Paques U.S.’s Post

✅Converts fats and proteins into energy-rich #biogas! 🔹The BIOPAQ® Anaerobic Flotation Reactor (AFR) is specifically designed for the treatment of wastewater containing high concentrations of fats, oil and grease (FOG) and other biodegradable compounds such as proteins and starches. The BIOPAQ®AFR will reliably and efficiently convert these organic compounds, typically present in the range from 5-70 g/l of COD (with a max of 14 g/l of FOG) in e.g. the meat and dairy and food manufacturing industry. The COD is converted into valuable biogas, while producing a high quality treated effluent. 🔹Biomass retention using the biogas flotation unit prevents biomass loss and permits the decoupling of hydraulic retention time (HRT) from solids retention time (SRT). This allows HRT 's from 1-8 days with a SRT >50 days. At loading rates from 2-8 kg COD/m3/day and a high concentration of well mixed flocculent biomass, the BIOPAQ®AFR combines the high efficiency and compact footprint of a high-rate reactor with the stability and biogas production of an anaerobic CSTR. 👉 Learn more: https://lnkd.in/gXKJiwpe #wastewatertreatment #anaerobictreatment #usa #unitedstates

✅Converts fats and proteins into energy-rich #biogas! 🔹The BIOPAQ® Anaerobic Flotation Reactor (AFR) is specifically designed for the treatment of wastewater containing high concentrations of fats, oil and grease (FOG) and other biodegradable compounds such as proteins and starches. The BIOPAQ®AFR will reliably and efficiently convert these organic compounds, typically present in the range from 5-70 g/l of COD (with a max of 14 g/l of FOG) in e.g. the meat and dairy and food manufacturing industry. The COD is converted into valuable biogas, while producing a high quality treated effluent. 🔹Biomass retention using the biogas flotation unit prevents biomass loss and permits the decoupling of hydraulic retention time (HRT) from solids retention time (SRT). This allows HRT 's from 1-8 days with a SRT >50 days. At loading rates from 2-8 kg COD/m3/day and a high concentration of well mixed flocculent biomass, the BIOPAQ®AFR combines the high efficiency and compact footprint of a high-rate reactor with the stability and biogas production of an anaerobic CSTR. 👉 Learn more: https://lnkd.in/gXKJiwpe #wastewatertreatment #anaerobictreatment #usa #unitedstates

How does a biogas plant work? Organic input materials such as foodstuff remnants, fats or sludge can be fed into the biogas plant as substrate. Renewable resources such as corn, beets or grass serve as feed both for animals such as cows and pigs as well as for the micro organisms in the biogas plant. Manure and dung are also fed into the biogas plant. In the fermenter, heated to approx. 38-40 °C, the substrate is decomposed by the micro organisms under exclusion of light and oxygen. The final product of this fermentation process is biogas with methane as the main ingredient. But aggressive hydrogen sulphide is also contained in the biogas. A fermenter made of stainless steel has the clear advantage that it withstands the attacks of the hydrogen sulphide and is usable for decades. Furthermore, a stainless steel fermenter provides the opportunity to operation the biogas plant also in the thermophile temperature range (up to 56 °C). Once the substrate has been fermented, it is transported to the fermentation residues end storage tank and can be retrieved from there for further utilisation. The residues can be utilised as high quality fertiliser. The advantage: Biogas manure has a lower viscosity and therefore penetrates into the ground more quickly. Furthermore, the fermentation residue quite often has a higher fertiliser value and is less intense to the olfactory senses. But drying it and subsequently using it as dry fertiliser is also an option. The biogas generated is stored in the roof of the tank and from there it is burned in the combined heat and power plant (CHP) to generate electricity and heat. The electric power is fed directly into the power grid. The heat generated can be utilised to heat building or to dry wood or harvest products. Processing of biogas Gas supply to the national grid or gas filling stations Email: [email protected] WhatsApp: +86152056956308 #sulfurremove #desulfurization #H2Spurifier #farm #CleanEnergy #H2Sscavenger #H2Sadsorbent #FlueGasDesulfurization #biogas #regenerate

Cashew nut shell liquid (CNSL) is a biofuel that is renewable and biodegradable and has similar properties of petro-diesel fuel. CNSL has the potential to be used as an alternative to diesel fuel in compression ignition engines, and thereby mitigate challenges associated with high dependences on imported petroleum and environmental impact that is due to the emissions of greenhouse gases and other pollutants. CNSL has a similar quality and heat content to Light Fuel Oil (LFO). Both the CNSL and Cashew Nut shell cake are used as biomass fuels for clean power generation.There is a growing demand and for this CNSL due to its other multiple uses (including for: paints, laminating resins and intermediates for chemical industry). The scope and varied opportunities for the development of other tailor-made polymers the CNSL offerse is subsequently increasing its value.

Agitation in Digesters: The Key to Efficient Biogas Production Agitation (or mixing) in anaerobic digesters is a vital process that significantly impacts the efficiency and effectiveness of biogas production. The primary purpose of agitation is to ensure a homogeneous environment inside the digester, where feedstock (organic material) is continuously mixed with the microorganisms that break it down. This mixing is critical for the success of the anaerobic digestion process. Why Agitation is Important: 1. Maximizes Biogas Yield -Enhances microbial activity. -Improves contact between microorganisms and feedstock. 2. Prevents Stratification and Sedimentation -Avoids solid material accumulation at the bottom. -Maintains uniform feedstock distribution. 3. Enhances Heat Distribution -Ensures even temperature distribution. -Prevents temperature hotspots. 4. Stabilizes pH Levels -Ensures even pH distribution. -Prevents accumulation of toxic substances. 5. Improves Gas Collection Efficiency -Facilitates even gas release. -Prevents gas accumulation in pockets. 6. Reduces Operational Risks and Increases Process Stability -Promotes consistent operational conditions. -Prevents clogging and blockages. Conclusion: Agitation is essential for maximizing biogas yield, ensuring stability, and maintaining efficient operation in anaerobic digesters. Whether through mechanical, hydraulic, or gas recirculation methods, proper agitation technology is key to sustainability, cost-effectiveness, and optimal biogas production. #Biogas #RenewableEnergy #WasteManagement #Sustainability #AnaerobicDigestion #Agitation #EnergyEfficiency #CircularEconomy #CBG #Ecofinity

