What is Bioreactor and fermenter? - PowerPoint PPT Presentation

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What is Bioreactor and fermenter?

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Bioreactors and fermenters are types of vessels used for cultivating microorganisms or cells in a controlled environment. Bioreactors are versatile vessels that are designed for various applications, including cell culture, tissue engineering, and industrial fermentation. They are typically equipped with advanced control systems and in-situ sterilization systems to maintain a sterile environment. Fermenters, on the other hand, are specialized vessels that are designed specifically for microbial fermentation. They are typically used for large-scale production of microbial products such as antibiotics, vaccines, and enzymes. Both bioreactors and fermenters play critical roles in bioprocessing and industrial production and are essential tools in the development of new biotechnologies. – PowerPoint PPT presentation

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Title: What is Bioreactor and fermenter?


1
BIOREACTOR FERMENTER
2
WHAT IS BIOREACTOR?
A bioreactor is a device or system used to
support and control the growth and activity of
living cells or organisms in a controlled
environment. It is commonly used in industrial
biotechnology and pharmaceuticals to produce
various products, such as enzymes, vaccines, and
biofuels. Bioreactors come in different sizes
and designs and can be operated in batch, fed-
batch, and continuous modes. They have various
components such as a vessel, impeller, sensors,
probes, and controllers that enable control of
different parameters such as temperature, pH,
dissolved oxygen, and nutrients. The primary aim
of bioreactors is to optimize the biological
system's growth and activity to maximize
productivity, minimize costs, and ensure product
quality and safety.
3
COMPONENTS OF A BIOREACTOR
A bioreactor is a complex system that consists of
several key components. The main component is
the vessel, which is where the biological system
is grown and maintained. Other essential
components include the agitator or impeller,
sensors and probes, controllers, inlet and
outlet ports, and a sterilization system. The
agitator or impeller facilitates mixing and
aeration, while sensors and probes measure
various physical and chemical parameters, such as
temperature, pH, and dissolved oxygen.
Controllers adjust the bioreactor's parameters
based on the data from the sensors and probes.
Inlet and outlet ports allow for the addition of
nutrients and removal of waste, while the
sterilization system ensures a
contamination-free environment. These components
work together to optimize the growth and
activity of living cells or organisms, making
bioreactors an important tool in biotechnology
and industrial production.
4
APPLICATION OF A BIOREACTOR
  • Bioreactors have numerous applications in
    biotechnology and industrial production. Some of
    the key applications include
  • Production of biofuels and other bioproducts
  • Production of therapeutic proteins and other
    biopharmaceuticals
  • Tissue engineering and regenerative medicine
  • Environmental remediation and waste treatment
  • Agricultural biotechnology, such as production of
    plant-based vaccines
  • Food and beverage production, such as
    fermentation of beer and wine
  • Microbial ecology and research

5
WHAT IS FERMENTER?
A fermenter is a type of bioreactor that is
specifically designed for microbial
fermentation. It provides a controlled
environment where microorganisms, such as
bacteria, yeast, or fungi, can grow and
metabolize nutrients, producing desired products
such as ethanol, organic acids, or enzymes.
Fermenters are equipped with agitators or
impellers, sensors, controllers, and ports for
nutrient addition and waste removal. Fermenters
are used in various industries, such as
biotechnology, pharmaceuticals, and food and
beverage production, to produce a wide range of
products. They offer several advantages over
traditional batch processes, including increased
productivity, reproducibility, and
scalability. Fermenters are an essential tool in
the development of sustainable and innovative
solutions to various global challenges.
6
COMPONENTS OF A FERMENTER
  • A fermenter typically consists of several key
    components, including a vessel, agitator or
    impeller, sensors and probes, controllers, inlet
    and outlet ports, and a sterilization system.
    The vessel is the main component of the
    fermenter, where microbial fermentation takes
    place. The agitator or impeller facilitates
    mixing and aeration, while sensors and probes
    measure various physical and chemical
    parameters, such as temperature, pH, and
    dissolved oxygen. Controllers adjust the
    fermenter's parameters based on the data from the
    sensors and probes. Inlet and outlet ports allow
    for the addition of nutrients and removal of
    waste, while the sterilization system ensures a
    contamination-free environment. These components
    work together to optimize the growth and activity
    of microorganisms, making fermenters an
    essential tool in biotechnology and industrial
    production.

7
APPLICATION OF A FERMENTER
  • Fermenters have a wide range of applications in
    biotechnology and industrial production. Some of
    the key applications include
  • Production of biofuels, such as ethanol, and
    other bioproducts
  • Production of pharmaceuticals, such as
    antibiotics, enzymes, and therapeutic proteins
  • Food and beverage production, such as
    fermentation of beer, wine, and yogurt
  • Agricultural biotechnology, such as production of
    biopesticides and plant-based vaccines
  • Environmental remediation and waste treatment

8
COMPARISON BETWEEN FERMENTER BIOREACTOR
  • Bioreactors and fermenters are vessels used for
    the cultivation of microorganisms or cells in a
    controlled environment. While they share many
    similarities, such as agitators or impellers,
    sensors, controllers, and inlet and outlet ports,
    there are also several key differences between
    them. Bioreactors are designed for a wider range
    of applications, including cell culture and
    tissue engineering, and often have more advanced
    control systems to optimize cell growth and
    metabolism.
  • Fermenters, on the other hand, are specifically
    designed for microbial fermentation and
    typically have simpler systems that are more
    suitable for microbial growth and metabolism.
    Both bioreactors and fermenters play crucial
    roles in biotechnology and industrial production,
    offering efficient and cost- effective solutions
    for a wide range of applications.

9
THANK YOU
FOR ALL YOUR ATTENTION
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