The BIOPAQ®IC process

PaquesTV

28 Jul 201504:06

Summary

TLDRThe PacBio Pack I-C is an innovative anaerobic bioreactor designed for efficient wastewater treatment and biogas production. Utilizing an internal circulation system, it achieves high removal efficiencies of organic pollutants at low costs. The process involves mixing, expanded sludge bed conversion, polishing, and gas-liquid separation. This technology not only purifies wastewater but also generates valuable biogas, offering energy savings and cost reductions for various industries. The self-regulating system ensures stable performance even during peak loads, making it a globally recognized, efficient solution for sustainable wastewater management.

Takeaways

🌿 PacBio Pack is an environmentally friendly anaerobic bioreactor designed for wastewater treatment and biogas production.
💧 It offers high removal efficiencies of organic pollutants at a low operational cost, beneficial for various industries.
🔄 The process includes a clever internal circulation system that facilitates even distribution and treatment of wastewater.
🔄 The bioreactor consists of four main sections: mixing, expanded sludge bed, polishing, and gas-liquid separation.
🚰 Influent is introduced at the bottom of the reactor, ensuring even distribution through a special sludge roof.
🌱 The lower compartment's granular biomass converts most of the biodegradable organic pollution into biogas.
🔝 Biogas produced is collected in a lower separation module, creating a gas lift that carries water upwards.
🔄 The internal circulation involves water flowing from the lower to the upper compartment, treating remaining organic material.
🌱 The second compartment ensures biomass retention and further polishes the water, enhancing treatment stability.
📈 The self-regulating internal circulation system handles peak inflow and load, ensuring high and stable performance.
🏅 Pack's bio pack I see is recognized worldwide as a proven and efficient technology for wastewater cleaning and biogas production.

Q & A

What is the primary function of the PacBio pack?
-The primary function of the PacBio pack is to remove organic pollution from wastewater and produce valuable biogas.
How does the PacBio pack contribute to environmental sustainability?
-The PacBio pack is environmentally friendly as it guarantees high removal efficiencies at low operational costs and helps companies save energy and discharge costs.
What are the four main sections of the PacBio pack's process?
-The four main sections are the mixing section, the expanded sludge bed, the polishing section, and the gas-liquid separator.
How is the influent distributed in the reactor?
-The influent is evenly distributed into the reactor through the mixing section.
Where is most of the organic pollution converted into biogas?
-Most of the organic pollution is converted into biogas in the expanded sludge bed.
What happens in the gas-liquid separator?
-In the gas-liquid separator, biogas and water are separated.
What ensures perfect water distribution in the reactor?
-A special sludge roof ensures perfect water distribution to the expanded sludge bed.
What is the role of the internal circulation system in the PacBio pack?
-The internal circulation system helps in mixing the influent with water, ensuring effective contact between wastewater and biomass, and maintaining high and stable performance.
How does the PacBio pack handle high inflow and load peaks?
-The PacBio pack's self-regulating internal circulation system secures perfect handling of peaks in inflow and load, guaranteeing high and stable performance.
What makes PacBio pack I see recognized worldwide?
-PacBio pack I see is recognized worldwide for its proven efficiency in cleaning wastewater and producing biogas simultaneously, along with in-house manufacturing and quality control.

Outlines

00:00

🌿 Bio-Pac I: Anaerobic Bioreactor for Wastewater Treatment

The Bio-Pac I is an innovative anaerobic bioreactor designed for the efficient removal of organic pollutants from wastewater, while simultaneously producing valuable biogas. This eco-friendly technology offers high removal efficiencies at a low operational cost, making it an ideal first step in the process water reuse within various industrial production processes. It helps companies save on energy and discharge costs. The process involves a clever internal circulation system with four main sections: the mixing section for even distribution of influent, the expanded sludge bed for primary organic conversion, the polishing section for further treatment, and the gas-liquid separator for biogas and water separation. The special sludge roof ensures perfect water distribution, and the internal circulation system, which gives the reactor its name, handles peak inflow and load variations, ensuring high and stable performance. Bio-Pac I is a proven, worldwide recognized technology for cleaning wastewater and producing biogas, with in-house manufacturing and quality control ensuring the best value for customers.

