Shell joins air liquide, nouryon in enerkem waste-to-chemicals project in rotterdam the complete story biofuels digest electricity physics test

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The waste-to-chemicals project in Rotterdam is an important step towards a more sustainable chemical industry and circular economy. Leveraging Canadian cleantech Enerkem disruptive proprietary technology, the commercial-scale facility will be the first of its kind in Europe to provide a sustainable solution for non-recyclable wastes, converting unrecoverable gas prices in texas 2015 plastics and other mixed waste streams into new raw materials. The waste-to-chemicals project in Rotterdam is a prime example of how a true circular economy can be achieved by preventing the use of fossil sources for new materials, diversifying the energy mix and by making everyday products lower carbon while offering a smart, sustainable alternative to landfilling and incineration.

We reported in July 2018 that Enerkem was teaming with not just the Port of Rotterdam but also Akso Nobel and Air Liquide u gas station on a MSW-to-methanol plant at the port, where more than 2 million metric tons of MSW are imported annually. Akso Nobel is the key offtaker of the methanol produced from the project as it looks to shift its raw materials away from fossil fuels while Air Liquide will supply the gases required for the manufacturing process. Air Liquide is expected to continue its partnership with Enerkem as it expands into other projects around the world. More on partnering with Nouryon in its progress towards sustainable chemistry

We reported last month that Nouryon (formerly AkzoNobel Specialty Chemicals) has officially launched the third edition of its Imagine Chemistry collaborative maharashtra electricity e bill payment innovation challenge. Through this program, the company invites startups, scale-ups, university spin-outs, and other potential partners to tackle chemistry-related challenges and uncover new ways to create value for customers.

To increase the focus on developing business opportunities from this year’s edition, Nouryon has expanded the number of Imagine Chemistry partners to include Unilever; seed investor High-Tech Gründerfonds; and the Green Chemistry Commerce Council (GC3), a collaboration that drives the commercial adoption of green chemistry. Also, it’s supported by venture capital firm Icos Capital; research and advisory firm Lux Research; UK innovation agency Knowledge Transfer Network; Dutch accelerator StartupDelta; the European Commission’s Enterprise Europe Network, and S/park, the chemical technology-focused open innovation center located at Nouryon’s RDI site in Deventer.

For the 2019 edition of Imagine Chemistry, Nouryon is looking for solutions in five areas – and take note that #5 is an “open challenge” relating to sustainable chemistry which is, um, pretty wide open, to coin a phrase. “Essentially we are active in 25 different technologies,”Nieuwenhuizen noted. “if you have a solution, we are open arkla gas pay bill to your ideas.” Converting 360,000 tons of waste

The planned facility will convert up to 360,000 tons of waste into gas utility cost 220,000 tons (270 million litres) of bio-methanol – a chemical building block that is used to manufacture a broad range of everyday products, as well as being a renewable fuel. This represents the total annual waste of more than 700,000 households and represents a CO2 emission savings estimated at about 300,000 tons when compared to the production of methanol from fossil fuels.

The project is supported by the Dutch Ministry of Economic Affairs Climate Policy, which has agreed to develop mechanisms and regulation that will help bring this new technology to full scale to support the low-carbon transition of the Dutch economy. The waste-to-chemicals project is also supported by the City of Rotterdam, the Province of Zuid-Holland and InnovationQuarter, the regional development agency. Rotterdam diversifying beyond fuels

To date, the Port of Rotterdam had been known as the site of Abengoa’s on again gas definition – off again ethanol plant — shutdowns we reported on here and here. Despite Koole expanding biodiesel storage and block train facilities at Rotterdam port in the past year, as we reported here, Rotterdam has been best known in recent years as the site of a large Neste renewable diesel plant, at the heart of that fuel’s explosive growth story. More on that here. The Enerkem backstory

Though Enerkem’s showcase facility continues to be its first commercial plant in Edmonton, this waste-to-fuels pioneer has been hard at work on expansion with a dizzying slate of projects, and given that it can even more easily produce methanol than ethanol, chemicals make tremendous sense where there are not supportive policies no electricity jokes to encourage fuel production.

We reported last month that Enerkem is looking at Massachusetts to possibly site new WTE plant, here, and in December we reported that Enerkem brokered a deal with the Twin Cities allowing it to move forward with planning an MSW-to-ethanol project, here. Last September we reported here that Enerkem was now producing bio-DME from MSW, as a replacement fuel for the diesel sector,. And, last May, we reported here that Enerkem plans to build EUR250 million facility in Spain.

