Energy sectors all over the world have begun to discover the possibility of the use of blockchain (BC) or distributed ledgers (DL) as an emerging technology. It is used in various systems like energy-to-peer exchange, project finance, supply chain monitoring and inventory management processes in large scale. This study focuses BC energy market strategies and advises development by a comprehensive analysis of the evidence and current manufacturing cases. This study provides the academic, peer-reviewed work to provide a systematic BC activity-based solution and initiatives in the highly potential growth seeker energy sector. In today’s world, blockchain technology (BCT) is used to develop several applications, including electric charging and sharing of cars and green cryptocurrencies, including automatic bill payments. It is the infrastructure that allows customers, homes to become manufacturers and sellers of energy with a high degree of control as a smart company stand at a structural stage. Conveniences and grid builders are well coordinated because they can already manage supply and demand in real time, by active participation of these prosumers. It encourages the incorporation of green energies. An approximate of €231 billion in energy efficiency projects is invested per year, but for having its full benefits it requires huge investment (world energy outlook, 2019). Although this finance difference is shrinking down as global energy intensity is adopted as a method of nation economy’s energy production, measured by unit energy of GDP, in 2015 it was 1.8%, three times that of the average of 2003 to 2013, but falls short of the critical 2.6% in order to prevent a 2-degree rise of global temperatures or a required 3% improvement of our energy performance. This chapter examines in detail the application case analysis of BCT, main advantages and consequences for the risks of using BC in the energy production industry by posing and discussing two case studies as practicable.