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MAXIMIZING EFFICIENCY WITH INSERTION THERMAL MASS FLOW METERS FOR BIO GAS FLOW MEASUREMENT

  A renewable energy source, biogas can be created from a variety of organic waste products. Accurate and effective   compressed biogas flow   metering systems are essential for maximizing biogas production efficiency and guaranteeing appropriate energy management. Thermal mass flow meters are one of the most dependable and economical methods of measuring biogas flow. We’ll look at the benefits of utilizing insertion thermal mass flow meters to monitor biogas flow in this blog post. THE IMPORTANCE OF ACCURATE BIOGAS FLOW MEASUREMENT The measurement of biogas flow is essential for efficient energy production and management. Accurate  compressed biogas flow measurement  helps to optimize process control, reduce costs, and ensure safety. Inaccurate measurement of biogas flow can lead to reduced energy output, damage to equipment, and safety hazards. Moreover, precise biogas flow measurement is critical for complying with regulatory requirements and ensuring accurate reporting. ADVANTAGES
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ADVANCEMENT IN AIR & PROCESS GAS FLOW MONITORING IN CEMENT PLANTS FOR PROCESS OPTIMIZATION

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  One of the essential foundational industries for the growth of infrastructure and building is the cement industry; in 2021, the globe produced about 4.4 billion tons of cement. China is the world’s largest cement producer, with over 55% of the global capacity; India comes in second, with over 7% of the global capacity. Following the COVID-19 epidemic, there was an abrupt increase in demand for both urban and rural infrastructure expansions worldwide, primarily in developing nations. Long-term demand for cement products will result from initiatives like India’s Smart City project, which will push current cement plants to greatly upgrade their technological capabilities in order to optimize energy and cost. Among all industrial sectors, the cement industry is one of the ones that uses the most energy. Between 40% and 60% of industrial expenses are attributed to energy use. In addition, the cement sector accounts for 5% to 8% of global emissions of CO2 produced by humans. Today’s cement
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BLAST FURNACE GAS FLOW MEASUREMENT IN STEEL PLANT

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  In steel industries Blast furnaces have a key role in smelting iron ore together with fuel (coke) and flux (limestone) continuously supplied from the top of the furnace. Hot blast air with oxygen enrichment is blown into the lower section of the furnace through a series of pipes (tuyeres).  This results in chemical reactions while material falls downwards in the furnace.  Flue gas ( Blast furnace gas) a low calorie will exit from the top of the furnace which in turn is used in other low heating furnaces in other steel processes.  Blast furnace gas  typically consists of mainly N2(50-55%), CO (20-25%), CO2(16-18%) etc. It contains some moisture content and carbon particle dirt sticky in nature but cleanable. Leomi provides a  Leomi-586 Insertion Thermal Mass flowmeter  which works excellent in these demanding applications against existing Orifice Or Averaging Pitot tube-based DP type flow transmitters. THE MAJOR ADVANTAGE OF INSERTION THERMAL MASS FLOWMETER IN THIS APPLICATION: Measur
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Location: India
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ADVANCEMENT IN AIR & PROCESS GAS FLOW MONITORING IN CEMENT PLANTS FOR PROCESS OPTIMIZATION

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Cement Industry is one of the crucial core sectors for the development of construction and infrastructure with currently approx. 4.4 billion Tonnes of cement was produced in the world in the year 2021. The largest cement producer is China with more than 55% capacity and thereafter India accounts for the second largest product with around 7% of capacity. After the COVID-19 pandemic, there was a sudden rise in demand from rural and urban infrastructural developments across the world and mostly in undeveloped countries. Initiatives such as the Smart City project by India will see a long-term demand for cement products which will see huge technological upgradation of existing cement plants for cost and energy optimization. The cement industry is one of the most intensive energy consumers in the industrial sectors. Energy consumption represents 40% to 60% of production costs. Additionally, the cement industry contributes around 5% to 8% of all man-made CO2 emissions. Due to increasing deman
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