Fin Resources Limited provide an update regarding its progress on the North Onslow Solar Salt Project ("NOSSP") Multi Gigawatt Renewable Energy Generation Potential A leading independent renewable energy consultant that operates broadly in the global markets of water, energy and resources, environment, property and buildings, and transportation has been engaged by FIN to assess the potential for wind and or solar power generation and has confirmed the multi gigawatt potential of FIN's 905km2 strategic tenure position at the North Onslow project area in the Pilbara region of Western Australia. This tenure position is comprised of 386 km2 of granted tenements and 519 km2 of tenement applications. The desktop study considered both technical and economic factors in determining the feasibility of various green products processing options and subsequent recommendations for incorporation in the scoping study. A high level wind and solar resource summary was reported. For Solar PV, an assumption of 1.5Ha/MW was used to get maximum theoretical capacity (GW) and multiplied by the capacity factor (HOMER Pro modelling) and 8760hrs to determine a theoretical yield (GWh). For wind, 6x the rotor diameter (117m) in the prevailing and 3x rotor diameter in the non-prevailing was used to calculate a theoretical maximum capacity (GW) and multiplied by the capacity factor (WindPro modelling) and 8760hrs to determine a theoretical yield (GWh). These parameters/material assumptions were used as the basis of the potential of the project area to provide wind and solar resources. Power generation infrastructure would need to be designed and installed to utilise these resources. HOMER Pro and Wind Pro modelling software are commercially available and widely used by consultants to design infrastructure in the renewables industry. The total solar resource has been estimated to be substantial at 60 GW with the total wind resource estimated at 15 GW. Of this, 29 GW and 8 GW respectively is outside of the proposed development footprint of a 5.4 Mtpa solar salt field and could be utilised for the generation of considerable surplus green power for additional uses. This renewable energy potential has been estimated based on the independent consultant's assessment of the solar resource to be between 2,344 and 2,362 kWh/m 2/yr and the wind resource to be between 6.2 and 6.8 m/s across the project area using capacity factors derived from HOMER Pro and Wind Pro modelling software.