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Tesla has a new energy product called Megapack

Tesla has launched a new utility-scale energy storage product called Megapack modeled after the giant battery system it deployed in South Australia as the company seeks to provide an alternative to natural gas “peaker” power plants.

Megapack is the third and largest energy storage system offered by Tesla. The company also sells the residential Powerwall and the commercial Powerpack systems.

Megapack, which Tesla announced Monday in a blog post, is the latest effort by the company to retool and grow its energy storage business, which is a smaller revenue driver than sales of its electric vehicles. Of the $6.4 billion in total revenue posted in the second quarter, just $368 million was from Tesla’s solar and energy storage product business.

Tesla did deploy a record 415 megawatt-hours of energy storage products in the second quarter, an 81% increase from the previous quarter, according to Tesla’s second-quarter earnings report that was released July 24. Powerwalls are now installed at more than 50,000 sites.

The Megapack offering could provide an even bigger boost if Tesla can convince utilities to opt for it instead of the more common natural gas peaker plants used today. And it seems it already has.

Tesla’s Megapack will provide 182.5 MW of the upcoming 567 MW Moss Landing energy storage project in California with PG&E.

The so-called Megapack was specifically designed and engineered to be an easy-to-install utility-scale system. Each system comes fully assembled — that includes battery modules, bi-directional inverters, a thermal management system, an AC main breaker and controls — with up to 3 megawatt-hours of energy storage and 1.5 MW of inverter capacity.

The system includes software, developed by Tesla, to monitor, control and monetize the installations, the company said in a blog post announcing Megapack.

All Megapacks connect to Powerhub, an advanced monitoring and control platform for large-scale utility projects and microgrids, and can also integrate with Autobidder, Tesla’s machine-learning platform for automated energy trading, the company said.

Megapack was inspired by Tesla’s Hornsdale project, which combined its 100 MW Powerpack system with Neoen’s wind farm near Jamestown in South Australia. The Tesla Powerpack system stored power generated by the wind farm and then delivered the electricity to the grid during peak hours. The facility saved nearly $40 million in its first year.

Today, the go-to option for utilities are natural gas “peaker” power plants. Peaker power plants are used when a local utility grid can’t provide enough power to meet peak demand, an occurrence that has become more common as temperatures and populations rise.

Tesla hopes to be the sustainable alternative. And in states like California, which have ambitious emissions targets, Tesla could gain some ground. Instead of using a natural gas peaker plant, utilities could use the Megapack to store excess solar or wind energy to support the grid’s peak loads.

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Fintech and cleantech… an odd couple or a perfect marriage?

The Valley’s rocky history with cleantech investing has been well-documented.

Startups focused on non-emitting-generation resources were once lauded as the next big cash cow, but the sector’s hype quickly got away from reality.

Complex underlying science, severe capital intensity, slow-moving customers and high-cost business models outside the comfort zones of typical venture capital ultimately caused a swath of venture-backed companies and investors in the cleantech boom to fall flat.

Yet, decarbonization and sustainability are issues that only seem to grow more dire and more galvanizing for founders and investors by the day, and more company builders are searching for new ways to promote environmental resilience.

While funding for cleantech startups can be hard to find nowadays, over time we’ve seen cleantech startups shift down the stack away from hardware-focused generation plays toward vertical-focused downstream software.

A far cry from past waves of venture-backed energy startups, the downstream cleantech companies offered more familiar technology with more familiar business models, geared toward more recognizable verticals and end users. Now, investors from less traditional cleantech backgrounds are coming out of the woodwork to take a swing at the energy space.

An emerging group of non-traditional investors getting involved in the clean energy space are those traditionally focused on fintech, such as New York and Europe-based venture firm Anthemis — a financial services-focused team that recently sat down with our fintech contributor Gregg Schoenberg and I (check out the full meat of the conversation on Extra Crunch).

The tie between cleantech startups and fintech investors may seem tenuous at first thought. However, financial services have long played a significant role in the energy sector and is now becoming a more common end customer for energy startups focused on operations, management and analytics platforms, thus creating real opportunity for fintech investors to offer differentiated value.

Finance powering the world?

