Tag: supply chain

Drax Biomass invests in greenhouse gas efficiencies

21 March 2018

Sustainable bioenergy
close-up of truck raising and lowering

We have increased the capacity at Drax Biomass Amite and Morehouse pellet plants to increase capacity and made them more greenhouse gas (GHG) efficient. Central to the projects was the addition of storage silos and handling equipment to allow increased use of dry shavings and other mill residuals. The developments included the addition of an extra truck dump at each facility to allow delivery of increased volumes of these feedstocks.

Drax biomass pellet trucks

Use of mill residuals and dry shavings reduces the energy required to make a pellet, as such material does not need to be de-barked, chipped and re-sized in the same way as roundwood. Some of the material has a low moisture content and is therefore able to enter the process after the dryer, which effectively increases the capacity of each plant. This drives down the average GHG emission per tonne of pellets produced. A key measure of this is the KWh of electricity per tonne of pellets, and we saw this reduce by about 10% in the final months of the year compared with the start of the year, with further savings anticipated.

LaSalle BioEnergy in Louisiana

At LaSalle, a significant amount of our investment is going into allowing pellets to be transported to the port by rail, rather than truck. For the 250 km trip to Baton Rouge, a significant carbon saving compared to trucks will be achieved when LaSalle reaches its capacity of 450,000 tonnes per year. Moving pellets by rail should start in the next year.

How sustainable biomass crosses the Atlantic to power the nation

21 June 2017

Sustainable bioenergy

In the UK, we’re so accustomed to using electricity we rarely think of the journey it takes from power station to plug.

In fact, electricity must travel across a network of cables, wires and substations before it makes it from the power stations generating it to the homes and businesses using it. At Drax Power Station, which supplies 16% of Great Britain’s renewable power, there’s another journey that takes place even before the electricity leaves the power station.

This journey – the journey of more than half of the compressed wood pellet fuel Drax uses to generate electricity – has its origins in the expanse of forestland in the southern USA.

From forest to fuel

The journey starts in the huge, working forests of the southern states of the USA where low value wood – such as the thinnings cleared as part of a forests’ growing cycle – is collected in a responsible and sustainable way to make high density wood pellets, which Drax Power Station uses to produce more than 60% of its electricity.

Drax Group’s own pellet manufacturer, Drax Biomass, produces around 15% of the power station’s renewable fuel. After pelletisation locally at its Amite and Morehouse facilities, located in Louisiana and Mississippi respectively, the biomass is transported to Drax Transit at the Port of Greater Baton Rouge, on the Mississippi River. From Morehouse, trains made up of closed-top grain cars, each capable of carrying 120 tonnes, transport the pellets 221 miles to Baton Rouge. At Amite, just 60 miles from Baton Rouge, fuel-efficient trucks carry 25-tonne loads between plant and port.

Once at the port, the truck and train cargoes are unloaded into one of two biomass storage domes – each holding 40,000 tonnes of biomass – before being loaded into the ships for their transatlantic journey.

A boat arrives at Peel Ports in Liverpool

From port to port

Drax uses a range of ships to carry the pellets on their 8,000-mile journey to the UK, ranging from big ‘Coastal’ ships, capable of hauling 20,000 tonnes, to truly massive Panamax ships, more than a quarter of a kilometre in length and capable of carrying up to 80,000 tonnes.

The ships leave the port and spend 24 hours travelling the 200 miles down the Mississippi River into the Gulf of Mexico, around Florida, and into the Atlantic. From here, it’s a 19-day voyage to reach ports in the UK. To put that into perspective, it took Columbus more than two months to make his first trip across the Atlantic.

The ships pull into ports in Tyne, Hull, Immingham and Liverpool, where they are unloaded. At the bespoke biomass port facility at Peel Ports in Liverpool an Archimedean screw removes the pellets from the ship’s holds and transports them onto a conveyer belt, which loads them onto trains. These four ports can process up to 12 million tonnes of biomass every year, combined.

From port to power station

Like the stateside journey, Drax uses trains to carry its cargo from port to power plant. The difference on the UK side, however, is that the UK trains were designed specifically to carry biomass wood pellets. Clever design and engineering was used to maximise the space inside each carriage and ensure the trains carry large loads despite UK rail restrictions.

