IRBISIO | Cleantech Infrastructure Fund’s Post

The Challenge for Farmers in Managing Manure and the Potential of Biogas For farmers today, managing #manure has become a significant regulatory challenge. Strict environmental laws require farmers to meet high standards in handling manure, which often involves extra costs and resources. However, manure can become a valuable asset when transformed into #biogas or #biomethane, offering both economic benefits and environmental gains. Turning #Waste into #Sustainable #Energy Through anaerobic #digestion, organic waste like manure is converted into renewable biogas. This transformation not only provides farmers with an additional revenue stream but also contributes to reducing #greenhouse #gas #emissions. By harnessing manure for biogas, farmers can meet compliance standards and turn a costly obligation into a profitable opportunity. Connecting #Farmers, #Developers, and #Investors At Nectar AgriWaste Solutions, we bridge the gap between farmers needing waste management solutions and investors or developers seeking reliable sources of feedstock for biogas and biomethane production. Our platform simplifies the sourcing process by connecting high-quality manure supplies with biogas projects, managing logistics, and ensuring regulatory compliance. A Sustainable Energy Future The demand for clean energy is growing, and reliable access to organic waste is essential for the success of biogas plants. Nectar AgriWaste Solutions is committed to leading this transformation, making agricultural waste a key player in renewable energy production. #Biogas #Biomethane #SustainableEnergy #AgriculturalWaste #GreenInvestment #AnaerobicDigestion #NectarAgriWasteSolutions #CircularEconomy

Biomethane and agriculture industry in Ireland to collaborate to produce 1.8 TWh per year of biomethane using agricultural waste from 2000 farms. To put in context 1.8 TWh /year ; - is 31.5% of Ireland’s Climate Action Plan 2024 ( CAP24) target of 5.7 TWh /year by 2030 - is c. 3.5% of Ireland's total gas demand - is c. 20% of Ireland's industrial gas demand Plans announced today by Greengate Biogas, Copenhagen Infrastructure Partners, Atlas Renewable Energy and Energex Partners who will collaborate to develop, construct, own and operate 8 new large 250GWh/year biomethane plants across Ireland using agricultural waste from 2000 farms as the primary feedstock. The renewable biomethane from the 8 new Anerobic Digestion (AD) plants will be delivered to consumers via our Gas Networks Ireland gas grid and organic fertiliser will be recirculated back to farmers, making a significant contribution to Ireland’s circular economy and green transition. #eng4climate #biomethane https://lnkd.in/eQWVy4MN

The further expansion of biogas production in Europe will see the generation of increasing amounts of digestate, according to the European Biogas Association https://lnkd.in/e-hNkkCM

Highlighting the Power of Napear Grass for Biogas Production and its immense benefits: In the quest for sustainable energy sources, researchers and environmentalists are constantly exploring innovative solutions. One such promising avenue is the utilization of napear grass, also known as elephant grass, for biogas production. This tall, fast-growing grass native to Africa has garnered attention for its numerous benefits in the realm of renewable energy. 1. High Biomass Yield: Napear grass boasts an impressive biomass yield, outperforming many other feedstock options for biogas production. Its rapid growth rate allows for multiple harvests throughout the year. 2. Abundant Availability: Napear grass can thrive in a variety of climates and soil conditions, making it accessible in many regions around the world. 3. Nutrient-Rich Feedstock: Rich in cellulose and hemicellulose, napear grass provides an excellent source of organic material for anaerobic digestion. 4. Soil Improvement: Beyond its role in biogas production, napear grass can also contribute to soil health and fertility. 5. Carbon Neutrality: Utilizing napear grass for biogas production offers significant environmental benefits. As a renewable resource, it helps mitigate greenhouse gas emissions by offsetting the use of fossil fuels. Napear grass holds immense promise as a renewable energy resource for biogas production. Its high biomass yield, abundant availability, nutrient-rich composition, and environmental benefits make it a compelling option in the transition towards sustainable energy systems. By harnessing the power of napear grass, we can pave the way for a greener, more resilient future. #NapearGrass #BiogasProduction #RenewableEnergy #Sustainability #AnaerobicDigestion #Biomass #ClimateAction #GreenEnergy #EnvironmentalBenefits #AgriculturalInnovation

