For a pharmaceutical plant that needs to satisfy uncertain demand in an emerging market, this could entail seeing the capacity of the production equipment, its utilisation, the labour required to operate it, and the flexibility of the equipment to produce either different or more products..
However, the digital library can mobilise this wealth of data available.No longer overwhelming, it becomes easy to manage and utilise.
Designers can consider the most complex and vast strands of data and options immediately and simultaneously..This data helps designers plan for the fullest range of complex requirements at the earliest stages, from safety to stakeholder requirements, from operations to maintenance, from re-use and net zero to wider sustainability goals..Platforms enable designers to consider, share and integrate all pertinent data in the earliest design concepts, locking this value in to the DNA of the design, delivery and operation..
Reduced handoffs for reduced risk.Embedding pertinent data in a digital library avoids continual calculations from first principles and sequential issuing.
Instead, compliance is pre-baked into the design through rule sets and parameters that are agreed up front by multiple engineers.
From that point on, design compliance can then be either shown systematically against the agreed rule set or even autogenerated against it..We apply the principles of our Design to Value approach internally as well as externally, because we know the exceptional value it creates..
If you'd like to continue to learn about our Design to Value approach and Modern Methods of Construction, sign up for our monthly newsletter here:.http://bit.ly/BWNewsUpdatesWhen we talk about process engineering, it’s common to focus on the design and optimisation of industrial processes.
People tend to think about pharmaceuticals, or the manufacturing industry.However, at Bryden Wood, we believe the topic is actually much wider than that.