These trains carry the pellets across the country (and even over the Pennines for trains coming from Liverpool) to Drax Power Station in Selby, North Yorkshire. Roughly 14 trains arrive at the plant every day and collectively unload about 20,000 tonnes of pellets every day, from Monday to Saturday. A system of conveyor belts carry these pellets to one of Drax’s four giant biomass storage domes, each capable of housing about 80,000 tonnes of pellets.

Then, when needed, the conveyor system takes the pellets on their final journey: into the furnace. The pellets are combusted, which boils water to create steam, which turns a turbine connected to a generator, which then feeds electricity to the national grid. The electricity travels across miles of cables, and wires, through substations and transformers, and finally into your power socket.

An engineer looking into a Drax furnace

Long journey, low emissions

Despite the number of miles travelled, the journey of biomass is tracked and managed to ensure the Drax Power Station supply chain is as low-carbon as possible. The result is that, even with all supply chain emissions considered, the power generated has a carbon emissions profile that is more than 80% lower than coal.

It might be one of the most impressive supply chains involved in powering this island – but it’s not the only one to travel thousands of miles. The journey of biomass to England joins liquefied natural gas (LNG) shipped from the Middle East, coal from Colombia and solar panels manufactured in China – imports that ensure we have readily available access to power on our shores.

Building a 21st century port

16 November 2016

Sustainable bioenergy

In its long history, the Port of Liverpool has dealt with a number of industries. It’s a port characterised by its ability to adapt to the needs of the time. In 1715 it emerged as one of the world’s first ever wet docks. In the 18th century it was used as a hub for the slave trade.

When slavery was abolished in the early 19th century, Liverpool switched to bringing in the goods of the thriving Empire, such as cotton. When goods like cotton dried up, it switched to the fuel of the Industrial Revolution: coal.

Now as the world (and the UK government) moves away from fuels like coal and towards lower-carbon and renewable resources, the Port of Liverpool needed to adapt once again.

Gary Hodgson, Chief Operating Officer at Peel Ports, explains: “About three years ago everyone was asking, ‘What happens after coal?’”

Biomass silos at the Port of Liverpool

What happens after coal?

Peel Ports is one of the biggest operators of Liverpool’s shipping infrastructure, including Liverpool Port. Seeing that the future of coal was finite, it recognised there was a need for a port that could bring in alternative, renewable fuels.

At the same time Drax was looking for a logistics partner to facilitate the importing of compressed wood pellets. Since 2009 Drax Power Station had begun a process of upgrading its coal-fired boilers to run on sustainable biomass, sourced from huge, well-established working forests. More than this, it had plans to set up its own pellet manufacturing plants in the US South and needed to import large quantities of wood pellets.

The relationship with Peel Ports and Liverpool was obvious. This began a £100 million investment that helped transform the region’s port-station transport infrastructure.

“It’s about working in partnerships with companies,” says Hodgson. “Working this way helps develop solutions that really work.”

The central element of the partnership between Drax and Peel Ports was a radical redesigning of the technical infrastructure. Not only do compressed wood pellets have fundamentally different physical properties to other fuels like coal, they are more combustible and need to be handled safely.

For the three-million-tonne-capacity facility that Peel Ports and Drax wanted to build, innovative supply chain solutions had to be developed.

A tool used to transfer compressed biomass pellets

Shifting biomass in bulk

The first challenge was getting the high-density pellets off giant ships. For this, Peel and Drax designed a solution that uses an Archimedean screw – a long tube with a spiral winding up the inside that allows liquids, or materials that can behave like a liquid (like wood pellets), to defy gravity and travel upwards.

At the top of the screw, the pellets are emptied onto a conveyor belt and carried to one of three purpose-built silos tailored to safely storing thousands of tonnes of biomass.

Here the pellets wait until another conveyor belt deposits them onto specially-design biomass trains where they are transported across the peaks of the Pennines to Drax Power Station near Selby in North Yorkshire.

Each step at the port is automated, designed with supreme efficiency in mind by a team of Drax and Peel Port engineers. End-to-end, port to power station, the whole process can take as little as 12 hours.

Drax biomass ship in the Port of Liverpool

A new chapter for the north

In the varied history of the Port of Liverpool the new facility is another chapter, one that is helping transform the logistics infrastructure and the economic growth of the North West.

