house developed software for evaluation of waste injection in a cement kiln.
  • Vulcano 2.5 (Dynamis): in-house developed combustion simulation software with a database containing several different fuels.
  • D-RK Simulator (Dynamis): in-house developed software for rotary kiln simulation.
  • D-RD Simulator (Dynamis): in-house developed software for rotary dryer simulation.
  • D-FD Simulator (Dynamis): in-house developed software for flash dryer calculation.
  • CeSFaMB™/ CSFMB©: a combustor/gasifier sizing tool focused on bubbling and circulating fluidized bed.

R&D

R&D groups with focus on innovative projects and major relevance topics for the industry

Low NOx

Purpose

To develop and improve computational tools for evaluation of cement kilns and calciners.
To develop alternative processes and assemblies which reduce NOx emissions.
The group is up to date with the latest state-of-the-art scientific papers. It also makes use of robust software for computational fluid dynamics simulation, with focus on chemical kinetics and turbulence in combustion processes.

Attendants:

Alessandro Lima, Caroline Calseverino, Luis Filipe Fabiani, Gabriel Azevedo, Julio Zeppone, Pedro Abreu and Rodrigo Ferronato.

Technical Advisor:

Professor João Andrade de Carvalho Junior, from Guaratinguetá Engineering College of Paulista State University.

Fluidized Bed and Gasification

Purpose

To continuously improve Dynamis mathematical tools for dimensioning fluidized bed under sub/super stoichiometric condition.
The group makes use of previous project experiences in fluidized bed that operated with several types of fuel and that have been implemented by Dynamis in the past.

Attendants:

Caroline Calseverino, Gabriel Azevedo, Julio Zeppone, Pedro Abreu, Rodolpho Romeu and Rodrigo Borges.

Technical Advisor:

Professor Marcio de Souza-Santos, from Faculty of Mechanical Engineering of Campinas State University.

Drying

Purpose

To continuously improve Dynamis mathematical tools for heat and mass transfer in a Flash Dryer.
To study particle drag and the interaction between particles and gases.

Attendants:

Arthur Rosse, Caique Presoto, Gabriel Azevedo, Juliana Brandi and Rodrigo Borges.

Technical Advisor:

Professor Claudio Roberto de Freitas Pacheco, Polytechnic School of the University of São Paulo.

D-Flame

Purpose

To continuously improve the D-Flame burner for industrial kilns, an equipment that was developed and patented by Dynamis.

Attendants:

Rodrigo Ferronato.

D-Gasifier

Purpose

To continuously improve the D-Gasifier, an equipment that was developed and patented by Dynamis.

Attendants:

Eduardo Moretti, Luiz Felipe de Pinho and Rodrigo Borges.

Partnerships

Projects developed together with Research Institutes and Universities

Dynamis R&D works continuously together with research institutes and universities. These institutions have direct participation in technology improvements and renewal. They are essential to validate ideas that are born in the concept phase of Dynamis projects. Some of these partners are listed below:

abcp dynamis
esss dynamis
ipt dynamis
poli usp dynamis
unesc dynamis
unesp dynamis
unicamp dynamis

Patents

Several patents based on innovative projects:

PI 1000417-3 A2

Combustion chamber (D-Gasifier)

A combustion chamber that allows the use of solid fuels (petcoke, coal and biomass) in substitution of liquid and gaseous fuels, that are much more expensive.

BR 10 2013 014042-2 A2

Gasification system for solid and liquid fuels in a compact chamber (D-Gasifier)

It enhances the partial burning of solid fuels, refining the generation of reducing gases; an ideal approach for processes that require high quality of the generated gases because of their impact in the final product, for example: metal reduction and calcination of ores. It operates with solid fuels only or a mixture of solid, liquid and gaseous fuels. It does not demand auxiliary fuel for flame stabilization.

PI 1001196-0 A2

Improvement of a clay activation system (Pozzolan Kiln)

An efficient and innovative system capable of processing the activation of clays. It allows the manufacture of pozzolanic clay to be used in the cement mixture. This system is capable of drying, activating and cooling the material.

BR 10 2017 009706-4

Improved burner for use in a cement kiln (D-Flame)

This is a rotary kiln burner for cement manufacture, with a multitubular and concentric structure and a burner tip. This invention simplified feasibility and efficiency tests of a burner being designed, which significantly reduces the project phase time. One big advantage of this burner is the enhanced secondary air intake. This is also an international patent, under the code: WO 2017/193191 A1

BR 10 2017 009733-1

A method to improve burner efficiency and burner (D-Flame Method)

This invention was aimed to stablish a method to enhance the efficiency of cement kiln burners. It is capable of predicting the operational behavior of a burner, based in a dimensional factor.

BR 10 2018 006332-4

Manufacturing process of pozzolan with color change (Pozzolan kiln Method)

An innovative process for pozzolan manufacturing that is capable of controlling the color change of the final product. An environmentally safe process that eliminates the presence of carbon monoxide at the kiln outlet. Grey color pozzolan is advantageous because it can be added to the cement mixture, enhancing cement resistance properties without changing its color. Besides, the pozzolan manufacturing process is cheaper and less polluting than clinker manufacture.