CONSULTAR DISPONIBILIDADE

CONTATO

Para consultas de data, propostas comerciais, ou para elogios ou até mesmo reclamações, pode preencher o formulário:

CONTACT FORM

In order to check Andrea's agenda and get a quote for an event, or even to just get in touch with him - please use the form below.

CONTACTO

Para consultas de fechas, propuestas comerciales, para felicitaciones o hasta quejas, puede llenar el siguiente formulario

CHECK AVAILABILITY

CONTATO

Para consultas de data, propostas comerciais, ou para elogios ou até mesmo reclamações, pode preencher o formulário:

CONTACT FORM

In order to check Andrea's agenda and get a quote for an event, or even to just get in touch with him - please use the form below.

CONTACTO

Para consultas de fechas, propuestas comerciales, para felicitaciones o hasta quejas, puede llenar el siguiente formulario

CONSULTAR DISPONIBILIDAD

CONTATO

Para consultas de data, propostas comerciais, ou para elogios ou até mesmo reclamações, pode preencher o formulário:

CONTACT FORM

In order to check Andrea's agenda and get a quote for an event, or even to just get in touch with him - please use the form below.

CONTACTO

Para consultas de fechas, propuestas comerciales, para felicitaciones o hasta quejas, puede llenar el siguiente formulario

CONSULTAR DISPONIBILIDADE

CONTATO

Para consultas de data, propostas comerciais, ou para elogios ou até mesmo reclamações, pode preencher o formulário:

CONTACT FORM

In order to check Andrea's agenda and get a quote for an event, or even to just get in touch with him - please use the form below.

CONTACTO

Para consultas de fechas, propuestas comerciales, para felicitaciones o hasta quejas, puede llenar el siguiente formulario

CHECK AVAILABILITY

CONTATO

Para consultas de data, propostas comerciais, ou para elogios ou até mesmo reclamações, pode preencher o formulário:

CONTACT FORM

In order to check Andrea's agenda and get a quote for an event, or even to just get in touch with him - please use the form below.

CONTACTO

Para consultas de fechas, propuestas comerciales, para felicitaciones o hasta quejas, puede llenar el siguiente formulario

CONSULTAR DISPONIBILIDAD

CONTATO

Para consultas de data, propostas comerciais, ou para elogios ou até mesmo reclamações, pode preencher o formulário:

CONTACT FORM

In order to check Andrea's agenda and get a quote for an event, or even to just get in touch with him - please use the form below.

CONTACTO

Para consultas de fechas, propuestas comerciales, para felicitaciones o hasta quejas, puede llenar el siguiente formulario

Imagine that you are an energy generation company that has had a series of PR problems in the past, due to its non-sustainable generation practices (having used for many years fossil fuels to generate electricity), and that now is looking to change its public perception and brand image. You have been actually generating energy from renewable sources and have publicly declared that in the press, but due to the bad perception you have had in the past, the public doesn't believe you. Therefore, you decide to create NFTs of your renewable sources, creating highly granular certificates in real-time at the source where the energy is created – which could be solar panels in the desert or wind farms in the ocean - to represent the green energy produced at every half hour, in sync with established energy attribute certificates systems. Every point of that electron’s journey to the point that it is consumed is tracked and recorded on a blockchain.

Now, also imagine that one of your plants is a nuclear plant, that is very sensitive of course, and you want to train your teams and make them ready for any circumstance, so that you want to prepare them to intervene in the core equipment where the fission takes place. How do you do that under normal circumstances? Of course you can't, but this is why you create a Digital Twin of the fission chamber, where through VR headsets you are able to replicate a number of immersive situations that simulate emergencies, and train your teams "hands on" to respond to them. 

I am sure you might be like: "Andrea, how is all of this possible? How can you solve in minutes problems that the industry today takes weeks if not months to solve?". This sounds more like a fictional script from the Netflix "Black Mirror" series, right? 

But it is not: it is much more real than Black Mirror, and it represents some of the real-world applications of Web3 technologies to the energy sector.

Let's go step by step.