Shell has been much more visible in the past 12 months in the advanced bioeconomy than in the previous three years — a result of re-tooling its strategy and advancing meanwhile on key partnerships and technologies. And Shell’s Energy Transition Report:, which commits to 50% lower emissions by 2050 is a driver in that — especially considering that biofuels top oil in demand by 2100 in that document’s “Sky” scenario, as we reported here.

Shell’s signature technology investments are electricity grid uk sometimes a little subtle to spot, since they are through subsidiary entities that don’t carry the Shell brand. For example, Sell and Cosan are the JV partners in Raizen, and that company has deployed Iogen technology in its first commercial plant in Costa Pinto, Brazil, and Raizen said it was scaling up cellulosic ethanol production five-fold by 2018, though we have yet to see the evidence.

Just as interesting is CRI’s IH2 technology, licensed from its original developers GTI some time ago, and now in advanced demonstration in Bangalore in India. More about that technology center here. CRI is a subsidiary of Shell — essentially, its catalyst company. As we reported in November 2017, Biozin has licensed IH2 Technology and is headed for commercial-scale in Norway. The Air Liquide gas natural fenosa backstory

Meanwhile, Air Liquide has also been hard at work. Most recently, we reported in February 2018 that Air Liquide Canada inaugurated new CO2 recovery facility co-located at Greenfield ethanol plant. And in November 2017 we reported that Air Liquide Engineering Construction will design and build Cargill’s Wichita biodiesel plant, which is expected to be commissioned this year with a 60 million gallons capacity.

On the gaseous fuel side electricity invented what year, we reported in May 2017 that Air Liquide would supply oxygen to UK’s first bio-SNG plant, that would convert 10,000 metric tons of MSW into 22GWh of bio-substitute natural gas over the next five years. The $25 million facility’s first gas is set for injection into the national grid by mid-2018. To reach the technology’s full capacity nationwide will require 11 billion cubic meters per year of oxygen, producing enough 9gag instagram bio-SNG to fuel the country’s entire heavy vehicle fleet or a third of its household heating needs.

And back in 2015, we reported on Air Liquide’s ambition bioliq technology. Then, Air Liquide opened a second generation biofuels pilot plant in Germany in partnership with the Karlsruhe Institute of Technology (KIT), Air Liquide’s bioliq pilot plant aims at demonstrating the feasibility of a process to produce high-quality sulfur-free fuel from residual biomass. These “second generation” biofuels are produced using the inedible part of plants. Construction and timelines

The facility will be built within the Botlek area of the Port of Rotterdam using Enerkem’s proprietary technology, and will convert non-recyclable mixed waste, including plastics, into syngas and then into clean methanol for use in the chemical industry and for the transportation sector. This is a departure from the reality of today, where methanol is generally produced from natural gas or coal.

The plant will have two production lines, or twice the input capacity of Enerkem’s commercial plant in Edmonton, Canada. It will benefit gas 87 89 93 from the state-of-the-art infrastructure available within the Port of Rotterdam, as well as synergies with Air Liquide (large industries) for supplying the required oxygen and with Nouryon, for the hydrogen raw material. The current aim is that the facility’s sustainable methanol output will be purchased by Nouryon and Shell.

“We are thrilled to have Shell join our group of partners,” says Marco Waas, Chairman of the waste-to-chemicals project in Rotterdam and Director RDI at Nouryon. “The EU Renewable Energy Directive (RED II) coming into effect in 2021, as well as other environmental initiatives such as the Circular Economy gas bubble Package are creating an ideal environment for leading companies to drive sustainable growth through innovation. The project will be further strengthened gas stoichiometry calculator with the addition of another leading global partner.”

Andrew Murfin, General Manager, Advanced Biofuels, Shell, said: “Industry partnerships, just like this one, are critical to delivering some of the many solutions society will need to meet energy demand while reducing emissions to tackle climate change and air pollution. Advanced biofuels, including those produced using bio-methanol, have the potential to decarbonize the transportation sector, in particular. This is an exciting prospect given transportation accounts for one fifth of global energy-related CO2 emissions, and will continue to rely on liquid fuels, especially for long journeys and heavy-duty vehicles, for years to come.”