fuel for thought: LNG Blue Corridors

July 24, 2013

Liquefied Natural Gas: A Transportation Solution for the 21st Century

By Karen Graham, Karen Hamberg and Jonathan Morissette

LNG Blog Series - PART 1

We wrapped up our series on Renewable Natural Gas a few weeks ago – we hope it was informative. Continuing our exploration of alternative gaseous fuels for transportation, we turn this week to Liquefied Natural Gas (LNG). In a two-part series, we look first at the unique properties and behaviour of LNG and how it’s growing as a unique fuel for transportation, and then how to safely handle LNG at the fueling station and on the road in our trucks.

Liquefied natural gas, or LNG, is fuel that’s playing an increasing role for a range of applications. Originally developed to efficiently store large amounts of natural gas as backup for electricity generation plants during times of very high (or “peak”) usage (called “peak shaving”), LNG’s flexibility has created a demand in transportation. LNG is playing a key role in Westport’s product development, whether in on-road heavy-duty trucking or emerging rail, mining and marine applications.

The key to LNG’s versatility lies in its energy density. The liquefaction of natural gas increases its density 600 times - converting 600 square feet of gas into one square foot of odorless and colorless liquid. The resulting liquid needs to be insulated to remain around –161.5° C, but doesn’t need to be kept under pressure. It can be quickly transferred from one vessel to another, enabling the fast refueling times that vehicle operators are accustomed to with traditional liquid fuels. Unlike compressed and pipeline gas, LNG can’t be odorized (the sulphur smell we recognise from natural gas ranges and ovens, and CNG in vehicles), and facilities and vehicles which handle it have methane-detectors as a safety measure.

LNG is stored in double-walled, stainless steel tanks, with a vacuum between the layers which further insulates the chilled liquid from outside ambient temperatures. The vacuum space between tank walls also has insulating material injected into it to further insulate the LNG, which can remain chilled and liquid for up to seven to 10 days. The double-walled tanks provide a high degree of safety.

LNG floats on top of water, and has a very narrow range of concentrations (a 5-15% mix with air) in which it can ignite. It also has a higher auto-ignition temperature (1,004oF/540oC) than diesel (600oF/315.5oC) or gasoline (495oF/257oC).[1] As a result, LNG has a reduced risk of explosion compared to other liquid fuels. A spill of LNG, even if ignited, won’t catch fire but only burn around the evaporating edges of the pool. According to the Papua New Guinea LNG Project, since 1944 there have been only four fatal accidents involving LNG anywhere in the world.[2] LNG is non-corrosive and non-toxic.

Fuel suppliers and station operators across North America and around the world have committed to increase the use of LNG in heavy duty trucking. Shell has announced that is investing $300 million in partnership with Travel Centers of America to build up to 200 LNG pumps at 100 locations across the United States.[3] Clean Energy in partnership with Flying J Travel Centers is creating what it calls “America’s Natural Gas Highway,” a national network of 150 stations in its first phase that will power interstate shipping and regional fleets working locally.[4]

In the European Union, the European Commission has announced the LNG Blue Corridors project to build 14 new fueling stations - adding to the 30 plus existing LNG stations – to complete a Europe-wide natural gas trucking network of at least one LNG station every 400km by 2020.[5]

These commitments by government and industry will boost the growth of the LNG transportation sector, bringing the economic and environmental advantages of natural gas to more truck fleets. In our next post, we’ll take a look at the safety and experience of fueling with LNG.

[1] http://www.npc.org/FTF_Topic_papers/21-LNG_in_Transportation.pdf and http://www.pnglng.com/media/pdfs/environment/eis_attachment01.pdf
[2]http://www.pnglng.com/media/pdfs/environment/eis_attachment01.pdf
[3] http://www.forbes.com/sites/christopherhelman/2012/06/13/shell-investing-300m-to-fuel-lng-powered-trucks/
[4] http://www.cleanenergyfuels.com/buildingamerica.html
[5] For more information, please see our prior blog post on this announcement, Europe Paves the Way for LNG-Powered Transportation with Four New Blue Corridors.

July 5, 2013

Europe Paves the Way for LNG-Powered Transportation with Four New Blue Corridors

The LNG Blue Corridors project was launched in Brussels on May 27, 2013 to boost demand for heavy duty vehicles operating with liquefied natural gas (LNG) and reduce air pollution from the transportation sector in Europe. Westport is one of the 27 partners from 11 participating countries.

The aim is to establish a network of LNG refueling facilities, starting with four LNG Blue Corridors. Station-infrastructure partners will establish about 14 new LNG or L-CNG stations (liquefied-compressed natural gas, combining LNG and CNG in one station) as well as creating a fleet of about 100 additional LNG heavy-duty vehicles which will travel on the corridors. These new stations will complement more than 30 existing stations already supplying LNG across Europe.

Station infrastructure partners of the LNG Blue Corridors project will aim to build 14 new LNG or C-LNG stations.

“This project is a great step forward in establishing LNG as a fuel for heavy duty trucks in Europe,” said Nadège Leclercq, Westport's Director of Market Development, Europe, Middle East and Africa. “We were very excited about it from the beginning because it gives us the opportunity to work closely with key players towards establishing LNG as a transport fuel in Europe.

“With Westport’s experience in North America, we understand how important it is to work together with stakeholders in the gas supply and transportation sectors to make the switch to LNG as smooth and efficient as possible.”

The LNG Blue Corridors project will run for four years and connect over 12 member states of the European Union. The defined roadmap of LNG fuelling points covers the Atlantic area, the Mediterranean region and connects Europe’s South with the North and its West and East. The initiative also aims to support existing natural gas for transportation demonstrations occurring participating countries. There are already several hundred trucks operating on LNG in Europe, which will benefit from these new corridors and stations.

A roadmap of the four European LNG blue corridors.
Source: NGVA Europe

The project cost is €7.96 million and is co-funded by the European Commission. The total cost is €14.33 million with contributions from participating partners, which includes in-kind support. All partners are members of NGVA Europe (the Natural & bio Gas Vehicle Association), which has played a key role in making the project happen.

Westport joined NGVA Europe in 2010 and in the corridor project will focus on developing natural gas vehicle standards and regulations, and support the adoption of LNG trucks on the corridors.

The ‘Blue Corridor’ European concept has existed since at least the early 2000s. At that time, the idea was to primarily use CNG as a vehicle fuel across Europe. More recently, with developments related to the use of LNG as a vehicle fuel in North America and Europe, the concept of ‘LNG Blue Corridors’ emerged.

This LNG Blue Corridors project will help the European Commission to reach its target of at least one LNG station every 400 km Europe-wide by 2020. This project should foster further expansion of European corridors and enable LNG to become a mainstream transportation fuel in Europe.