First of all, what is Web3? Well, Web3 is considered by many the 3rd iteration of the internet, towards which we are approaching thanks to its underlying new technologies: blockchain, Metaverse, DAOs, digital twins, crypto, dApps (decentralized Apps), NFTs, all powered by A.I. and ML (Machine Learning), and so on: basically, a a new generation of Internet services that are built on top of decentralized technologies.

How did we get here, though? Let's look at the evolution of the Web: Web 1.0 came with the birth of the Internet and fundamentally digitized information, submitting knowledge to the power of algorithms (this phase came to be dominated by Google) and making it read-only for the most part. Web 2.0 came with social media, running mostly on Smartphones, and digitized people and subjected human behavior and relationships to the power of algorithms (this phase was dominated by Facebook), and made the internet not only a place to consume content, but also to create it. 

What about Web3? This third phase will fundamentally digitize the rest of the world and render it in 3D, as well as it will make content consumed, created, but most specifically, owned by its creator. In Web3, all objects and places will be replicable and readable by machines and subject to the power of algorithms. And who will the metaverse be dominated by? Most likely by anyone and no one at the same time – exactly because it is a decentralized web, as well as it will be a place for people to consume content, produce it but most importantly: own it. It has certain characteristics, namely that it is decentralized (as we mentioned), immersive (namely it is 3D and not only 2D as the internet is today), and persistent (namely, things happen even while we are not online). 

Recent statistics show the opportunity for companies to dive deep into the Web3, as the expectation for the market is to grow steadily:  The global Web 3.0 market size reached USD 3.2 Billion in 2021 and is expected to register a CAGR of 43.7% up until reaching USD 81.5 Billion in 2030, according to a latest analysis by Emergen Research. 

As per some of its underlying technologies, such as the metaverse, the opportunity is very big as well: for instance, a new report by research firm Gartner predicts that by 2026, 25% of people will spend at least one hour per day in the metaverse for work, shopping, education, social and/or entertainment. It’s also expected that 30% of the organizations in the world will have products and services ready for the metaverse by 2026.

When it comes to blockchain, although the financial sector accounts for more than 30% of the complete market value of the technology (a market value that is poised to reach $ 67.4 billions by 2026, according to Markets and Markets), the value of the ecosystem has also begun to spread to other technologies, such as manufacturing (17.6%), distribution and services, (14.6%) and the public sector (4.2%). 

The truth is that, although in the energy sector we might not be there yet when it comes to Web3 maturity, we see a strong acceleration of Digital Transformation. As a keynote speaker and researcher that works with most energy companies globally (including Shell, Engie, CPFL and many others), I am fully aware of the impact that Digitalization is having on the energy industry, especially after Covid-19: Bloomberg estimated that the Market for Digitalization in Energy Sector is poised to Grow to $64BN by 2025. Home energy management technologies will see the most significant change in digital revenues, rising from $1 billion in 2017 to $11 billion in 2025. The largest driver for digital technology revenues in 2025 will be smart meters, growing 44% between now and 2025, to $26bn. This revenue increase matches the fall in digital revenues from fossil fuel O&M – 46% over that time period.

When it comes specifically to the electricity sector, the World Economic Forum estimates that there is $1.3 trillion of value to be captured globally from 2016-2025. Five initiatives are worth more than $100 billion over the next 10 years and should be prioritized for investment.

Digital can be great for energy efficiency as well: McKinsey reports that successful digital transformations facilitate 2 to 10 percent improvements in production and yield and 10 to 30 percent improvements in cost. If these benefits hold true at scale, they could have a material impact on competitiveness: for example, improving cost efficiency by one to four cents per kilowatt-hour in power and $2 to $12 per barrel in upstream oil and gas production. 

But if we can agree that Digital transformation is underway at the moment (and accelerated by Covid-19), we still have to admit that - besides some timid but much-needed experiments and pilot projects - the energy industry is not very clear yet about the potential impacts and opportunities of Web3 on its business, from using blockchain to trace and verify the provenance of energy created from renewable sources, to NFTs for renewable energy certification, from virtual power plants ("digital twins") using the Metaverse to using A.I. to improve energy efficiency through smart meters   - eventually helping to do what the industry aims for since its inception: better power the world, minimizing the impact on the environment. 

