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BORSIG Experience & Innovation |
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BORSIG
Vapour
Recovery Unit (marine loading
of benzene)
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BORSIG Membrane Technology GmbH, a member of
the BORSIG Group, is an internationally leading company offering innovative
membrane technology solutions for a wide range of industrial applications.
Our products - Membranes, Membrane Modules
and complete Membrane Systems
– are synonymous for high quality, competence and reliability. Our portfolio ranges from process simulation
to the delivery of complete turnkey systems and related comprehensive after-sales
service. Our staff have been developing and offering intelligent process
solutions since 1988. With an expertise reflected by hundreds of
industrial-scale membrane systems delivered to customers all over the world,
BORSIG Membrane Technology GmbH is the competent partner for your projects. |
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Target Applications for BORSIG
Membrane
Technology
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BORSIG MEMBRANE TECHNOLOGY Solutions for Processes and
Environment In many areas of the chemical, petrochemical, oil
and gas industries, membrane processes today are the standard process which
is used either as alternatives to or in combination with conventional process
steps. BORSIG Membrane Technology offers you modern, intelligent solutions
for new and existing processes. Taking the highest safety and quality
standards into consideration, our membranes, membrane modules and membrane
systems ensure safe plant operation and enable maximum efficiency and optimum
economic efficiency in the following applications §
EMISSION
CONTROL §
PRODUCT
RECOVERY §
FUEL GAS
CONDITIONING §
ADVANCED
SEPARATIONS |
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Membrane Solutions for People and Environment
Skid-mounted modular BORSIG Vapour Recovery Unit |
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BORSIG Membrane
Technology's portfolio in the field of emissions protection includes: BORSIG Vapour
Recovery Unit for Tank Farms and Refineries BORSIG Marine
Vapour Recovery Unit for product loading into ships and see going
vessels BORSIG Carbon
Retrofit Unit for retrofitting of existing active carbon units
to improve performance BORSIG Vent
Recovery System for Emission Control at Petrol Service Stations We also offer related Equipment and Services:
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Background Displacement and evaporation
processes during the storage and handling of hydrocarbons lead to the release
of organic vapours. These emissions of volatile organic compounds (VOCs) can cause significant health risks on the one hand,
and they are additionally known to be precursor substances for ozone gas
which, for example, causes summer smog. In order to protect man and his
environment, suitable measures must hence be taken in order to minimise the
resultant emissions. The oil and chemical industries,
for example, offer significant potential for the necessary emission reduction
where large amounts of organic vapours are released and in most cases mixed
with air during the storage and distribution of their products. This holds
particularly true for gasoline and related products where losses of more than
1.5 litres per cubic metre handled can occur during handling. This is exactly
where BORSIG Membrane Technology comes into its own. It offers maximum
recovery rates of up to 99.9% and thereby enables compliance with all
customary emission standards whilst also fulfilling the highest quality,
safety and reliability demands. Besides obvious benefits for man
and the environment, the recovery of these vapours also means economic
benefits - valuable raw materials or products are recycled into the
production process rather than being lost forever |
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Improve the Performance & Benefits of your Process Product
recovery systems must meet with ever-more demanding efficiency requirements.
Economic efficiency, productivity, improved sustainability of technological
processes as well as optimum utilisation of our resources are
key challenges in this area.
Modular
container-based BORSIG Propylene
Recovery Unit |
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BORSIG’s
Product Recovery Solutions include: BORSIG Ethylene
Recovery Unit Recovery of valuable ethylene monomer released
from Polyethylene production, EO or VAM production and
from purge processes BORSIG Propylene
Recovery Unit Recovery of valuable propylene monomer released
from Polypropylene production and resign (PP) purge processes. BORSIG Hydrocarbon
Recovery Unit Recovery of valuable hydrocarbon product vapours
released from production and storage procedures, e.g.: - Solvent Recovery, Butane, Pentane,
Hexane from PE production - Aromatics: Benzene, Toluene, Xylene, Ethylbenzene etc. - MTBE, ETBE, Ethanol, Methanol - Chlorofluorocarbons (CFC), Vinyl Chloride Monomer
(VCM) and various other typical hydrocarbons |
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Background BORSIG Membrane Technology offers
optimum solutions here which help minimise looses. Recover valuable raw
materials or products from exhaust air or process gas flows and their recycling
into the production process. Recovery of organic components and vapours
(volatile organic compounds = VOCs) are central
applications for the chemical and petrochemical industry. BORSIG Membrane Technology is
particular interesting for operators of polymer production plants. Un-reacted
monomer or other components of a high value can be selectively separated from
the carrier gas, concentrated and fed back into the production process. This
enables very short payoff periods. One typical application, for example, is
the separation of olefin monomer from purge gas during the polymer products
degassing phase. Advantages for plant owners include high monomer recovery
rates, high nitrogen recovery rates from the purge gas for re-use in the
process, as well as simple retrofitting / capacity expansion of existing
condensation plants. |
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Propylene
Recovery Units for PP Producers
