The reduction of fossil fuel use has driven researchers to develop biogas digesters as alternative energy sources. However, many digesters take too long to produce biogas, are not accessible in a short timeframe, and are difficult to replicate on a smaller scale—especially for rural households. This study addresses these issues through the use of familiar farm wastes: cow dung, rice husk, and corn husk, creating the Farm to Flame (F2F) Biogas by combining pre-treated, high-carbon husks, it aims to accelerate anaerobic digestion in biogas production. The researchers developed a 20-liter biodigester with digestate storage, pipe and valve connections, and a biogas collector. Feedstock was pre-treated with sodium hydroxide to reduce lignocellulosic content, aiding faster microbial digestion. Cow dung, feedstock, and water were mixed in a 2:3:5 ratio, with 2.9 kilograms, 5 kilograms, and 9-liter respectively, and a 3-liter allowance for gas accumulation. After 10 to 14 days, the floater was measured to estimate biogas yield, producing approximately 0.00227 cubic meters or 2.27 liters. The resulting biogas, with a bluish-orange flame, burned for around 35 minutes. The F2F Biogas showed a faster production rate compared to other studies using cow dung with rice or corn husk alone or with fruit/vegetable wastes, highlighting its potential as a viable, quicker alternative for biogas generation.