Tunnel vision
There's a secret world under Imperial students' feet, the 'heart and lungs' of the university. But only a few lucky souls have ever seen it.
Midnight, early summer. Mid-1990s. Jiten Patel and three friends are testing a rumour. They’ve been told by a friend in the know that beneath the South Kensington campus lies a vast network of secret tunnels, enabling access to almost any part of the campus. And apparently there’s a way in – if you know where to look. “It seemed absurd that you could go through a hatch and walk under all the buildings, but we decided to investigate,” Patel (Physics 1999) recalls.
The group met at their designated rendezvous and waited for the coast to clear. They located the access point and entered the tunnels – grimy, dark but surprisingly spacious; filled with control panels, junction boxes and hot pipes that carried steam and water to heat the campus. While Patel focused on not getting lost, one of the group tried to record the layout into a map – but soon ran out of space. “We must have been in there for four or five hours,” he says. “At one point we found a stepladder and poked our heads out of the middle of Exhibition Road with a car coming towards us.”
Patel and his fellow explorers had discovered Imperial’s service tunnels, which although now inaccessible, date back to the 1851 Great Exhibition. Filled with wires, cables and pipes, the tunnels contain water, data, phone, security and power and extend under the entire campus and are believed to have once connected to the basements of the nearby museums. Extremely hot, the tunnels are nevertheless surprisingly well lit and tidy.
Among students in the know, myriad rumours have arisen: they were used to store radioactive waste; they were the locations for love trysts (a makeshift bed and empty bottle of wine were once discovered in one tunnel) or drinking clubs; they were protected by armed guards.
You just needed to know the right door and then you were in!
Actually, there’s the faintest ring of truth to that last claim. Alun Kimber (Chemical Engineering and Chemical Technology 1982) was a student at Imperial in 1980, when the nearby Iranian Embassy on Princes Gate was stormed by gunmen. Kimber was in his student accommodation watching the snooker in the TV lounge when it was interrupted by a live broadcast from the siege. He and friends decided to get a closer look via the tunnels, as the police had closed the conventional route onto the main road.
“You just needed to know the right door and then you were in,” he says. “We followed this guy through these musty brick tunnels and popped up very close to the back of the embassy. It was on fire as the SAS had just gone in and a policeman saw us and came running towards us telling us to get inside.” Kimber and co rapidly retreated into the nearest safe building. “What I found strange at the time was that the policeman didn’t know what was going on – although I since realise that the SAS would have taken full control, including communication.”
Footage of the Iranian Embassy Siege of 1980, captured by STOIC (Student Television Of Imperial College).
Sixteen years after Kimber’s adventure, Patel and his friends would spend several hours under Imperial, but it still didn’t allow them to visit the entire network. “There were huge areas we couldn’t explore because they were blocked or we didn’t have time,” he says. “We didn’t need to crawl on hands and knees, we could walk quite easily – sometimes in single file – and it was easy enough to get round. I don’t know if other students knew about it. We didn’t make a big noise about it; it was a secret for the group of us.”
At one point we climbed a stepladder and poked our heads out in the middle of Exhibition Road
Back then, the tunnels contained Imperial’s old steam heating system – Patel noted the occasional warnings of hot steam – but this is now being replaced as part of a major refurbishment programme. For decades, buildings on campus were heated through two overlapping heating systems – one used hot water and the other steam. This was something that had developed over time and which nobody had ever got round to correcting.
“Intuitively and from an engineering perspective, there was no benefit to having two,” explains Andrew Caldwell, the Energy Manager. “You double all the costs – infrastructure, expense and potential for failure – but individually each was too small to take the entire load, so we had to live with this thing. Steam is an amazing way of transporting heat because you don’t need to pump it, it moves itself through the pressure and you can get a lot of energy down a small amount of pipe. But there are also many drawbacks. It is thermally inefficient and there are a lot of daily checks and legislation that requires compliance. There are fewer losses in a low-temperature water district heat network than a saturated steam heat network.”
Now, the steam is all but gone – but the tunnels remain, used for miles of cables and pipes that carry water and electricity from Imperial’s Energy Centre around the campus. The Energy Centre is the ‘heart and lungs’ of Imperial, generating electricity through two combined heat and power generators, each of which can generate 4.5MW of electricity. Believed to be the biggest privately owned power station in London, the Energy Centre generates almost all the electricity needed to run the South Kensington campus. The generators are now being joined by three new gas boilers which, along with the removal of the steam heating network, will cost around £40 million, £12 million of which will come from a government grant.
“We don’t know what to call the project,” admits Caldwell. “Some call it decarbonisation and others call it de-steaming. Technically, we call it the Removal of the Central Provision of Steam – because we want to reflect that there are some assets out there that still need steam, but it’s easier to call it de-steaming.
“We essentially operate our own power and heat network here. We generate the heat centrally and then distribute it around the campus from the Energy Centre. We have our large tunnel network to distribute heat and power through the buildings. If you visit a similar sort of campus like a large hospital, you will see all the pipes above ground – we are able to store it all under the streets. It is very discreet and out of sight.”
The project makes significant carbon savings of around 2,400 tonnes a year. Caldwell is proud of the efficiency of the two gas-fired combined heat and power engines, from which waste heat generated by the exhaust is captured and fed into the boilers, where it is turned into water to heat the buildings. The three new boilers are replacing three steam boilers that, after 25 years’ service, had reached the end of their lifespan. At the same time, the water pipe network – which carries about 132,000 litres round the campus – is being increased in size to take the additional heat load. Heating units in the plant rooms beneath each individual building are also being upgraded. In the handful of places where steam is still needed – for autoclaves or steam sterilisers, for example – it is now generated locally.
As the Energy Centre comes back online in December, the changes will make for far greater environmental and economic efficiencies. The financial savings that Imperial receives from generating its own electricity are already substantial, but Caldwell believes even more can be done in conjunction with net zero planning that is in development. “I am now looking at the next phase of the project, which is going back to grassroots and reducing demand,” he says.
“I believe that rather than creating innovative new ways to generate heat, we should reduce the need in the first place. There are a lot of huge and complex research projects that go on in our buildings and these require a lot of heat and a lot of power – but there can be a lot of waste that goes along with that. We are seeking the most efficient and optimised solutions for these buildings.”
Energy revamp
In line with Imperial’s Net Zero 2040 ambitions, three new boilers (which are much more efficient than the old ones in converting natural gas to useful heat) were delivered to campus in August and installed in the underground Energy Centre. The long-term strategy is to move the whole of the South Kensington campus to a low temperature hot water system running at 80°C, in preparation for further heat decarbonisation. Find out more about the project.
If you have any stories about ‘underground adventures’, let us know at imperialmagazine@imperial.ac.uk.
A contractor moves the boiler into its final position from above.
A contractor moves the boiler into its final position from above.
A temporary lift shaft was created to enable the boilers to get below ground level.
A temporary lift shaft was created to enable the boilers to get below ground level.
A contractor moves the boiler into its final position from below.
A contractor moves the boiler into its final position from below.
One of the boilers in place.
One of the boilers in place.
Imperial is the magazine for the Imperial community. It delivers expert comment, insight and context from – and on – Imperial’s engineers, mathematicians, scientists, medics, coders and leaders, as well as stories about student life and alumni experiences.
This story was published originally in Imperial 55/Winter 2023–24.
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