13
The engine kindled into life
‘And this is where it all started,’ said the woman solemnly. ‘This is what it looked like in the beginning.’
Peter nodded. He kept his jaw rigid and didn’t dare try to make the appropriate interested noises, for fear of breaking into a grin or even laughing out loud. The official opening of this facility was a momentous occasion for everyone gathered here today.
‘We put an extra-thick layer of epoxy on the top of the downstream surface,’ the woman continued, pointing to the relevant parts of the scale model, ‘to control the migration of water through the foundation. These tubes on the downstream side were connected to pressure transducers.’
If she’d been breezy or casual, it wouldn’t be so bad, but she was deadly earnest and that made it funnier, and everybody but him seemed to understand what she was talking about, which made it funnier still. Then there was the inherent comicality of an architectural scale model (so dignified, so full of symbolic importance, and yet so . . . dinky, like something from a children’s playground). And, added to that, the shape of the model itself: two inverted cups joined together, fully justifying the ‘Big Brassiere’ nickname.
The real buildings, from a distance, hadn’t struck him as particularly comical. He’d seen them, along with everyone else, looming on the horizon earlier in the afternoon as USIC’s convoy of vehicles drove across the scrubland, each vehicle ferrying half a dozen employees. The sheer size of the structures, and the fact that one partially obscured the other on approach, made them appear like nothing less than what they were: mighty works of architecture. When the convoy finally cruised to a standstill in front of the foremost structure, the vehicles parked in an area of shade so large that its contours were difficult to tell. Only once Peter and the other USIC personnel were gathered together in the entrance hall, contemplating a replica barely a metre high, was the design of this place revealed in all its bulbous symmetry. The officiating woman, Hayes, an engineer who’d worked closely with Severin, waved her hand in the air over the twin structures, oblivious to the fact that she appeared to be miming a caress of a sofa-sized bosom.
‘ . . . the desired g-level . . . self-weight displacements . . . overtopping simulation . . . ’ Hayes droned on. ‘ . . . uplift pressures with five transducers . . . proximity probe . . . ’
Peter’s urge to laugh had passed. Now, he could scarcely keep awake. The entrance hall was stiflingly warm and poorly ventilated; it felt rather like being enclosed inside an engine – which was basically what it was, of course. He swayed slightly on his feet, took a deep breath, and made an effort to stand straighter. Bubbles of trapped sweat squelched in his sandals; his eyes stung and Hayes became blurry.
‘ . . . recorded in real time . . . ’
He blinked. Hayes muddled back into focus. She was a tiny woman with a military-style masculine haircut and the sort of dress sense that made anything she wore look like a uniform even when it wasn’t. He’d made her acquaintance several days ago in the mess hall when she was shovelling her way through a plate of whiteflour mash and gravy. They’d conversed for ten, fifteen minutes and she’d been perfectly pleasant in a dull sort of way. She was from Alaska, used to like dogs and sledding but was content nowadays to read about them in magazines, and didn’t believe in any religion, although she kept ‘kind of an open mind about poltergeists’, having had a weird experience in an uncle’s house when she was twelve. Her low-pitched monotone was, he’d thought, mildly attractive, reminding him slightly of Bea’s melodious croon. But when delivering a lecture on thermodynamics and dam design, it wasn’t so scintillating.
Even so, the fact that he was having trouble staying awake annoyed him. Boring experiences didn’t normally affect him like this. Usually, he had exceptional tolerance for tedium; homelessness had taught him that. But living in the USIC base was worse than homelessness somehow. He’d been back a week, and his sunburned face had peeled and healed, but his brain wasn’t recovering so well. He was wired and wakeful when he should be sleeping, and dopey when he should be alert. And here he was, nodding off, when he should be admiring the engineering genius of USIC’s brand new Centrifuge & Power Facility.
‘ . . . mutually exclusive functions . . . couldn’t be done . . . Severin . . . vacuum net . . . the vision to let go of photo-voltaics . . . ’
It was impressive what had been wrought here: a feat of engineering that stretched the limits of what was thought possible. Under normal conditions – that is to say, the conditions everyone was used to back home – rain fell over a large area and accumulated in great pools, or flowed into rivers which moved across the landscape gathering speed. Either way, a substance which, to a person standing under a rainshower, was perceived as individual droplets falling through the air, was transformed by time and volume and momentum into a vast force that could power a hundred thousand engines. These principles did not apply on Oasis. The raindrops manifested, dropped onto the sponge-like terrain, and were gone. If you happened to be outdoors while it was raining and held out a cup, it would be filled, or you could quench your thirst more simply than that, by leaning back with your mouth wide open. But when it was over, it was over, until the next rainfall.
The Big Brassiere’s grand bipartite structure defied these limitations. One part of it was designed to suck the rain from the sky, gather the diffuse droplets into a cyclonic whirl, tug the condensed water into a gigantic centrifuge. But that was only half of the project’s audacious ingenuity. The amount of electricity required to power this centrifuge was, of course, colossal – far beyond the yield of USIC’s existing solar panels. So, the harvested water was not merely flung into a reservoir; it was first put to work in a giant boiler, where fearsome volumes of trapped steam set turbines spinning.
Each of the two buildings fed into each other, providing the energy to catch the water, providing the water to generate the energy. It wasn’t exactly a perpetual motion machine – two hundred solar panels stationed in the scrubland all around the facility kept the sun’s rays beaming in – but it was mind-bogglingly efficient. Oh, if only a few of these Big Brassieres could be installed in famine-ravaged countries like Angola and Sudan! What a difference they would make! Surely USIC, having just achieved this technological marvel and proved what could be done, must be negotiating such projects? He would have to ask someone about that.
But now was not the time.
‘And in conclusion . . . ’ Hayes was saying. ‘One last practicality. We’re cognisant of the fact that there’s been some reluctance to use the official title of this facility, the Centrifuge & Power Facility. We’re further cognisant of the fact that there’s a nickname currently being usaged that is not what we want to hear. Some people may think it’s funny but it’s not exactly dignified and I think we owe it to Severin, who worked so hard on this project along with the rest of us, to give it a name that we can all live with. So, in recognition of the fact that a lot of people prefer names that are short and snappy, here’s the deal. Officially, we are here today to celebrate the opening of the USIC Centrifuge & Power Facility. Unofficially, we suggest you call it . . . the Mother.’
‘Because it’s one big motherfucker!’ someone called out.
‘Because necessity is the mother of invention,’ Hayes explained patiently.