Mindmap

Keywords

💡Anaerobic bioreactor

An anaerobic bioreactor is a type of treatment system that operates without oxygen to break down organic pollutants in wastewater. In the context of the video, the PacBio system utilizes this technology to efficiently convert waste into valuable biogas, showcasing its eco-friendly and cost-effective nature.

💡Organic pollution

Organic pollution refers to contaminants in wastewater originating from organic compounds such as food waste, agricultural runoff, or industrial effluents. The video emphasizes the PacBio system's capability to remove high levels of organic pollution, transforming it into biogas through a biological process.

💡Biogas

Biogas is a mixture of gases, primarily methane and carbon dioxide, produced by the anaerobic decomposition of organic matter. The PacBio system generates biogas as a valuable byproduct of wastewater treatment, highlighting the dual benefits of pollution removal and energy production.

💡Internal circulation system

The internal circulation system in the PacBio reactor facilitates the movement of water and biogas through different compartments, ensuring effective mixing and treatment. This system is crucial for maintaining high loading rates and stable performance, as described in the video's detailed process explanation.

💡Expanded sludge bed

The expanded sludge bed is a section within the bioreactor where a significant portion of organic pollution is converted into biogas. This layer of granular biomass ensures efficient contact between wastewater and microorganisms, enhancing the biodegradation process as outlined in the video.

💡Gas-liquid separator

A gas-liquid separator is a device that separates biogas from treated water within the bioreactor. In the PacBio system, this separation occurs in multiple stages, ensuring that biogas is efficiently collected while clean water is recirculated for further treatment or discharged.

💡Polishing section

The polishing section is the final treatment stage where remaining organic pollutants are removed, ensuring the effluent is of high quality. The video explains how this section complements the overall process by providing additional treatment, resulting in cleaner water and more biogas production.

💡Sludge retention

Sludge retention refers to the ability of the bioreactor to retain microbial biomass within the system, which is essential for continuous and efficient treatment. The PacBio system's design ensures high sludge retention, contributing to its effectiveness in handling varying loads of organic pollution.

💡High loading rates

High loading rates indicate the reactor's capacity to treat large volumes of wastewater with high concentrations of organic pollutants. The video highlights that the PacBio system can maintain high loading rates without compromising treatment efficiency, making it suitable for industrial applications.

💡Effluent pipe

The effluent pipe is the outlet through which treated water exits the bioreactor. In the PacBio system, the polished effluent, which has undergone multiple treatment stages, is discharged through this pipe, signifying the completion of the treatment process.

Highlights

PacBio pack I see is an anaerobic bioreactor designed for the removal of organic pollution from wastewater.

The technology produces valuable biogas, an environmentally friendly byproduct.

High removal efficiencies are guaranteed at low operational costs.

It facilitates the first step in reusing process water in production.

Helps companies in various industries save energy and reduce discharge costs.

The process features an internal circulation system connected by paksas.

Includes a mixing section for even influent distribution.

An expanded sludge bed where most organic pollution is converted into biogas.

A polishing section treats the remaining organic pollution.

A gas-liquid separator where biogas and water are separated.

Influent is pumped into the bottom of the reactor with a special sludge roof for water distribution.

Biomass in the lower reactor compartment converts biodegradable organic pollution into biogas.

Internal circulation is key to the reactor's operation, enhancing load and stability.

Water from the lower compartment flows to the upper, low in organic pollution, for further biogas production.

Biogas is collected in the upper separation module and separated again in the gas-liquid separator.

The polished effluent leaves through the effluent pipe, ensuring high loading rates and stability.

The self-regulating internal circulation system handles peak inflow and load variations.

Packs bio pack I see is recognized worldwide as the most efficient way to clean wastewater and produce biogas.

In-house manufacturing and quality control ensure the best value to customers.