Os equipamentos que instalamos na sua planta podem drasticamente reduzir o consumo de energia e mao de obra. Voce esta gastando enorme quantidades de energia para separar os alcools da agua em seu processo industrial. Isso custa dinheiro de sua conta bancaria. Agora vou mostrar-lhe como sua empresa pode reduzir esses custos.
Trata-se de colunas de desidratacao para alcools (Metanol, Etanol, Isopropilico,etc)
O nosso sistema nao usa destilacao que tem sido o padrao na industria ate hoje.
O sistema padrao atualmente na industria utiliza o processo de destilacao, que e um processo de separacao termica, ele consome muita energia, e se torna muito caro.
Agora voce tem informacoes sobre esse novo sistema de desidratacao ao inves de destilacao, e pode nos contatar no Brasil pelo telefone 55-3333-3536
O nosso sistema e baseado no principio de adsorcao e difusao, para separar o alcool da agua.
Internacional: +55-55-3333-3536
Molecular Sieve Dehydration Units (MSDU)
For Drying Alcohols (Methanol, Ethanol, Isopropyl, etc)
Most alcohol dehydration for production is based on distillation with packed or trayed columns which include reflux condensers and re-boilers. Depending upon the starting concentrations and final requirements, the column design is determined by the number of theoretical plates (column height), and the amount of reflux and reboiling (energy input).
Although there are limits with azeotropic mixtures (ie. Ethanol/water), this has been a standard in the processing industry for many years. Because this is a thermal separation process, the energy consumption is a major factor in the operation.
As an alternate to distillation, Molecular Sieves have proven
to provide a very dry product while drastically bringing
down energy with minimal labor. Molecular
Sieve Dehydration Units are based on adsorption and
diffusion processes to separate the alcohol from water,
rather than a thermal process, and so can be considerably
more energy efficient. Consider a vapor comprised of 95%
methanol and 5% water. Because certain molecular sieves
preferentially adsorb water, as the vapor passes thru a
column, water is adsorbed on the sieve at the beginning of
the column, removing it from the vapor stream. As the
vapor continues to move through the column, more water
is removed, resulting in a dryer alcohol until it is fully
dehydrated as the vapors exit the column. Over time, the
column will reach a saturation limit, at which time the flow
is diverted to a second (dry) column, and the first column
is then regenerated. For more information, please call in Brazil to 55-3333-3536
International calls: +55-55-3333-3536
Advantages:
o Low Energy Use
o Minimal Labor
Designed to handle a wide variation in feed
concentrations (0-10% water, 25% possible) without operator intervention.
o High Recovery: 98% alcohol recovery
o High Purity: 99.5% dehydration as standard (99.9% optional)
o Packaged Units
o Basic process is very simple, reducing labor and training.
Standard design can handle up to 10wt% water with optional design to
Trata-se de colunas de desidratacao para alcools (Metanol, Etanol, Isopropilico,etc)
O nosso sistema nao usa destilacao que tem sido o padrao na industria ate hoje.
O sistema padrao atualmente na industria utiliza o processo de destilacao, que e um processo de separacao termica, ele consome muita energia, e se torna muito caro.
Agora voce tem informacoes sobre esse novo sistema de desidratacao ao inves de destilacao, e pode nos contatar no Brasil pelo telefone 55-3333-3536
O nosso sistema e baseado no principio de adsorcao e difusao, para separar o alcool da agua.
Internacional: +55-55-3333-3536
Molecular Sieve Dehydration Units (MSDU)
For Drying Alcohols (Methanol, Ethanol, Isopropyl, etc)
Most alcohol dehydration for production is based on distillation with packed or trayed columns which include reflux condensers and re-boilers. Depending upon the starting concentrations and final requirements, the column design is determined by the number of theoretical plates (column height), and the amount of reflux and reboiling (energy input).
Although there are limits with azeotropic mixtures (ie. Ethanol/water), this has been a standard in the processing industry for many years. Because this is a thermal separation process, the energy consumption is a major factor in the operation.
As an alternate to distillation, Molecular Sieves have proven
to provide a very dry product while drastically bringing
down energy with minimal labor. Molecular
Sieve Dehydration Units are based on adsorption and
diffusion processes to separate the alcohol from water,
rather than a thermal process, and so can be considerably
more energy efficient. Consider a vapor comprised of 95%
methanol and 5% water. Because certain molecular sieves
preferentially adsorb water, as the vapor passes thru a
column, water is adsorbed on the sieve at the beginning of
the column, removing it from the vapor stream. As the
vapor continues to move through the column, more water
is removed, resulting in a dryer alcohol until it is fully
dehydrated as the vapors exit the column. Over time, the
column will reach a saturation limit, at which time the flow
is diverted to a second (dry) column, and the first column
is then regenerated. For more information, please call in Brazil to 55-3333-3536
International calls: +55-55-3333-3536
Advantages:
o Low Energy Use
o Minimal Labor
Designed to handle a wide variation in feed
concentrations (0-10% water, 25% possible) without operator intervention.
o High Recovery: 98% alcohol recovery
o High Purity: 99.5% dehydration as standard (99.9% optional)
o Packaged Units
o Basic process is very simple, reducing labor and training.
Standard design can handle up to 10wt% water with optional design to
Este equipamento ultramoderno pode ser adquirido ligando para Jack no Brasil, fone 55-3333-3536
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