This is why I have spent the last several weeks talking to experts from the biggest energy companies across the globe, and have put together this article that describes what are the main impacts of Web3 technologies on the energy industry.  

  1. Blockchain for energy sources and consumption tracking

Before getting to its application to the energy industry, let's first understand better what the Blockchain technology is: it is basically a distributed database that is shared among the nodes of a computer network, which stores information electronically in digital format. A blockchain collects information together in groups, known as blocks, that hold sets of information and that have certain storage capacities and, when filled, are closed and linked to the previously filled block, forming a chain of data known as the blockchain. All new information that follows that freshly added block is compiled into a newly formed block that will then also be added to the chain once filled, and when it is filled, it is set in stone and becomes a part of this timeline. Each block in the chain is given an exact time stamp when it is added to the chain. 

And when it comes to its potential impacts in the energy sector, we can list several ones such as for instance tracking energy trading, tracking emissions, as well as enabling microgrids that facilitate peer-to-peer trading.

We can start off with one of the most obvious and powerful uses for a digital ledger technology is to provide a reliable and efficient platform for executing and recording transactions (and for tracking ownership as assets change hands multiple times before settlement). With blockchain, transactions such as energy trading can be recorded and settled almost instantly, with no need for an intermediary and with little or no need for reconciliation since all parties are using the same platform. In fact, there's essentially nothing to reconcile since there's only one system and one entry for the transaction, which is shared by all parties. 

What's more, an entry can include executable computer code that reflects the terms of the contract—creating a "smart contract" that automatically validates transactions without the need for human intervention. Its suitability as an efficient and reliable shared trading platform could be applied to both physical and financial trading across the full spectrum of energy commodities.

This mechanism can be replicated  to trace and verify the provenance of energy created from renewable sources: this is what Shell has been doing in their Blockchain CoE under Dan Jeavons, VP of Computational Science and Digital Innovation at Shell, as well as Shell’s blockchain lead, Sabine Brink, whom I got to know in person at a Shell event where I spoke. As they told Bernard Marr in a great Forbes piece titled: "How Shell Is Using Web3 And Blockchain For Sustainability And Energy Transition", Shell has developed a blockchain-based system that can demystify the complex web of sources. So if you look at the electricity market today, we have energy attribute certificates (EAC) that represent green energy or grey [non-green] energy generated in a given month or year. For companies that aim to run on 100 percent green energy, their monthly or yearly certificates may match their total energy consumption, but when the sun doesn't shine, and the wind does not blow, grey energy is actually being consumed. So it’s hard to claim that they are actually consuming green energy on a 24/7 basis.”

Shell’s solution involves creating highly granular certificates in real-time at the source where the energy is created – which could be solar panels in the desert or wind farms in the ocean - to represent the green energy produced at every half hour, in sync with established energy attribute certificates systems. Every point of that electron’s journey to the point that it is consumed is tracked and recorded on a blockchain. It is an amazing way to further push accountability in the sector. 

Now, the opportunity of using blockchain in the energy market is huge: The global Blockchain Technology in Energy market size is projected to reach US$ 2999.9 million by 2027, from US$ 391 million in 2020, at a CAGR of 34.4% during 2021-2027. The main providers like IBM, Microsoft and Accenture, totally account for about 35% of the Market. 

  1. Metaverse and Digital Twins for "virtual plants"

"Meta-what?": I am sure this was your reaction to Mark Zuckerberg's recent announcement of Facebook's rebranding to Meta. At least, that was mine. But interestingly enough, now we all talk about the Metaverse thanks to that announcement and although it is not a new idea, we only recently are able to better understand its implications for energy companies.