How does a biogas plant work? Organic input materials such as foodstuff remnants, fats or sludge can be fed into the biogas plant as substrate. Renewable resources such as corn, beets or grass serve as feed both for animals such as cows and pigs as well as for the micro organisms in the biogas plant. Manure and dung are also fed into the biogas plant. In the fermenter, heated to approx. 38-40 °C, the substrate is decomposed by the micro organisms under exclusion of light and oxygen. The final product of this fermentation process is biogas with methane as the main ingredient. But aggressive hydrogen sulphide is also contained in the biogas. A fermenter made of stainless steel has the clear advantage that it withstands the attacks of the hydrogen sulphide and is usable for decades. Furthermore, a stainless steel fermenter provides the opportunity to operation the biogas plant also in the thermophile temperature range (up to 56 °C). Once the substrate has been fermented, it is transported to the fermentation residues end storage tank and can be retrieved from there for further utilisation. The residues can be utilised as high quality fertiliser. The advantage: Biogas manure has a lower viscosity and therefore penetrates into the ground more quickly. Furthermore, the fermentation residue quite often has a higher fertiliser value and is less intense to the olfactory senses. But drying it and subsequently using it as dry fertiliser is also an option. The biogas generated is stored in the roof of the tank and from there it is burned in the combined heat and power plant (CHP) to generate electricity and heat. The electric power is fed directly into the power grid. The heat generated can be utilised to heat building or to dry wood or harvest products. Processing of biogas Gas supply to the national grid or gas filling stations Email: [email protected] WhatsApp: +86152056956308 #sulfurremove #desulfurization #H2Spurifier #farm #CleanEnergy #H2Sscavenger #H2Sadsorbent #FlueGasDesulfurization #biogas #regenerate

Cashew nut shell liquid (CNSL) is a biofuel that is renewable and biodegradable and has similar properties of petro-diesel fuel. CNSL has the potential to be used as an alternative to diesel fuel in compression ignition engines, and thereby mitigate challenges associated with high dependences on imported petroleum and environmental impact that is due to the emissions of greenhouse gases and other pollutants. CNSL has a similar quality and heat content to Light Fuel Oil (LFO). Both the CNSL and Cashew Nut shell cake are used as biomass fuels for clean power generation.There is a growing demand and for this CNSL due to its other multiple uses (including for: paints, laminating resins and intermediates for chemical industry). The scope and varied opportunities for the development of other tailor-made polymers the CNSL offerse is subsequently increasing its value.

Cashew nut shell liquid (CNSL) is a biofuel that is renewable and biodegradable and has similar properties of petro-diesel fuel. CNSL has the potential to be used as an alternative to diesel fuel in compression ignition engines, and thereby mitigate challenges associated with high dependences on imported petroleum and environmental impact that is due to the emissions of greenhouse gases and other pollutants. CNSL has a similar quality and heat content to Light Fuel Oil (LFO). Both the CNSL and Cashew Nut shell cake are used as biomass fuels for clean power generation.There is a growing demand and for this CNSL due to its other multiple uses (including for: paints, laminating resins and intermediates for chemical industry). The scope and varied opportunities for the development of other tailor-made polymers the CNSL offerse is subsequently increasing its value.

How does a biogas plant work? 1.Organic input materials such as foodstuff remnants, fats or sludge can be fed into the biogas plant as substrate. 2.Renewable resources such as corn, beets or grass serve as feed both for animals such as cows and pigs as well as for the micro organisms in the biogas plant. 3.Manure and dung are also fed into the biogas plant. 4.In the fermenter, heated to approx. 38-40 °C, the substrate is decomposed by the micro organisms under exclusion of light and oxygen. The final product of this fermentation process is biogas with methane as the main ingredient. But aggressive hydrogen sulphide is also contained in the biogas. A fermenter made of stainless steel has the clear advantage that it withstands the attacks of the hydrogen sulphide and is usable for decades. Furthermore, a stainless steel fermenter provides the opportunity to operation the biogas plant also in the thermophile temperature range (up to 56 °C). 5.Once the substrate has been fermented, it is transported to the fermentation residues end storage tank and can be retrieved from there for further utilisation. 6.The residues can be utilised as high quality fertiliser. The advantage: Biogas manure has a lower viscosity and therefore penetrates into the ground more quickly. Furthermore, the fermentation residue quite often has a higher fertiliser value and is less intense to the olfactory senses. 7.But drying it and subsequently using it as dry fertiliser is also an option. 8.The biogas generated is stored in the roof of the tank and from there it is burned in the combined heat and power plant (CHP) to generate electricity and heat. 9.The electric power is fed directly into the power grid. 10.The heat generated can be utilised to heat building or to dry wood or harvest products. 11.Processing of biogas 12.Gas supply to the national grid or gas filling stations #sulfurremove #desulfurization #H2Sscrubber #acidgas  #H2Spurifier #H2Sscavenger #H2Sadsorbent #FlueGasDesulfurization #cokeovengas

UECC is evaluating a cashew nutshell liquid (CNSL) based biofuel solution. Check out this article 👉 #UECC #Biofuel #Maritime #MarineInsight #Merchantnavy #Merchantmarine #MerchantnavyShips