“The future is now.”
It’s the phrase that comes up whenever someone talks about the transition from fossil fuels to renewables.
And while it may be the right one, it’s not the one that everyone will be talking about.
There’s a lot of talk about the need for renewables to become the dominant form of energy generation for the foreseeable future, but the reality is, there’s only so much we can really do to harness the power of the sun and the wind to make it happen.
The problem is, we’re stuck with it.
There are only so many places in the world where we can get solar panels to work, or wind turbines to work.
So while there’s certainly plenty of work that needs to be done to get renewables into production, the task is far from complete.
Renewable energy is already one of the fastest-growing industries in the U.S., with an estimated 3.5 million jobs created in 2015 alone.
And there are a lot more to come, with companies like Amazon already making strides in the renewable energy sector.
But the climate movement is also facing the reality that we can’t just build the next generation of batteries.
Instead, we have to figure out how to get it to work and make it affordable.
There is a huge amount of infrastructure that we need to put in place to make solar and wind work.
It’s an ambitious plan, but it’s achievable, and it could be a big step forward in helping to make the transition to renewable energy work.
Here’s what we need right now.
A solar array on a solar farm in Northern California.
The panels are part of the system for a solar project.
The solar farm is one of many solar panels being installed around the country to make renewables work.
A wind turbine at the International Wind Engineering Center.
Solar panels are an essential part of renewable energy projects because they help to generate electricity from wind and sun, without any fuel.
In fact, they’re so critical to making wind and solar work that the Federal Energy Regulatory Commission (FERC) is now using the term “solar PV” in its regulations to describe it.
That’s the term solar panels are most commonly called in the energy industry.
The technology is a type of battery that has many of the same features as batteries.
It consists of a battery of electrodes that capture solar energy and store it, but instead of storing it in the battery, the energy is released back into the atmosphere and used to generate electrical power.
A battery is an electric device that can store energy in a battery pack.
The battery is also called a battery because of the electric charges stored in the electrolyte in the form of lithium ions.
But, unlike a battery, a solar panel does not have to store energy.
It only needs to produce electricity.
It can produce solar energy without storing it.
The idea behind a solar array is to provide solar energy to a large-scale grid that will then be connected to the grid via the grid.
The grid will then use the solar energy from the solar panels for generating electricity.
The goal is to get all the electricity from solar panels off the grid and onto the grid, so that it can then be used to make a power purchase agreement (PPA) with a power company for energy, such as power from a natural gas plant.
That will then then be fed back to the electrical grid.
This process takes about four years, which is more than double the typical period for PPAs.
The project for a wind turbine on a wind farm in Southern California.
A grid connection between a power plant and a solar photovoltaic system.
In order to get the solar and solar power from the wind and the sun to the power grid, the wind turbine needs to capture the energy from a wind-generated storm and store that energy.
The wind is a bit of a mess, but once the storm clears, it can be stored in batteries that can be charged with electricity.
But there’s a catch.
If the wind dies, the batteries will have to be replaced, and that’s something that can take several years.
The power plant needs to replace those batteries, so the wind farm must be located close to the wind, where the storms will be strongest.
The process is called “sink-and-swim.”
It basically takes a few days to get those batteries in and ready for a power-purchase agreement.
Once those batteries are in place, the turbines are hooked up to the turbines and are then connected to a grid connection.
This grid connection provides power to the entire system.
The system works like this: The wind turbine is attached to a small boat that can hold the wind in the water.
The water gets sucked out of the boat, which then creates a lift that allows the turbines to swing over a hill and into a power station.
The electricity is then fed back into a grid, which will then distribute it to customers.
This is what’s known as a PPA.
This method of generating electricity requires the turbines