But let's first understand what is the Metaverse: the term was born from the junction of the Greek prefix "meta" (meaning beyond) and "universe", and fundamentally is a virtual and collective shared space, created by the convergence of virtually enhanced physical reality (represented by the "Digital Twins"), and the virtual space that already permeates the physical world (in particular Augmented Reality, also called AR). Confused?

Think of it this way: today we are basically online when we access the Internet, but with new devices, greater connectivity such as 5G and cutting-edge technologies, we will be online all the time in decentralized, immersive and persistent worlds.

But although it seems futuristic for many industries, the metaverse proves to be something that the energy industry has already been into over the last years: it is already using cameras and AI engines to capture highly detailed point cloud datasets of the real world to create highly accurate digital representations of the real world. Sounds like a "digital twin"of the real world, right?

They have been creating purely digital representations of some of the energy sector's physical assets for close to four decades. That’s how they train people on very dangerous assets like nuclear plants, where plant operators go through many months of training before they even step foot in a plant, let alone be entrusted to supervise the plant during operations.

The energy sector now uses virtual reality headsets to design, inspect, test and validate new industrial equipment. Customers can walk through virtual representations of physical infrastructure as if they were engaging with a video game. Installation technicians struggling with a repair can engage virtually with a senior engineer to get live coaching on site. A digital representation of a replacement part can appear on a visor or eyewear precisely how it is supposed to fit within a housing, revealing how it must be rotated to slide into place. Live operating data about a piece of equipment, such as its temperature, pressure, and set points, presents itself to the operator as they approach the asset. All of these virtual representations of physical assets are called Digital Twins.

A digital twin is, according to IBM's definition, a virtual representation of an object or system, or even person as we saw, that spans its lifecycle, is updated from real-time data, and uses simulation, Machine Learning and reasoning to help decision-making. Imagine a large manufacturing company having digital twins of its equipment: through them, an engineer from his home will be able to solve problems in a factory on another continent through the Metaverse. The same technologies will enable office meetings that are much more productive than using today's two-dimensional video conferencing tools. Customer-facing applications can include creating Digital Twins in retail, offering customer service experiences that would not be possible in the physical world, and even engineering companies such as Ericsson are using digital twins to simulate the impact of trees falling on their 5G antennas. Amazing, right?

Going further in the future of the energy sector, it gets to a point where we can talk about Virtual Plants now: VR/AR/MR technologies are tackling this problem head-on by enabling virtual site visits, field staff training, remote assistance to the field workforce, and maintenance in the most operationally efficient and cost-effective manner. Backed by advanced analytics, this can significantly improve operational efficiency and manpower productivity. Virtual power plants are virtual replicas created on the cloud, with the support of IoT devices installed on the asset and AR/VR/MR technology, that can help in streamlining remote operations. There could be a situation where the entire power asset can be viewed in 3D format and can be fully operated virtually.

Look at Shell again: Shell has worked to implement an integrated data platform that aggregates 2.9 trillion rows of information harvested from all areas of its business. This includes IoT sensors installed across its plants and wind and solar farms, ultimately allowing it to create digital twin applications to help it better understand the operation of its assets.

Going even further, Huawei has even a vision for what they call the energyverse: Edwin Diender, CIO of Global Energy Business Unit, Huawei, said in an interview with CNME, that their new concept energyverse is designed to prompt the energy sector to adapt and evolve to the future demands of the sector in a bid to halt climate change, and that the idea behind the energyverse is energy that is as visible and as available as information and communications are. This result will be the conventional grid, transformed via smart grid and intelligent connectivity into a worldwide web of energy or an internet of energy. In other words, an energyverse for the metaverse. Look how far we are going!

  1. NFTs for energy certification

Who hasn't heard of the NFT buzzword lately? Impossible not to have been impacted by this term, which for the most part is related to "digital art"- and I am sure you are like now: "Andrea, what does this have to do with the energy sector?". 

Well, to start off we have to understand what are NFTs, or Non-fungible Tokens, in order to understand that their applications go much beyond only art and gaming, and are not only the speculative bubble that we are seeing now.  