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Propylene Recovery Process based on Membrane
Technology
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FUEL
GAS CONDITIONING Meet Your Target Gas Specification BORSIG’s
Membrane Technology offers the possibility to treat gas flows in oil and gas
production application. The aim is to condition raw gas Flows or to improve
product quality with a view to compliance with pipeline specification or
calorific- value requirements. The
required gas quality is typically specified by defining pressure dew point,
calorific values or a minimum methane number. All these quality parameters
are determined by the share of higher hydrocarbons in the gas The BORSIG
polymer Membrane enables the reduction and separation of higher hydrocarbons
(C3+, NGL) from associated gases. The higher hydrocarbons are selectively
separated by the membrane and concentrated at the low-pressure end. The
product obtained in this way can either be added to the crude oil or,
following compression and pressure condensation, made available in liquid
form as a valuable input material for petrochemical applications. This
membrane technology can be used for a range of purposes, from adjusting the
calorific value of fuel gases for gas motors or gas turbines to adjusting the
dew point in gas pipeline systems |
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Modular BORSIG Fuel Gas Conditioning Unit
Membrane separation systems to process flare gas or associated gas for: - separation of C3+ components - decrease of water and hydrocarbon dew point - prevention of liquids in pipeline - meeting required pipeline specifications
Membrane separation systems for fuel gas
optimisation - methane no. control and increase - calorific value adjustment |
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ADVANCED
SEPARATIONS Tailored Membranes & Processes |
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Thanks to the persistent further development of
advanced membrane materials and the possibility of tailored molecular surface
engineering, BORSIG Membrane Technology offers selected products for advanced
membrane applications. During selective pervaporation,
part of the liquid feed flow is continuously evaporated through the membrane
into the permeate which is kept under vacuum. The
new application of the pore filling concept enables the tailor-made design of
membranes for specific separation functions. |
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Liquid feed stream filtration through modified
selective membranes. An alternative to conventional thermal separation
technologies - Targeted hydrocarbon product design - Recovery / Separation
of homogenous catalysts - Product separation in
the vegetable oil industry - alcohol / aromatics |
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BORSIG organophilic Nanofiltration System |
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Liquid feed stream evaporation through modified
selective membranes - aromatics / aliphatics
- aromatics / alicyclic
hydrocarbons - organics / water - alcohol / hydrocarbon - alcohol / ester (MeOH,
MTBE) |
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Besides classical nanofiltration
for aqueous substance systems, BORSIG Membrane Technology offers modified
membranes for the selective separation of liquid organic mixtures by
so-called organophilic nanofiltration
(oNF). These solvent-resistant and mechanically
stable membranes enable completely new, innovative processes and constitute
an alternative to conventional thermal separation processes. With the
combination of the latest membrane technology and tried-and-tested equipment
design BORSIG Membrane Technology can offer innovative technology to our
customers within the partnership with GMT
GmbH and PolyAn GmbH. The new membranes offer
many advantages as follows: |
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The new membranes offer many
advantages as follows: - Excellent performance and long-time stability - Target variation of the permeability/selectivity ratio is possible - Very high mechanical stability in the case of pressure and temperature
changes - Easy integration into BORSIG’s modules
possible |
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Company: |
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BORSIG Membrane Technology GmbH |
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Address: |
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Egellsstraße 21, 13507 |
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Contact: |
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Phone +49-(0)30-4301-2613, Fax
+49-(0)30-4301-2447 mail: info@borsig-mt.com |
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Register of Companies: |
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Registered at District Court “Amtsgericht Charlottenburg”
under No. HRB 95 047 |
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Managing Directors: |
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Dipl.-Ing. Jürgen Stegger |
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Bank Account |
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Commerzbank |
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Tax No.: |
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DE/VAT 27/413/03730 |
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Legal advice: With
the verdict of 12th May 1998, the regional court of Hamburg in the Federal
Republic of Germany decided that by proposing a link on the Internet, one is
necessarily responsible for the contents of the link in terms of criminal
law. Thus the regional court – this can only be prevented, if one distances
oneself from the contents. We herewith do so purely as a matter of
precaution. Since we have established links of our Website to other sites on
the Internet, we expressly underline that we have no influence whatsoever on
the design and the contents of the linked pages and that the contents and illustrations
do not necessarily represent our personal opinion. We herewith expressly
distance ourselves as a matter of precaution from the contents of all links
that are proposed on our Website (incl. eventual banners) and from all the
contents of other or further pages to which these links lead. |
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