🌱 Biogas Feedstock for CBG Production: Efficient Methane Generation 💧 Biogas is a versatile renewable energy source produced by anaerobic digestion of organic materials. Below are key feedstocks used for generating methane (CH4) in biogas, along with the technology behind it: . 🌾 Agricultural Residues: Feedstocks like rice straw, wheat straw, and corn stalks are abundant and can be used to produce methane through anaerobic digestion. These materials have high cellulose content, which breaks down to generate biogas. 2. 🍬 Spent Wash (Molasses-based Effluents): In the sugar and distillery industry, spent wash is one of the most effective feedstocks for biogas production. It contains a high amount of organic matter that is converted into biogas in a controlled environment. Spent wash-based biogas is rich in methane and ideal for CBG production. . 3 🧴 Press Mud: A byproduct of sugar processing, press mud is another rich source for biogas. It has a high organic load and provides a steady supply of feedstock for the digesters. 4. 🐄 Animal Manure: Cow dung, poultry litter, and other forms of manure are widely used due to their high methane potential. The anaerobic digestion of manure is a time-tested method for biogas production, improving both waste management and energy generation. 5. 🍽️ Organic Solid Waste: Food waste, kitchen scraps, and organic industrial waste are valuable feedstocks for methane production. These materials can be processed in biogas plants to generate CBG and reduce landfill burdens. 6 Napier Grass (Elephant Grass): Napier grass is a fast-growing, high-biomass plant commonly used in tropical regions as a biogas feedstock. It’s ideal for biogas production due to its high cellulose content, which converts into methane during the anaerobic digestion process. Its abundant yield ensures a consistent supply for biogas plants, making it one of the most efficient options for CBG production. #Biogas #CBG #NapierGrass #SustainableEnergy #RenewableEnergy #WasteToEnergy #MethaneRecovery #GreenEnergy #CarbonNeutral #BioEnergy #CleanFuel #SustainableAgriculture #ClimateAction #EcoFriendly #Renewables #BiogasForGood #GreenTech #OrganicFarming #SoilHealth #CleanEnergyTransition #GreenEconomy #Innovation

Recently, I attended a workshop on Life Cycle Assessment (LCA) hosted by the World Biogas Association. The focus was on the MBH (Make Biogas Happen) LCA Standard Methodology, which highlighted how LCAs can advance the biogas industry by delivering environmental, economic, and social benefits. The workshop emphasized the energy efficiency of the anaerobic digestion process compared to other waste treatment methods. They also discussed the importance of measuring fugitive emissions to provide a clearer picture of biogas’s overall impact. One of the key takeaways was how sourcing feedstock can influence the environmental benefits of biogas. For instance, diverting organic waste from landfills not only prevents methane emissions but also reduces overall greenhouse gases.  After biogas is extracted, the leftover digestate can be used as organic fertilizer, reducing reliance on chemical fertilizers. The digestate can also enhance Soil Organic Carbon (SOC) and aid in carbon sequestration. The workshop further highlighted how LCAs can identify areas where biogas production can improve. For example, some plants are now using carbon capture technologies to reduce CO₂ emissions during the upgrading process, which is quite innovative.  They also covered transport emissions, emphasizing how transporting feedstock and distributing biomethane can impact the overall greenhouse gas footprint.  By examining these factors, there are opportunities to optimize logistics and make the entire process more efficient. LCA can also enable biogas projects to generate carbon credits, providing an additional revenue stream through carbon markets. These credits not only incentivize renewable energy production but also support projects, especially in developing countries, by certifying carbon savings. In short, assessing the full lifecycle—from feedstock to end-use—ensures that biogas systems play a meaningful role in global decarbonization efforts. With the potential financial benefits from carbon credits, these projects can achieve both environmental and economic sustainability. In the quest to "Make Biogas Happen" globally, LCA serves as a critical tool in driving the development of more efficient and sustainable biogas systems. #Biogas #Sustainability #LifeCycleAssessment #CarbonCredits #RenewableEnergy #AnaerobicDigestion #CarbonSequestration

