710767Self-regulated asynchronous cogeneration to enable micro-scale waste-to-energy biogas utilisationClosedGRD Proof of ConceptInnovate UKMethane-rich biogas produced as a waste-to-energy (WTE) by-product of organic effluent treatment in anaerobic digesters and microbial fuel cells has potential to generate 30TWh of electricity. Yet, whilst combined heat/power units (CHP) based on dedicated industrial biogas engines currently recover energy from large-scale WTE and cogeneration (CG) technologies (250KWhe), the current size is not compatible with the waste/energy requirements of most potential users, meaning that only 1.6% of the available feedstock is being utilised. Micro-scale WTE technologies – which are uniquely aligned with these requirements – are therefore predicted to dominate the market through widespread public and industrial application. However, despite uptake of micro-AD/MFC growing rapidly, there is no commercial technology for biogas micro-CG due to a fundamental restriction on scalability of synchronous generator costs with reducing CHP size. Lindhurst Innovation Engineering aim to realise an enabling technology for a turn-key biogas micro-CHP, by instead proving the technical feasibility of self-regulated asynchronous generation, allowing key expensive components for synchronisation to be omitted. Based on a novel framework for high power factor grid-linked induction, a dedicated micro-scale biogas engine and integrated scrubbing, the project targets a step change in engine displacement/electrical generation capacity, system complexity, cost, noise and maintenance.