Though the conversation around energy resources and decarbonization often focuses on politics, a significant portion of decisions made in the energy generation business is driven by pure economics — is it cheaper to run X resource relative to resources Y and Z at a given point in time? Based on bid prices for request for proposals (RFPs) in a specific market and the cost-competitiveness of certain resources, will a developer be able to hit their targeted rate of return if they build, buy or operate a certain type of generation asset?

Alternative generation sources like wind, solid oxide fuel cells or large-scale or even rooftop solar have reached more competitive cost levels — in many parts of the U.S., wind and solar are in fact often the cheapest form of generation for power providers to run.

Thus as renewable resources have grown more cost competitive, more infrastructure developers and other new entrants have been emptying their wallets to buy up or build renewable assets like large-scale solar or wind farms, with the American Council on Renewable Energy even forecasting cumulative private investment in renewable energy possibly reaching up to $1 trillion in the U.S. by 2030.

A major and swelling set of renewable energy sources are now led by financial types looking for tools and platforms to better understand the operating and financial performance of their assets, in order to better maximize their return profile in an increasingly competitive marketplace.

Therefore, fintech-focused venture firms with financial service pedigrees, like Anthemis, now find themselves in pole position when it comes to understanding cleantech startup customers, how they make purchase decisions, and what they’re looking for in a product.

In certain cases, fintech firms can even offer significant insight into shaping the efficacy of a product offering. For example, Anthemis portfolio company kWh Analytics provides a risk management and analytics platform for solar investors and operators that helps break down production, financial analysis and portfolio performance.

For platforms like kWh analytics, fintech-focused firms can better understand the value proposition offered and help platforms understand how their technology can mechanically influence rates of return or otherwise.

The financial service customers for clean energy-related platforms extends past just private equity firms. Platforms have been and are being built around energy trading, renewable energy financing (think financing for rooftop solar) or the surrounding insurance market for assets.

When speaking with several of Anthemis’ cleantech portfolio companies, founders emphasized the value of having a fintech investor on board that not only knows the customer in these cases, but that also has a deep understanding of the broader financial ecosystem that surrounds energy assets.

Founders and firms seem to be realizing that various arms of financial services are playing growing roles when it comes to the development and access to clean energy resources.

By offering platforms and surrounding infrastructure that can improve the ease of operations for the growing number of finance-driven operators or can improve the actual financial performance of energy resources, companies can influence the fight for environmental sustainability by accelerating the development and adoption of cleaner resources.

Ultimately, a massive number of energy decisions are made by financial services firms and fintech firms may often know the customers and products of downstream cleantech startups more than most.  And while the financial services sector has often been labeled as dirty by some, the vital role it can play in the future of sustainable energy offers the industry a real chance to clean up its image.

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Facebook has committed to using 100% renewable power for global operations by 2020

Earlier today, Facebook said that it has committed to reducing its greenhouse gas emissions by 75 percent and using 100 percent renewable energy to power global operations at the social networking giant by the end of 2020.

So, while the company may have problems keeping foreign nationals from using the platform for influence operations (or garbage influencers from engaging in influence operations), at least they’ll be doing it with less of an effect on climate change.

Facebook gave itself a well-deserved pat on the back for its pace of acquiring renewable energy. The company bought over 3 gigawatts of new solar and wind energy since its first renewable energy purchase in 2013 (that includes 2.5 gigawatts in the past 12 months alone — a rate of acquisition that makes the intervening years look… well… kind of paltry).

What’s especially good about the Facebook renewable purchases is that they’re not just offset agreements — deals where a company buys renewable energy in some far-flung geography to offset the power they’re buying in local markets that relies on traditional carbon-based fuel sources.

“All of these wind and solar projects are new and on the same grid as our data centers,” the company said. “That means that each of these projects brings jobs, investment and a healthier environment to the communities that host us — from Prineville, Oregon, and Los Lunas, New Mexico, to Henrico, Virginia, and Luleå, Sweden.”

The targets that Facebook is making public today are part of the company’s commitment to the Paris Agreement through the “We Are Still In” initiative, the company said.

For Facebook, the announcement is something of a victory lap. Back in 2015, the company set a goal of having 50 percent of its power supplied to facilities from renewable energy sources by 2018. It actually hit that target in 2017.

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