Modular Bioprocessing Architectures

Modular Bioprocessing Architectures

Modular Bioprocessing Architectures

Modular Bioprocessing Architectures

Is paying for costly maintenance of legacy technologies or one-off engineered systems the future? Probably not.

Is paying for costly maintenance of legacy technologies or one-off engineered systems the future? Probably not.

Is paying for costly maintenance of legacy technologies or one-off engineered systems the future? Probably not.

Is paying for costly maintenance of legacy technologies or one-off engineered systems the future? Probably not.

We actively contribute our engineering know-how to answering: How to get from today’s monolithic bioprocessing architectures to new structures that provide responsiveness:

1. changing production demands
2. incorporation of technologies
3. changing process needs in upstream and downstream

We take modularity a step further in platform concepts, standardization of topologies and with integrated data handling from engineering to de-commissioning.

The resulting configurable, scalable and extendable bioprocessing architectures enable manufacturers to produce a variety of products from a single facility with faster changeovers, increased flexibility, and improved overall throughput.

The modular approach also bears huge potential for a significant reduction of the lead-time from URS to qualification as well as built-in upgradeability of equipment throughout its lifecycle.

We actively contribute our engineering know-how to answering: How to get from today’s monolithic bioprocessing architectures to new structures that provide responsiveness:

1. changing production demands
2. incorporation of technologies
3. changing process needs in upstream and downstream

We take modularity a step further in platform concepts, standardization of topologies and with integrated data handling from engineering to de-commissioning.

The resulting configurable, scalable and extendable bioprocessing architectures enable manufacturers to produce a variety of products from a single facility with faster changeovers, increased flexibility, and improved overall throughput.

The modular approach also bears huge potential for a significant reduction of the lead-time from URS to qualification as well as built-in upgradeability of equipment throughout its lifecycle.

We actively contribute our engineering know-how to answering: How to get from today’s monolithic bioprocessing architectures to new structures that provide responsiveness:

1. changing production demands
2. incorporation of technologies
3. changing process needs in upstream and downstream

We take modularity a step further in platform concepts, standardization of topologies and with integrated data handling from engineering to de-commissioning.

The resulting configurable, scalable and extendable bioprocessing architectures enable manufacturers to produce a variety of products from a single facility with faster changeovers, increased flexibility, and improved overall throughput.

The modular approach also bears huge potential for a significant reduction of the lead-time from URS to qualification as well as built-in upgradeability of equipment throughout its lifecycle.

We actively contribute our engineering know-how to answering: How to get from today’s monolithic bioprocessing architectures to new structures that provide responsiveness:

1. changing production demands
2. incorporation of technologies
3. changing process needs in upstream and downstream

We take modularity a step further in platform concepts, standardization of topologies and with integrated data handling from engineering to de-commissioning.

The resulting configurable, scalable and extendable bioprocessing architectures enable manufacturers to produce a variety of products from a single facility with faster changeovers, increased flexibility, and improved overall throughput.

The modular approach also bears huge potential for a significant reduction of the lead-time from URS to qualification as well as built-in upgradeability of equipment throughout its lifecycle.