Skip to content
Welcome To Our Store.
100,000+ Products for Home, Medical, Office & Classroom Needs
Search
Skip to product information
1 of 1

Hybrid Modelling and Multi- Parametric Control of Bioprocesses - Paperback

$54.04
$54.04
Sale Sold out
Shipping calculated at checkout.
In stock (100 units), ready to be shipped

Available Offers

Fastest Delivery Tomorrow With Vip DealOrder within 1 hr 8 mins.

Instant 10% Discount On HDFC Banks Credit/Debit Cards EMI and CreditCard

Secure checkout with
  • American Express
  • Apple Pay
  • Diners Club
  • Discover
  • Google Pay
  • Mastercard
  • PayPal
  • Shop Pay
  • Visa

Flight Range: Up to 1,000 meters (3,280 feet)

Maximum Speed: 45 kilometers per hour (28 miles per hour)

For all orders exceeding a value of 100USD shipping is offered for free.

Returns will be accepted for up to 10 days of Customer’s receipt or tracking number on unworn items. You, as a Customer, are obliged to inform us via email before you return the item.

Otherwise, standard shipping charges apply. Check out our delivery Terms & Conditions for more details.

View Product Details
Shopping cart
Product Product subtotal Quantity Price Product subtotal
Hybrid Modelling and Multi- Parametric Control of Bioprocesses - Paperback
Hybrid Modelling and Multi- Parametric Control of Bioprocesses - Paperback
Hybrid Modelling and Multi- Parametric Control of Bioprocesses - Paperback
$54.04/ea
$0.00
$54.04/ea $0.00

Product Description

by Cristoph Herwig (Guest Editor)

The goal of bioprocessing is to optimize process variables, such as product quantity and quality, in a reproducible, scalable, and transferable manner. However, bioprocesses are highly complex. A large number of process parameters and raw material attributes exist, which are highly interactive, and may vary from batch to batch. Those interactions need to be understood, and the source of variance must be identified and controlled.

While purely data-driven correlations, such as chemometric models of spectroscopic data, may be employed for the understanding how process parameters are related to process variables, they can hardly be deployed outside of the calibration space. Currently, mechanistic models, models based on mechanistic links and first principles, are in the focus of development. They are perceived to allow transferability and scalability, because mechanistics can be extrapolated. Moreover, the models deliver a large range of hardly-measureable states and physiological parameters.

The current Special Issue wants to display current solutions and case studies of development and deployment of hybrid models and multi-parametric control of bioprocesses. It includes:
-Models for Bioprocess Monitoring
-Model for Bioreactor Design and Scale Up
-Hybrid model solutions, combinations of data driven and mechanistic models.
-Model to unravel mechanistic physiological regulations
-Implementation of hybrid models in the real-time context
-Data science driven model for process validation and product life cycle management

Number of Pages: 148
Dimensions: 0.4 x 9.61 x 6.69 IN
Illustrated: Yes
Publication Date: February 07, 2018
you might like