What are NFTs, exactly? NFTs can be thought of as a signature for digital assets, which rely on blockchain technology to prove authenticity through a ledger. By confirming authenticity, NFTs establish ownership of one-of-a-kind online assets which can range from a simple pixelated image to a complex set of data, making it impossible to duplicate without permission.

Contrary to the wide draw of NFTs as investments, the applications of NFTs in the energy sector are not meant to inherently just generate profit, but for instance can prove to be a solid tool for energy certification - fitting into the energy source tracking strategies provided by blockchain (and of which we talked before).

Let's look at  FlexiDAO, a Spanish-Dutch startup, which is a renewables matching and certification platform built on the blockchain for 24/7 carbon-free electricity and carbon tracking. They recently raised US 6.5 million raised in Series A funding with backing from Google and Microsoft too:  the company has developed the ‘carbon-free energy score’ (CFE) with which to measure usage, with an online calculator to enable companies to estimate their individual scores. For example, in a three-month pilot with Microsoft at an Amsterdam data center using renewable power sourced from Eneco, a 78% CFE score was recorded. The way it works is through NFTs. See: RESpring, FlexiDAO’s proprietary platform, already allows the issuance of hourly EACs in the form of renewable energy NFTs on blockchain technology, therefore creating a tradable and immutable digital attribute that can be audited and used to report 24/7 Carbon-free Electricity achievements. These attributes, also called Granular Certificates (GCs) by the EnergyTag initiative, have already been tested and used by some of their clients, including Microsoft.

At the same time, there are cases of energy companies launching their NFT collections for their customers. 

On March 2, 2022, Chevron filed metaverse-centric trademarks for its logo, name, and other brand elements with the United States Patent and Trademark Office (USPTO). After the application filing, analysts and metaverse enthusiasts began to speculate about the likelihood of Chevron entering the NFT and metaverse scene.

One of the reasons this development from Chevron is exciting is that such a move opens the metaverse to a new world of energy sector experiences that the general public hasn’t had the pleasure of enjoying yet. With time, Chevron can introduce branded NFTs, renewable energy, petroleum, and other products as digital commodities to the public.

If Chevron hasn't launched NFTs yet though, we have clear examples of energy companies that have done that: NewX Energy, a new-age energy Indonesian company based in Singapore, is leading the way in the energy space by  being the first company of its kind to release a series of (NFT) collections to consumers. The NFTs will be introduced as NewX NFT, offering unique digital segments that are purchasable through the world's largest NFT marketplace, OpenSea. Purchasing NewX NFT will allow owners to be involved in NewX Energy's metaverse – a world where the provision of energy is efficient, affordable, and revolutionary. Holding a NewX NFT will also reward owners in the accumulation of NewX 'NewNits, which, similar to dividends, have several benefits. One of the major benefits of these tokens is the ability to pay or offset all electricity bills supplied by NewX Energy amongst other benefits yet to be revealed.

  1. A.I./ML for "smart grids"and efficiency

I would like you to imagine the following scenario: you are the pilot of an airplane, and one day, while in the middle of the flight, one of your engines breaks down. Terrible, right? It happened suddenly, and seemingly nothing would have been able to preview that. 

But the truth is that, yes, it might have likely been possible to preview it if the airplane was filled with sensors that capture data in real time, and through A.I., it would be able to anticipate an engine stopping through correlations and simulations based on the Big Data it collects (pretty much like a Tesla is able to do, differently from most cars).

See the power of Big Data being processed by Artificial Intelligence, that by its definition is computer systems able to perform tasks and solve problems that normally require human intelligence, such as visual perception, speech recognition, decision-making, and translation between languages, among others? It helps us to predict more and react blindly less. And consider that we already live in a world with lots and lots of data, where more than 90% of the data generated since the beginning of humanity was generated in the last decade, and where today we got to the point of 97 Zettabytes of data by the end of 2022 according to Statista (which just to give you an idea, a Zettabyte is a number with 12 zeros…that's a lot of data!). 