Jemena has signed a Memorandum of Understanding (MoU) with biogas developer Valorify to build a new biomethane plant in regional New South Wales. The Riverina Bioenergy project will convert agricultural waste into biomethane, enough to meet the energy needs of over 50,000 households or 6% of industrial demand. This project will help decarbonise industries reliant on high-heat processes, such as glass and medicine production, without requiring changes to existing infrastructure. The biomethane will be injected into Jemena's gas distribution network, contributing to a circular economy and reducing emissions. Read about it here - https://lnkd.in/gdzF_j45 Source: Utility Magazine Author: Katherine Livingston Mentions: Jemena, Valorify, Dr Scott Grierson #Biomethane #RenewableGas #CircularEconomy #Decarbonisation #AusEnergy

🌱 Biogas Feedstock for CBG Production: Efficient Methane Generation 💧 Biogas is a versatile renewable energy source produced by anaerobic digestion of organic materials. Below are key feedstocks used for generating methane (CH4) in biogas, along with the technology behind it: . 🌾 Agricultural Residues: Feedstocks like rice straw, wheat straw, and corn stalks are abundant and can be used to produce methane through anaerobic digestion. These materials have high cellulose content, which breaks down to generate biogas. 2. 🍬 Spent Wash (Molasses-based Effluents): In the sugar and distillery industry, spent wash is one of the most effective feedstocks for biogas production. It contains a high amount of organic matter that is converted into biogas in a controlled environment. Spent wash-based biogas is rich in methane and ideal for CBG production. . 3 🧴 Press Mud: A byproduct of sugar processing, press mud is another rich source for biogas. It has a high organic load and provides a steady supply of feedstock for the digesters. 4. 🐄 Animal Manure: Cow dung, poultry litter, and other forms of manure are widely used due to their high methane potential. The anaerobic digestion of manure is a time-tested method for biogas production, improving both waste management and energy generation. 5. 🍽️ Organic Solid Waste: Food waste, kitchen scraps, and organic industrial waste are valuable feedstocks for methane production. These materials can be processed in biogas plants to generate CBG and reduce landfill burdens. 6 Napier Grass (Elephant Grass): Napier grass is a fast-growing, high-biomass plant commonly used in tropical regions as a biogas feedstock. It’s ideal for biogas production due to its high cellulose content, which converts into methane during the anaerobic digestion process. Its abundant yield ensures a consistent supply for biogas plants, making it one of the most efficient options for CBG production. #Biogas #CBG #NapierGrass #SustainableEnergy #RenewableEnergy #WasteToEnergy #MethaneRecovery #GreenEnergy #CarbonNeutral #BioEnergy #CleanFuel #SustainableAgriculture #ClimateAction #EcoFriendly #Renewables #BiogasForGood #GreenTech #OrganicFarming #SoilHealth #CleanEnergyTransition #GreenEconomy #Innovation

Highlighting the Power of Napear Grass for Biogas Production and its immense benefits: In the quest for sustainable energy sources, researchers and environmentalists are constantly exploring innovative solutions. One such promising avenue is the utilization of napear grass, also known as elephant grass, for biogas production. This tall, fast-growing grass native to Africa has garnered attention for its numerous benefits in the realm of renewable energy. 1. High Biomass Yield: Napear grass boasts an impressive biomass yield, outperforming many other feedstock options for biogas production. Its rapid growth rate allows for multiple harvests throughout the year. 2. Abundant Availability: Napear grass can thrive in a variety of climates and soil conditions, making it accessible in many regions around the world. 3. Nutrient-Rich Feedstock: Rich in cellulose and hemicellulose, napear grass provides an excellent source of organic material for anaerobic digestion. 4. Soil Improvement: Beyond its role in biogas production, napear grass can also contribute to soil health and fertility. 5. Carbon Neutrality: Utilizing napear grass for biogas production offers significant environmental benefits. As a renewable resource, it helps mitigate greenhouse gas emissions by offsetting the use of fossil fuels. Napear grass holds immense promise as a renewable energy resource for biogas production. Its high biomass yield, abundant availability, nutrient-rich composition, and environmental benefits make it a compelling option in the transition towards sustainable energy systems. By harnessing the power of napear grass, we can pave the way for a greener, more resilient future. #NapearGrass #BiogasProduction #RenewableEnergy #Sustainability #AnaerobicDigestion #Biomass #ClimateAction #GreenEnergy #EnvironmentalBenefits #AgriculturalInnovation