Now open and operational, the facility directly employs 50 people – around 500 additional contractors have worked on the project during its construction and development. More than that, it’s an investment in the country’s energy future. It secures a fourth port for Drax –  three others are on the east coast – helping with security of supply.

“We made this investment because we recognised this as the future of the energy mix of the country,” Hodgson explain. “We can’t just rely on one form of power – there has to be an energy mix and we see biomass as a key part of that.”

How one company helped transform the biomass business

6 October 2016

Sustainable bioenergy
Westfield terminal

If asked to picture Canada, its beautiful forests often spring to mind. In fact, 38% of the country is covered by them. Little wonder that Canada has one of the world’s biggest lumber industries. But all that lumber milling means a lot of sawdust.

It was in this sawdust, and the other ‘waste’ products the milling process creates, that one fledgling Canadian company spotted an opportunity.

Making the most of waste

Started by two brothers in the 1980s, Pinnacle originally made animal feed for farmers – compressed pellets of grass and grain.

Then, in the late Eighties, after hearing about wood pellet production in Scandinavia, and taking a look at all the sawmilling residues being burned up around them, they had an idea for a new direction.

At the time the Canadian government was looking to make the sawmilling industry a lot cleaner and more sustainable. “There was a lot of fibre around that needed to find a home,” explains Vaughan Bassett, a senior executive with the company.

Canada needed a way to put to good use materials that were previously just thrown away or even burnt out in the open, releasing greenhouse gas emissions, and wood pellets seemed like a natural fit. Even better, because there was so much waste fibre around at the time, Pinnacle was able to get its raw material for free and help to avoid the unnecessary emissions. All it had to do was pick it up and take it away.

Pinnacle Lavington grand opening

Finding a new business model

Making the transition from feed pellets to wood pellets involved a lot of trial and error.

“There was a lot of entrepreneurial spirit that went into this thing,” says Bassett. “It was untried, untested, unknown and there was no real market. It was just a couple of entrepreneurs trying stuff out.”

Initially, Pinnacle produced its wood pellets for local domestic markets – people looking to heat their homes, local businesses, and schools that used wood burners. This is a particularly convenient and efficient form of fuel for communities in off-the-grid, remote areas of Canada. But Pinnacle was keen to grow and make an even greater impact.

Rising demand for sustainability

By the early 2000s, some in the power generation industry were starting to rethink their long-term futures, looking to shift from fossil fuels like coal to cleaner alternatives in order to meet the challenges of sustainable energy production.

Central to Pinnacle’s business is a commitment to sustainability – something being based in Canada, where forest management is particularly advanced, makes possible. Being owned by the Crown, there are very tight controls over how Canadian forests are run – and how the trees are used.

“We’ve probably got the most sustainable wood fibre in the world. The numbers are just mad. Something like 95% of all the forests in Canada are ‘forest management certified’, which is unbelievable. Look at the next best country and it’s probably nearer 30%,” says Bassett, “It’s left us with an incredible asset that keeps growing every year. The industry never takes more wood than what grows.”

Indeed, carefully managed forestry is key to environmental sustainability. Fully-grown older trees don’t absorb as much CO2, so replacing them with younger, growing trees that do, can benefit the environment. Meanwhile, the waste product of sawmilling is converted into biomass, which produces further benefits by reducing reliance on fossil fuels.

Pinnacle and Drax: A sustainable partnership

Pinnacle first started supplying Drax with compressed wood pellets in 2009, marking a turning-point for the company. “Since 2011, our production has doubled,” says Bassett.

Pinnacle now contracts a fleet of ships and has its own dedicated port facility. Each vessel can transport 60,000 tonnes. Given that Drax uses around 16,000 tonnes a day with two of its three biomass units at full capacity, one shipment keeps a third of the huge power station in North Yorkshire going for nearly four days.

“Pinnacle now produces in the region of 1.5m tonnes of pellets a year, about half of which goes to Drax. So they’re a very important part of what we do,” says Bassett.

Read the Burns Lake and Houston pellet plant catchment area analysis here, part of a series of catchment area analyses around the forest biomass pellet plants supplying Drax Power Station with renewable fuel. Others in the series can be found here