Smart Biogas Monitoring and Forecasting System to            optimize production biogas monitoring and management,            comprises realtime composition of biogas, which            specifically contains methane and carbon dioxide, as            well as predictive exposure to gas depletion and            consumption trends

	Smart Biogas Monitoring and Forecasting System to optimize production biogas monitoring and management, comprises realtime composition of biogas, which specifically contains methane and carbon dioxide, as well as predictive exposure to gas depletion and consumption trends
	RATHOD P ; WANJALE K ; INGALE A ; PATIL V ; RAUT K ; GAWANDE P ; KULKARNI S ; SABLE N ; RAUT A
	2025-04-01
专利权人	WANJALE K (WANJ-Individual) ; INGALE A (INGA-Individual) ; PATIL V (PATI-Individual) ; RAUT K (RAUT-Individual) ; GAWANDE P (GAWA-Individual) ; KULKARNI S (KULK-Individual) ; SABLE N (SABL-Individual) ; RAUT A (RAUT-Individual) ; VISHWAKARMA INST TECHNOLOGY (VISH-Non-standard) ; SHAMKUWAR S C (SHAM-Individual)
申请日期	2025-04-01
专利号	IN202521032244-A
成果简介	NOVELTY - Smart Biogas Monitoring and Forecasting System comprises realtime composition of biogas, which specifically contains methane (CH4) and carbon dioxide (CO2), as well as predictive exposure to gas depletion and consumption trends. The biogas monitoring system incorporating self-calibrating gas sensors, MQ135 for CO2 and MQ4 for CH4, whose sensitivity varies with changing environmental conditions such as humidity, temperature, and gas concentration over time that allows their application in extended periods without requiring frequent manual calibrations compared to standard units requiring regular maintenance operations to ensure sensor accuracy. An architecture that assumes real-time behavioral models for prediction of biogas depletion, considering historical consumption patterns and also user behavior, energy demands and external variables such as weather conditions or seasonal fluctuation. These multifaceted predictive models provide dynamic forecasts tailored to individual user. USE - Smart Biogas Monitoring and Forecasting System to optimize production biogas monitoring and management by using internet of things (IoT) technology in real time. ADVANTAGE - This system incorporate wireless sensing nodes (NodeMCUs), the respective gas sensors, and a cloud-based platform for the storage, analysis, and visualization of data. It tracks the quality of biogas produced, continuously, and alerts the user when essential thresholds are crossed, to provide effective and safe use of biogas. This system calculates and shows the daily, weekly, and monthly gas consumption in liters along with Liquefied petroleum gas (LPG) equivalent cost saving and environmental impact metrics, including CO2 emissions saved. The dashboard directly symbolizes the environmental benefits of using biogas with respect to clear financial and ecological benefits to encourage its users. The system also uses predictive analytics to forecast how long the gas supply will last by using actual consumption patterns. The detailed monitoring ensures that a user maximizes their use of biogas, shows the history of consumption, and illustrates cost savings made by utilizing renewable energy sources to encourage clean energy by improve the efficiency of producing biogas and enable the utilization of renewable energy sources. DETAILED DESCRIPTION - Smart Biogas Monitoring and Forecasting System comprises realtime composition of biogas, which specifically contains methane (CH4) and carbon dioxide (CO2), as well as predictive exposure to gas depletion and consumption trends. The biogas monitoring system incorporating self-calibrating gas sensors, MQ135 for CO2 and MQ4 for CH4, whose sensitivity varies with changing environmental conditions such as humidity, temperature, and gas concentration over time that allows their application in extended periods without requiring frequent manual calibrations compared to standard units requiring regular maintenance operations to ensure sensor accuracy. An architecture that assumes real-time behavioral models for the prediction of biogas depletion, considering historical consumption patterns and also user behavior, energy demands, and external variables such as weather conditions or seasonal fluctuations. These multifaceted predictive models provide dynamic forecasts tailored to individual users, to enhance accuracy compared with conventional consumption-based prediction models. A wireless communication infrastructure that employs low-power protocols, alongside dynamic power management techniques, is designed to enhance energy efficiency in accordance with data transmission requirements. This configuration enables the system to sustain uninterrupted functionality over prolonged durations, to minimize the necessity for frequent battery replacements, which is particularly advantageous for remote biogas facilities where energy resources are limited. An artificial intelligence-based system that studies past biogas statistics and adaptively updates prediction algorithms based on previous anomalies in gas production, meteorological events, or user changes. This allows improving the accuracy of future predictions because it learns from earlier changes in consumption or production patterns rather than fixed models unable to evolve. Visualizing Environmental Awareness through Real-Time Calculations of Emission Offsets is a live interface that displays not only the statistics of gas usage and money saved but also calculates the resulting carbon offset when biogas is being used instead of LPG, a traditional fuel. This display immediately communicates to the user his/ her carbon footprint, thus fostering continued interaction with biogas at showing tangible benefits in the reduction of greenhouse gases.
IPC 分类号	C12M-001/00 ; C12M-001/107 ; C12P-005/02 ; G06Q-010/06 ; G06Q-050/06
国家	印度
专业领域	信息技术
语种	英语
成果类型	专利
文献类型	科技成果
条目标识符	http://119.78.100.226:8889/handle/3KE4DYBR/13255
专题	中国科学院新疆生态与地理研究所
作者单位	1.WANJALE K (WANJ-Individual) 2.INGALE A (INGA-Individual) 3.PATIL V (PATI-Individual) 4.RAUT K (RAUT-Individual) 5.GAWANDE P (GAWA-Individual) 6.KULKARNI S (KULK-Individual) 7.SABLE N (SABL-Individual) 8.RAUT A (RAUT-Individual) 9.VISHWAKARMA INST TECHNOLOGY (VISH-Non-standard) 10.SHAMKUWAR S C (SHAM-Individual)
推荐引用方式 GB/T 7714	RATHOD P,WANJALE K,INGALE A,et al. Smart Biogas Monitoring and Forecasting System to optimize production biogas monitoring and management, comprises realtime composition of biogas, which specifically contains methane and carbon dioxide, as well as predictive exposure to gas depletion and consumption trends. IN202521032244-A[P]. 2025.

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