INOXPA USA, INC

Plano

TX 75074, USA

The microbial fermentation is the most applied method in biotechnology, and nowadays it is distinguished by innumerable applications. An example of this is the industrial scale production of erythromycin, antibiotic obtained from Saccharopolyspora erythraea under aerobic conditions. Vitamins like riboflavin, beta carotene and vitamin B12 is also produced industrially by microbial fermentation.

Request information

Bioreactor

Operating principle

The typical batch mode fermentation is presented by the following stages: addition of a solution rich in nutrients, inoculation of microorganisms, injection of foam inhibitor and oxygen ( many microorganisms used in bioprocessing are aerobic). In his type of fermentation systems, the accumulation of waste products and multiplication of the microorganisms provokes the variation of conditions during the fermentation process.

Vitamins, minerals, fatty amino acids and, depending on the bacteria type, growth factors can be added throughout the fermentation cycle. The foam inhibitor is added to control the excess of bubbles, the agitation system facilitates the dissolution of oxygen and release of carbon dioxide and provides a total mixing of nutrients. The process is efficient if the fermentation cycle is carried out at a constant temperature. The chemical reactions and the mechanical processes, occurring inside the fermentation vessel, heat the system and if the heat is not balanced, the cells may die or stop reproducing. Therefore, the cooling process requires an appropriate control system.

The pH and oxygen levels, temperature, agitation, etc. of a fermentation process are automatically controlled by a PLC.

The most frequent problems occurred during the fermentation process is contamination due to an inadequate sterilization or loss of sterility during the process. The use of reliable and high-performance systems provide safety conditions for high quality production.

Design and features

INOXPA offers various types of fermenters for a wide range of applications.
The features of the fermentation / bioprocessing solutions are:

- Volume: 150 - 6.000 liters
- Design conforms to ASME BPE
- Skid-mounted structure
- Tank jacketed and insulated
- CIP/SIP design
- H/D 3:1, 2:1
- Pressure -1/+3 bars

- The control system is totally automated, the PLC controls
and records all functions and data:
- Agitation speed
- Oxygen level
- Temperature
- Pressure regulation in exhaust pipe
- Addition of nutrients
- Product harvest
- Sterilization of the nutrient medium
- Steam sterilization of the fermenter

- Vertical agitator with mechanical seal and motor gear drive.

Materials

Parts in contact with the media: St.St.S 316L.
Internal surface: Ra < 0,4.
Single mechanical seal (dry running).
Sterile sampling system.

Options

We offer qualification of all fermenters with the corresponding IQ/OQ documentation.
Magnetic agitator.
Double mechanical seal.

Documents

Operating principle

The typical batch mode fermentation is presented by the following stages: addition of a solution rich in nutrients, inoculation of microorganisms, injection of foam inhibitor and oxygen ( many microorganisms used in bioprocessing are aerobic). In his type of fermentation systems, the accumulation of waste products and multiplication of the microorganisms provokes the variation of conditions during the fermentation process.

Vitamins, minerals, fatty amino acids and, depending on the bacteria type, growth factors can be added throughout the fermentation cycle. The foam inhibitor is added to control the excess of bubbles, the agitation system facilitates the dissolution of oxygen and release of carbon dioxide and provides a total mixing of nutrients. The process is efficient if the fermentation cycle is carried out at a constant temperature. The chemical reactions and the mechanical processes, occurring inside the fermentation vessel, heat the system and if the heat is not balanced, the cells may die or stop reproducing. Therefore, the cooling process requires an appropriate control system.

The pH and oxygen levels, temperature, agitation, etc. of a fermentation process are automatically controlled by a PLC.

The most frequent problems occurred during the fermentation process is contamination due to an inadequate sterilization or loss of sterility during the process. The use of reliable and high-performance systems provide safety conditions for high quality production.

Materials and Options

Parts in contact with the media: St.St.S 316L.
Internal surface: Ra < 0,4.
Single mechanical seal (dry running).
Sterile sampling system.

We offer qualification of all fermenters with the corresponding IQ/OQ documentation.
Magnetic agitator.
Double mechanical seal.

