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345m Investment In The Acquisition Of Wind Farms In Brazil Announced By Cubico

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One of the global leaders in the renewable energy sector and water investment, Cubico Sustainable Investments (Cubico) announces the opening of an office in São Paulo and the acquisition of two wind farm complexes from Casa dos Ventos, in a transaction done late last year and considered to be the largest one involving wind farms in operation in Brazil in 2015. This is the first investment by Cubico in Brazil and includes the Caetés plant (182 MW) in Pernambuco state, and the Ventos do Araripe I plant (210 MW), in Piauí state. The investment, including assets and debt taken on, is approximately R$2 billion (base date 31/12/2015), which now belong to and are administered by Cubico. The transaction has been approved by Brazil’s antitrust body, CADE.

Founded in May 2015 and headquartered in London, Cubico is an investor and manager of long-term global assets in renewable energy and water investments, belonging to three investors: Banco Santander SA; the Ontario Teachers’ Pension Plan (OTPP); and Canada’s Public Sector Pension Investment Board (PSP Investments). With the completion of the transaction to acquire two wind farm complexes from Casa dos Ventos, Cubico adds 392 MW to its portfolio in Brazil which, added to the existing 223 MW (transferred from Santander’s former global portfolio of renewable energy assets), means the company has 615 MW of operating wind assets in Brazil and makes it the third-largest player in the wind energy sector in the country, according to the industry body ABEEólica.

According to Ricardo Díaz, Head of the Americas at Cubico, the investment demonstrates Cubico and its shareholders’ commitment to Brazil, to Latin America and to the renewable power generation sector in the region. “We will further analyse opportunities in Brazil and elsewhere on its own merits. Besides Brazil, Cubico is currently focusing its origination efforts in Latin America on investments in Mexico, Uruguay, Peru, Colombia, Panama and Costa Rica,” says Díaz.

Eduardo Klepacz, Head of the Brazil division at Cubico, adds: “The transaction positions Cubico as an investor that is committed to Brazil. We are able to capitalize on opportunities due to our long-term strategy that allows us to maintain and manage assets for a period of between 20 and 40 years. We believe in the renewable energy generation sector in Brazil and with the new office in São Paulo we are pursuing investment opportunities not only in the country, but also in other regions of Latin America, such as Peru, Colombia, Uruguay, Panama and Costa Rica.”

To move forward with its growth plan, Cubico counts on an experienced management team in the Latin American market. Besides Brazil, the company currently operates six other plants in Latin America, in countries like Mexico, where it holds five wind farms in development with 799 MW capacity and Uruguay, where it has a wind farm with a total capacity of 50 MW.

About Cubico

Founded in May 2015, Cubico Sustainable Investments started out as a major player in the renewable energy sector and water infrastructure assets. A spin-off of Santander’s global investment business in renewable energy and water infrastructure, the company is currently held by Banco Santander, OTPP and PSP Investments, which have come together to maximize the growth of the business. The portfolio held by Cubico globally originally comprised 19 assets in seven countries, worth an estimated US$ 2 billion-plus, with an installed capacity of 1.4 GW. The company has a presence in different geographical locations, such as Brazil, Mexico, Uruguay, Italy, Portugal, Spain, Ireland and the United Kingdom. Cubico is headquartered in London and has offices in São Paulo (Brazil), Milan (Italy) and in the Federal District of Mexico. In Brazil, besides its head office in São Paulo, Cubico has one operational center in Fortaleza (Ceará state), which will be expanded locally as the company gets more assets under management.

 

Economy

Will Self-Driving Cars Be Better for the Environment?

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self-driving cars for green environment
Shutterstock Licensed Photo - By Zapp2Photo | https://www.shutterstock.com/g/zapp2photo

Technologists, engineers, lawmakers, and the general public have been excitedly debating about the merits of self-driving cars for the past several years, as companies like Waymo and Uber race to get the first fully autonomous vehicles on the market. Largely, the concerns have been about safety and ethics; is a self-driving car really capable of eliminating the human errors responsible for the majority of vehicular accidents? And if so, who’s responsible for programming life-or-death decisions, and who’s held liable in the event of an accident?

But while these questions continue being debated, protecting people on an individual level, it’s worth posing a different question: how will self-driving cars impact the environment?

The Big Picture

The Department of Energy attempted to answer this question in clear terms, using scientific research and existing data sets to project the short-term and long-term environmental impact that self-driving vehicles could have. Its findings? The emergence of self-driving vehicles could essentially go either way; it could reduce energy consumption in transportation by as much as 90 percent, or increase it by more than 200 percent.

That’s a margin of error so wide it might as well be a total guess, but there are too many unknown variables to form a solid conclusion. There are many ways autonomous vehicles could influence our energy consumption and environmental impact, and they could go well or poorly, depending on how they’re adopted.

Driver Reduction?

One of the big selling points of autonomous vehicles is their capacity to reduce the total number of vehicles—and human drivers—on the road. If you’re able to carpool to work in a self-driving vehicle, or rely on autonomous public transportation, you’ll spend far less time, money, and energy on your own car. The convenience and efficiency of autonomous vehicles would therefore reduce the total miles driven, and significantly reduce carbon emissions.

There’s a flip side to this argument, however. If autonomous vehicles are far more convenient and less expensive than previous means of travel, it could be an incentive for people to travel more frequently, or drive to more destinations they’d otherwise avoid. In this case, the total miles driven could actually increase with the rise of self-driving cars.

