Strategic Policies for a Sustainable World

Based on the strategic needs of countries around the world, we propose some strategic policies that reflect the global needs of white spaces of innovation and establish territories of innovation for ecosystems, and a very important advance for human kind in social innovation. The reality for clean technology and an inclusive capitalism on the base of the pyramid is a real need in a world with more than 4 billion living with less than $4 USD per day. Energy Use and Water Use demand the possibility of the existence of the humanity, because we have decades expended resources, for example the scarcity of water in Australia or the excess of crypto currency in Malta, only define a world with differences that maybe the technology but in our words the clean technology can get in the interconnected need with people of the poverty world.

Clean-tech Venture Capital Investment in the United States, 1995-2020

This paper studies venture capital investment in the United States, with an emphasis on the Clean-Technology industries. The Clean-Technology industries encompass ventures that compete in markets with products and services that explicitly take environmental issues into account. This paper explores the importance of macroeconomics variables, aggregate venture capital investment on Clean-Technology and investment backed by venture capital. Quarterly data of capital venture investment and number of deals are used for the period 1995-2020. The results indicate that Clean-Tech investment offers investors possibilities for some degree of diversification.

Increase in the irrigated area of sugarcane and its potential in the bioenergetic generation of Brazil

Sugarcane has alarge capacity for producing electricity using completely clean technology from a renewable source, contributing to environmental preservation. This study aimed to evaluate the increase in biomass resulting from the implementation of irrigation in Brazilian sugarcane plantations, estimate the potential for cogeneration, and calculate how much it will be possible to increase the Brazilian energy cogenerated with sugarcane bagasse and the impact on the Brazilian energy matrix. The increase in irrigation in the rainfed areas of Brazilian sugarcane plantations has substantial potential in increasing biomass for energy cogeneration. Considering an increase of 15% in the sugarcane plantation yields in rainfed areas achieved by the increase in irrigation, it leadsto a potential increase of 96.39 million tons of sugarcane and 26.80 million tons biomass produced. In the energy matrix, the potential impact is 1.42 GWh of cogenerated energy, which corresponds to a 12.47% increase in cogeneration in the sugar-energy sector and a 0.85% increase in Brazil's energy matrix. The expansion of the sugarcane irrigated area contributes to the increase in the production of bagasse and bioenergetic generation in Brazil.