A great example of how much data there is in the energy sector comes from Shell: at Shell, big data is not new – robotic subsea inspection videos exceed 7TB, land seismic surveys are up to 20 petabytes and marine surveys range from 10-30 TB. To give you an idea of the scale here, a terabyte is about 500 hours of video. Each of their physical assets – from refineries to wind turbines - generate hundreds of thousands of measurements per minute. It's a lot of data, that can be worked out through AI in order to provide valuable insights, and that can feed Machine Learning algorithms in order to make better predictions. 

So how can Big Data and A.I. impact the energy sector?  The truth is that there are a plethora of applications, such as microgrids, customer engagement, energy fraud detection, energy trading, energy storage, predictive analytics, production, grid management and security and so on.

But I want to focus on grid management, security and efficiency for a moment, and follow up to microgrids. AI is used to optimise energy grids by managing energy flows between homes, businesses, storage batteries, renewable energy sources, microgrids, and the power grid itself. This reduces energy waste while increasing consumer engagement with energy consumption. 

Renewable energy sources like wind and solar are becoming more popular, but they are intermittent energy sources. This means that energy from these sources is not always available when it is needed.  

This presents a problem for the energy grid because the energy has to be managed in real-time as it is being generated. AI and machine learning can help energy companies to predict when renewable energy will be available and manage energy grids accordingly. Also, The energy grid is a complex system that is vulnerable to cyberattacks. AI and machine learning can be used to improve the security of energy grids by preventing cyberattacks before they happen.  

This involves using data analytics to identify patterns in energy data that may be indicative of a cyberattack. Once a cyberattack has been identified, AI and machine learning can be used to respond to the attack. 

In general, we see many positive benefits of AI to grids up to the point that it evolved to a concept we can call "Smart Grids": grids can now be integrated with sensors, data analytics tools, energy storage systems, energy management platforms, and other types of energy technology to become 'smart'. By using smart grids, energy companies can collect energy usage data from every single device on the grid, and then use this information to develop energy efficiency projects for their customers. It also allows energy companies to monitor energy flow and energy use in near real-time. 

With the sheer volume of data required for successful operation of a smart grid infrastructure, AI will play the role of taking into account the millions of variables and data points, including weather, demand, location, generation assets, etc and proactively decide for  every home where the power will come from and how much it will cost. We don’t just need switches flipped millions of times a second; we need decisions to be made. This is where the power of AI comes in.

Making (and learning from) these decisions is part of what makes AI so appealing for smart grid implementation. A simple example of this is taking into account weather forecasts when deciding mid-term generation strategies. If you know that for 3 weeks it’s going to rain, you can proactively scale up other production sources to offset the loss in solar and soften the blow.

A great example comes from Engie: partnering with Google Cloud to use artificial intelligence to optimize its wind portfolio.

Back in 2019, Google's DeepMind division revealed that it was using AI to predict wind power output thirty-six hours in advance, allowing energy providers to schedule grid inputs more accurately.

Google tested the experimental software on its own infrastructure, which in 2019 used 700MW of wind power capacity across its data centers and offices. Engie will be the first customer of the Google Cloud AI version of the AI, and will trial the service with its German wind portfolio - which coincidentally also powers Google facilities. Should it prove a success, it will be expanded across Europe. Let's hope for that, especially in face of the current energy crisis!

  1. DAOs

Do you know how a cooperative works? I do a lot of speaking to cooperatives in Brazil, especially in the finance and agro sectors, and I have always been amazed by the way they are able to be more customer-centric and collaborative, because of their "ownership" structure - that, to explain as briefly as possible, is basically a model in which the organization is "owned" by its customers. 

This definitely makes accountability much more important, makes the division of profits more egalitarian, and as I mentioned before it makes the organization more customer-focused (as the cooperates, namely the customers-owners, make decisions about the cooperative strategy during regular meetings).

And while traditional cooperativism was born in 1844 in England, we now see a new form of cooperativism on the rise through Web3: namely the one brought about by DAOs, or Decentralized Autonomous Organizations. 