As an added consideration, the increase or decrease in drivers on the road could result in more or fewer vehicle collisions, respectively—especially in the early days of autonomous vehicle adoption, when so many human drivers are still on the road. Car accident injury cases, therefore, would become far more complicated, and the roads could be temporarily less safe.

Deadheading

Deadheading is a term used in trucking and ridesharing to refer to miles driven with an empty load. Assume for a moment that there’s a fleet of self-driving vehicles available to pick people up and carry them to their destinations. It’s a convenient service, but by necessity, these vehicles will spend at least some of their time driving without passengers, whether it’s spent waiting to pick someone up or en route to their location. The increase in miles from deadheading could nullify the potential benefits of people driving fewer total miles, or add to the damage done by their increased mileage.

Make and Model of Car

Much will also depend on the types of cars equipped to be self-driving. For example, Waymo recently launched a wave of self-driving hybrid minivans, capable of getting far better mileage than a gas-only vehicle. If the majority of self-driving cars are electric or hybrids, the environmental impact will be much lower than if they’re converted from existing vehicles. Good emissions ratings are also important here.

On the other hand, the increased demand for autonomous vehicles could put more pressure on factory production, and make older cars obsolete. In that case, the gas mileage savings could be counteracted by the increased environmental impact of factory production.

The Bottom Line

Right now, there are too many unanswered questions to make a confident determination whether self-driving vehicles will help or harm the environment. Will we start driving more, or less? How will they handle dead time? What kind of models are going to be on the road?

Engineers and the general public are in complete control of how this develops in the near future. Hopefully, we’ll be able to see all the safety benefits of having autonomous vehicles on the road, but without any of the extra environmental impact to deal with.

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Economy

New Zealand to Switch to Fully Renewable Energy by 2035

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renewable energy policy
Shutterstock Licensed Photo - By Eviart / https://www.shutterstock.com/g/adrian825

New Zealand’s prime minister-elect Jacinda Ardern is already taking steps towards reducing the country’s carbon footprint. She signed a coalition deal with NZ First in October, aiming to generate 100% of the country’s energy from renewable sources by 2035.

New Zealand is already one of the greenest countries in the world, sourcing over 80% of its energy for its 4.7 million people from renewable resources like hydroelectric, geothermal and wind. The majority of its electricity comes from hydro-power, which generated 60% of the country’s energy in 2016. Last winter, renewable generation peaked at 93%.

Now, Ardern is taking on the challenge of eliminating New Zealand’s remaining use of fossil fuels. One of the biggest obstacles will be filling in the gap left by hydropower sources during dry conditions. When lake levels drop, the country relies on gas and coal to provide energy. Eliminating fossil fuels will require finding an alternative source to avoid spikes in energy costs during droughts.

Business NZ’s executive director John Carnegie told Bloomberg he believes Ardern needs to balance her goals with affordability, stating, “It’s completely appropriate to have a focus on reducing carbon emissions, but there needs to be an open and transparent public conversation about the policies and how they are delivered.”

The coalition deal outlined a few steps towards achieving this, including investing more in solar, which currently only provides 0.1% of the country’s energy. Ardern’s plans also include switching the electricity grid to renewable energy, investing more funds into rail transport, and switching all government vehicles to green fuel within a decade.

Zero net emissions by 2050

Beyond powering the country’s electricity grid with 100% green energy, Ardern also wants to reach zero net emissions by 2050. This ambitious goal is very much in line with her focus on climate change throughout the course of her campaign. Environmental issues were one of her top priorities from the start, which increased her appeal with young voters and helped her become one of the youngest world leaders at only 37.

Reaching zero net emissions would require overcoming challenging issues like eliminating fossil fuels in vehicles. Ardern hasn’t outlined a plan for reaching this goal, but has suggested creating an independent commission to aid in the transition to a lower carbon economy.

She also set a goal of doubling the number of trees the country plants per year to 100 million, a goal she says is “absolutely achievable” using land that is marginal for farming animals.

Greenpeace New Zealand climate and energy campaigner Amanda Larsson believes that phasing out fossil fuels should be a priority for the new prime minister. She says that in order to reach zero net emissions, Ardern “must prioritize closing down coal, putting a moratorium on new fossil fuel plants, building more wind infrastructure, and opening the playing field for household and community solar.”

A worldwide shift to renewable energy

Addressing climate change is becoming more of a priority around the world and many governments are assessing how they can reduce their reliance on fossil fuels and switch to environmentally-friendly energy sources. Sustainable energy is becoming an increasingly profitable industry, giving companies more of an incentive to invest.

Ardern isn’t alone in her climate concerns, as other prominent world leaders like Justin Trudeau and Emmanuel Macron have made renewable energy a focus of their campaigns. She isn’t the first to set ambitious goals, either. Sweden and Norway share New Zealand’s goal of net zero emissions by 2045 and 2030, respectively.

Scotland already sources more than half of its electricity from renewable sources and aims to fully transition by 2020, while France announced plans in September to stop fossil fuel production by 2040. This would make it the first country to do so, and the first to end the sale of gasoline and diesel vehicles.

Many parts of the world still rely heavily on coal, but if these countries are successful in phasing out fossil fuels and transitioning to renewable resources, it could serve as a turning point. As other world leaders see that switching to sustainable energy is possible – and profitable – it could be the start of a worldwide shift towards environmentally-friendly energy.

Sources: https://www.bloomberg.com/news/articles/2017-11-06/green-dream-risks-energy-security-as-kiwis-aim-for-zero-carbon

https://www.reuters.com/article/us-france-hydrocarbons/france-plans-to-end-oil-and-gas-production-by-2040-idUSKCN1BH1AQ

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