The world’s energy consumption is continuously rising, and this primary energy demand is currently met by fossil fuels such as coal. According to the WCA (2017), coal provides 41% of the world’s electricity, 44% industrial input and 29% of global energy (Wu and Chen, 2018). Fossil fuels such as coal, oil etc. have finite reserves and could be exhausted in the near future, leaving a remarkable question about the security of our energy resources. In addition, population growth takes over agricultural land to house all the new inhabitants, which triggers food insecurity, a decrease in income for farmers and an increase in low-income countries on the globe. Besides, anthropogenic worsening like salinization also severely degrades the agriculture lands (Singh et al., 2018). Recently, working on key issues to minimize fuel, food and overpopulation insecurity, researchers, scientists and industrialists have started eyeing the utilization of algae due to its abundance and fast growth. Microalgae are among the most promising sources of sustainable, carbon-neutral biofuel for the future. They are already being used as feedstock for producing biogas, biodiesel, bioethanol and kerosene, but the associated production methods consume a great deal of energy and are rather costly (Kumar et al., 2016). Production of biofuels from microalgae have a number of advantages including the ability to grow on non-arable land, in saltwater, polluted water and in the ocean, which minimizes water loss, reduces carbon concentration on the earth and largely eliminates the food versus fuel concerns. However, there are still many obstacles to overcome before algal biofuel production and its commercialization can be facilitated in a cost-effective and sustainable manner. The major constraints include the selection of suitable strains that reliably produce high yields, keeping contamination at bay, developing cost-effective growth chambers and efficient and economic harvesting. The present chapter comprehensively describes the various aspects and applications of algae used sustainably to achieve eco-friendly food and sources of income, and to reduce pollution.

The environment is continuously deteriorating due to the unwise use of natural resources to fulfil the demands of individual livelihoods. The human population is rising and expected to reach 9.5 billion by 2050 (OECD, 2009). This higher load causes a race for food, water, shelter, energy, and materials, which leads to climate change, biodiversity loss, global warming and a lower quality of human life (Didem et al., 2018). The engineering and production industries continuously use non-friendly raw materials such as metals, plastic, rubber, oil, coal etc. to produce different materials which are very harmful and cause significant damage to the environment and thus to human beings. The self-sustaining nature of the environment is no longer in balance, which is resulting in melting glaciers, rising temperatures, and a change in world climate. The change in climate brings various water and air-borne diseases. Increases in CO₂ pollution levels are due to overpopulation and deforestation, and these are the two key elements that cause the deterioration of the environment and are directly and indirectly linked to global warming and the greenhouse effect, which leads to environmental degradation by increasing the chance of droughts, floods, pandemic diseases and hurricanes etc., which causes significant damage to the environment and to human life. According to the UN Food and Agriculture Organization (FAO), an estimated 7.3 million hectares of forest vanish every year. Deforestation activity over a long period of time generates floods, the erosion of soil, wildlife extinction and climate imbalance.

A green economy is the outcome of natural resource utilization and its sustainable implementation for providing wealth, sound health and employment without degrading the environment and its ecosystems (D’Amato et al., 2017). According to UNEP, “A green economy is defined as low carbon, resource-efficient and socially inclusive”. In a green economy, economies are driven by private investment as well as public investment in activities that allow resource efficiency, enhanced energy production, biodiversity and carbon reduction.

The United Nation’s Forum on Sustainable Development launched five principles for a green economy on July 16, 2019.