Refine by
Biogas Process Articles & Analysis
156 articles found
Gasboard-3500UV, developed for continuous biogas process and desulfurization monitoring, utilizes UV-DOAS, NDIR, and electrochemical (ECD) gas sensing technology platforms to simultaneously measure CH4, CO2, O2, and H2S, providing complete visibility across both production and upgrading stages. ...
By extending its established measurement capabilities into the biogas and biomethane sectors, Cubic provides comprehensive monitoring solutions that enhance process efficiency, ensure gas quality, and enable safe, sustainable operation of modern biogas facilities. Gasboard-3500UV, developed for continuous biogas ...
A large-scale dairy farm in West Java, Indonesia, houses approximately 6,000 cows and generates 250-300 m³ of wastewater per day from dairy manure and grass silage. Its wastewater treatment process includes two biogas digesters with a combined volume of 7,000 m³. Despite stable operation, the system experienced limited COD removal efficiency (50-60%) ...
Evolving Measurement Demands in the Global Biogas and Biomethane Industry Global biogas and biomethane production are expanding rapidly, shifting industry priorities from project deployment to efficient operation, accountability, and long-term reliability. ...
To ensure both process stability and high-quality biogas/biomethane, operators must maintain tight control over gas composition: particularly methane (CH4), carbon dioxide (CO2), oxygen (O2), and hydrogen sulfide (H2S). ...
Optimising the anaerobic digestion process Biogas and biomethane are produced through anaerobic digestion (AD). Along with these valuable outputs, the process leaves behind digestate, a nutrient-rich by-product often used as fertiliser. ...
Draygon’s wastewater treatment process was tested by an independent group for effectiveness in certain applications. Specifically, McKnight Transport Ltd; County Down, Northern Ireland, planned to develop an Anaerobic Digestion Plant, through which the primary feedstock would be a combination of food waste and chicken litter. This process would produce ...
ByDraygon
M2RT technology extracts organic slurry from waste for biogas power generation while processing the remaining solids through biological drying for incineration or composting. ...
Biogas production has evolved from a niche practice into a pivotal part of renewable energy, converting organic waste into a clean energy source. Wastewater treatment plants, food waste facilities, and landfill gas recovery systems utilise anaerobic digesters to break down organic matter. This digestion process produces biogas—a mixture of ...
We sat down with Srinivas Kasulla, Director of Arka BRENStech Pvt Ltd, to discuss the Indian biogas market, Arka’s partnership with BPC, and how to avoid process failure in large-scale biogas production. ...
Screw presses contribute to the separation of liquid from the solid waste within leachate, streamlining the treatment and disposal processes for both components. 5. Biogas Production Enhancement: In anaerobic digestion processes, where organic waste is transformed into valuable biogas, screw presses come into play by separating ...
However, the process generates a byproduct called biogas slurry, which is rich in nutrients but also high in water content. ...
**Enhanced Efficiency:** By reducing moisture content, dewatering machines increase the efficiency of downstream papermaking processes. This leads to higher production rates and cost savings. 2. **Environmental Benefits:** Dewatering reduces the volume of wastewater generated during the pulp production process, helping paper mills comply with environmental ...
The power behind Genclean’s functionality lies within its advanced oxidation process (AOP). This process generates hydroxyl radicals and reactive oxygen compounds that can oxidize almost all pollutants in water & wastewater at the molecular level. ...
A screw press dewatering machine is commonly used in waste management for its efficient and effective ability to separate liquids from solid materials. It can be used to process a wide range of materials across various industries. The primary function of the machine is to separate liquids from solids by applying pressure and mechanical force through a rotating screw mechanism. ...
Using the anaerobic digestion process, a household with just three cattle or seven pigs can generate sufficient gas to meet their basic domestic energy needs, including cooking and lighting.As shown in the image below, a household biogas plant requires a 6 cubic meter pit lined with concrete and an air-tight concrete cover. ...
Gas sensors can control the carbon dioxide concentration for optimal crop growth, a process which will increase the quantity and efficiency of vegetation production and protect the food supply chain. In addition, early gas detection through carbon dioxide and methane sensing is crucial to the efficiency of the anaerobic digestion process during ...
This article will explore just a few of these processes such as the use of gas sensors within vertical farming, the detecting the spoilage of grains, controlled environment horticulture, anaerobic digestion and biogas. ...
Anaerobic digestion has been recently highlighted as an environmentally friendly method to produce hydrogen from food and animal waste. In this process, microorganisms decompose biomass in the absence of oxygen. Through anaerobic digestion, food and animal waste is recycled to produce hydrogen gas that can be subsequently converted to methane or biogas if ...
Organic feedstock, such as food waste, manure and sewage, is broken down by bacteria using an anaerobic (oxygen free) process. This biogas is then processed and used as a source of energy. ...