What are DAOs, to start off? A DAO is a new kind of organizational structure, built with blockchain technology, that is often described as a sort of crypto co-op. In their purest form, DAOs are groups that form for a common purpose, like investing in start-ups, managing a stablecoin or buying a bunch of NFTs. ConsenSys, a blockchain organization, defines DAOs as “governing bodies that oversee the allocation of resources tied to the projects they are associated with and are also tasked with ensuring the long term success of the project they support”. Once it’s formed, a DAO is run by its members, often through the use of crypto tokens. These tokens often come with certain rights attached, such as the ability to manage a common treasury or vote on certain decisions.

A great example of how can DAOs impact the energy sector is provided by SolarDAO, which is the world’s first digital, autonomous, closed-end, utility-scale PV project investment fund. The company, in partnership with the Powerchain project (which is a company offering an innovative kinetic energy storage system developed by its partner company Kinetic. This will allow balancing of up to 90 percent of the capacity of the platforms participants), are aiming to popularise the use of renewable energy sources thereby transforming the current conventional, and inefficient, energy management system by using innovative technologies in combination with each other. The main benefit from cooperation will be the adoption of energy storage systems to stabilise power consumption during peak loads. It also allows the regulation of generation from renewable sources, delivering significant advantages for Solar DAO members.

The truth is that DAOs linked to renewable energy assets and storage could solve some of the hottest problems for the energy sector — give financial access to direct sustainable energy generation from local neighborhoods and share the cost or gains fairly with all of the community owners. This potentially enables both financing of an asset which could otherwise not be afforded by the community members in isolation, allows right sizing of storage size for the community as a whole, rather than for individual prosumers/consumers alone, and allows more efficient balancing of energy supply and demand at the community level.

Comentários

Comments

Quer saber mais sobre minhas palestras ou nosso programa de podcasts customizados para ajudar sua empresa?

In order to check Andrea's agenda and get a quote for an event, or even to just get in touch with him - please use the form below.

¿Quiere obtener más información sobre mis charlas o nuestro programa de podcast personalizado para ayudar a su negocio?

Com mais de 200 palestras online e offline em 2021 para clientes no Brasil, América Latina, Estados Unidos e Europa, o Andrea é hoje um dos palestrantes sobre Transformação Digital, Liderança, Inovação e Soft Skills mais requisitados a nível nacional e internacional. Ele já foi diretor do Tinder na América Latina por 5 anos, e Chief Digital Officer na L’Oréal, e hoje é também escritor best-seller e professor do MBA Executivo da Fundação Dom Cabral

With more than 200 keynotes delivered (online and offline) in 2021 to clients across Brazil, Latin America, the United States and Europe, Andrea is today one of the most requested speakers on Digital Transformation, Leadership, Innovation and Soft Skills in Brazil and globally. He has been the head of Tinder in Latin America for 5 years, and Chief Digital Officer at L’Oréal. Today he is also a best-selling author, and a professor at the Executive MBA at Fundação Dom Cabral.

Con más de 150 conferencias online y offline en 2022 para clientes en Brasil, América Latina, Estados Unidos y Europa, Andrea es hoy una de los conferencistas más solicitados sobre Transformación Digital, Liderazgo, Innovación y Soft Skills a nivel nacional e internacional. Fue director de Tinder en América Latina durante 5 años y Chief Digital Officer de L’Oréal Brasil. Es autor de best-sellers y profesor del Executive MBA de La Fundación Dom Cabral, una de las instituciones de mayor prestigio en Brasil.

CONTATO

Para consultas de data, propostas comerciais, ou para elogios ou até mesmo reclamações, pode preencher o formulário abaixo

CONTACTO

Para consultas de fechas, propuestas comerciales, para felicitaciones o hasta quejas, puede llenar el siguiente formulario

CONTACT FORM

In order to check Andrea's agenda and get a quote for an event, or even to just get in touch with him - please use the form below.

Andrea Iorio · 2021 © Todos os direitos reservados.

Andrea Iorio · 2021 © All Rights Reserved.

Andrea Iorio · 2021 © Todos los derechos reservados.