Document № FTph.Ferm_ES
Title Fermentadores
File type .pdf
    Download
  • E-mail
Document № FTph.Ferm_EN
Title Fermentation systems
File type .pdf
    Download
  • E-mail
Document № FTph.Ferm_FR
Title Fermenteurs
File type .pdf
    Download
  • E-mail
Document № FTph.Ferm_IT
Title Fermentatori
File type .pdf
    Download
  • E-mail
Document № FTph.Ferm_DE
Title Fermenter
File type .pdf
    Download
  • E-mail
Document № FTph.Ferm_PT
Title Fermentadores
File type .pdf
    Download
  • E-mail
Document № FTph.Ferm_RU
Title Биореакторы
File type .pdf
    Download
  • E-mail

Cookies Policy

This website uses cookies. We use cookies to personalise content and ads, to provide social media features and to analyse our traffic. We also share information about your use of our site with our social media, advertising and analytics partners who may combine it with other information that you’ve provided to them or that they’ve collected from your use of their services. However, blocking some types of cookies may affect your experience on the site and the services we can offer. Cookies policy page

Allow selection
Necessary (2)
Preferences (0)
Statistics (7)
Marketing (11)
About cookies

Necessary cookies help make a website usable by enabling basic functions like page navigation and access to secure areas of the website. The website cannot function properly without these cookies.

Preference cookies enable a website to remember information that changes the way the website behaves or looks, like your preferred language or the region that you are in.

Statistic cookies help website owners to understand how visitors interact with websites by collecting and reporting information anonymously

Marketing cookies are used to track visitors across websites. The intention is to display ads that are relevant and engaging for the individual user and thereby more valuable for publishers and third party advertisers.

Name Provider Purpose Expiry Type
cc_cookie_accept www.inoxpausa.com Stores the user's cookie consent state for the current domain 1 year HTTP
PHPSESSID www.inoxpausa.com Preserves user session state across page requests. Session HTTP
collect Google Used to send data to Google Analytics about the visitor's device and behavior. Tracks the visitor across devices and marketing channels. Session Pixel
_ga Google Registers a unique ID that is used to generate statistical data on how the visitor uses the website. 2 years HTTP
_ga_# www.inoxpausa.com Used by Google Analytics to collect data on the number of times a user has visited the website as well as dates for the first and most recent visit. 2 years HTTP
_gat_ Google Used by Google Analytics to throttle request rate 1 day HTTP
_gid Google Registers a unique ID that is used to generate statistical data on how the visitor uses the website. 1 day HTTP
fr Facebook Registers a unique ID that is used to generate statistical data on how the visitor uses the website. 3 months HTTP
_fbp Facebook Registers a unique ID that is used to generate statistical data on how the visitor uses the website. 3 months HTTP
IDE Google Used by Google DoubleClick to register and report the website user's actions after viewing or clicking one of the advertiser's ads with the purpose of measuring the efficacy of an ad and to present targeted ads to the user. 1 year HTTP
ads/ga-audiences Google Used by Google AdWords to re-engage visitors that are likely to convert to customers based on the visitor's online behaviour across websites. Session Pixel
VISITOR_INFO1_LIVE YouTube Tries to estimate the users' bandwidth on pages with integrated YouTube videos. 179 days HTTP
YSC YouTube Registers a unique ID to keep statistics of what videos from YouTube the user has seen. Session HTTP
yt-remote-cast-installed YouTube Stores the user's video player preferences using embedded YouTube video. Session HTML
yt-remote-connected-devices YouTube Stores the user's video player preferences using embedded YouTube video. Persistent HTML
yt-remote-device-id YouTube Stores the user's video player preferences using embedded YouTube video. Persistent HTML
yt-remote-fast-check-period YouTube Stores the user's video player preferences using embedded YouTube video. Session HTML
yt-remote-session-app YouTube Stores the user's video player preferences using embedded YouTube video. Session HTML
yt-remote-session-app YouTube Stores the user's video player preferences using embedded YouTube video. Session HTML
yt-remote-session-name YouTube Stores the user's video player preferences using embedded YouTube video. Session HTML
Cookies are small text files that can be used by websites to make a user's experience more efficient. The law states that we can store cookies on your device if they are strictly necessary for the operation of this site. For all other types of cookies we need your permission. This site uses different types of cookies. Some cookies are placed by third party services that appear on our pages. You can at any time change or withdraw your consent from the Cookie Declaration on our website. Learn more about who we are, how you can contact us and how we process personal data in our Privacy Policy. Please state your consent ID and date when you contact us regarding your consent.