It was clear from the heat in his gaze that he desired her, and the knowledge was a heady power. An aphrodisiac that made her restless and curious. He could make her feel so much with just a look. How would she feel if he touched her? Kissed her?
She didn’t let herself think further than that. She’d never experienced more than a couple kisses, kisses that hadn’t inspired her in any way, making her think there was no need to repeat the experience. Until now. Somehow she sensed that kissing her mysterious stranger would be entirely different. Maybe even life-changing.
But did she want that?
She looked hard at her stranger, who truthfully was no longer a stranger, but someone who was quickly becoming very important to her.
She’d spent so much of her life alone, or alone with her father—which was virtually alone since he rarely spoke, his head always down, buried in his work. She understood her father’s fascination with his work and his commitment to research, but every now and then she wanted...more.
She wanted to be seen.
She wanted to be known.
She wanted to be...loved.
Growing up as she had had taught her tremendous self-reliance, but there were times she felt that her life had also left her empty and aching for more. More connection. More expression. More emotion.
Usually these thoughts and feelings happened late at night, and she’d blame fatigue and the need to sleep.
But she was feeling these things almost constantly lately. The arrival of her mystery man had changed something within her.
His arrival had made her aware of the world out there and that there was more to the world than she knew. But even with that knowledge, she also knew she was happy on Khronos. Most of the time she wanted nothing but her work and the sun and the sea. Most of the time she was utterly content.
She needed to be content again.
Abruptly, Josephine rose, moving away, trying to escape the heat suffusing her skin and ache filling her chest. Her father had left her here to manage the foundation’s station. She needed to stay focused on her responsibilities. “I’d better get back to work,” she said huskily.
“Can I help?” he asked.
She shook her head. “I’m just going to check the solar panels. You relax—”
“That’s all I’ve done the past few days. Show me what you’re doing, or what needs to be done, so I can help while I’m here.”
She smiled tightly. “Okay, follow me.”
The old Greek cottage had been constructed of stones, without the charm of whitewash, and while it looked ancient and almost abandoned from the front, there were clean, well-maintained stairs behind—stairs that rose up to a clearing filled with a mass of solar panels and equipment, and another smaller stone house.
“That’s where the foundation keeps all the seismic monitoring equipment. The equipment is connected to portable seismometers along the edge of the island, as well as some in the water. You see, we’re sitting practically on top of a volcano. Khronos is just the tip, which is why we have the seismometers to detect rock movement in the earth’s crust. Some movements may be the result of rising magma beneath the surface, which could mean an awakening volcano. We also have equipment here that monitors gases like sulfur dioxide, as an increase in sulfur dioxide could be an indication of magma near the earth’s surface.”
“And if that should happen? What do you do?”
“It hasn’t happened in the past ten years, so I think I’m safe. Odds are, I’m safe.”
“You’re pretty nonchalant about something potentially catastrophic.”
“Some people are terrified of volcanoes, particularly supervolcanoes, but there has never been such an eruption in human memory, and did you know there are actually quite a few people who choose to live near a volcano because they’re drawn to the geothermal energy, the minerals and the fertile soil? I’m a fan of geothermal energy because it’s very clean, and the resource is nearly inexhaustible.
“Speaking of energy, come see,” she said, walking farther back along a compact dirt path that cut deeply through the rough, rocky terrain dotted with a few gnarled olive trees. “Twenty years ago the foundation was powered by those wind turbines before us. Unfortunately, they were prone to breaking down and the repairs were costly, and then new, improved solar technology became a better answer, so eventually no one bothered to repair or replace the turbines.”
“They do look forlorn,” he said, taking in the line of tall wind turbines that covered the top of the island.
“Luckily for us, solar works incredibly well, allowing the foundation to live completely off the grid. We use solar energy for almost everything. Light, heating, cooking, powering the radio—when the radio actually works—and now for desalination.”
He’d been studying the solar panels, but she noted how his interest was piqued by the mention of their desalination system.
She walked him back to another frame, this one with its own set of panels, plus tubes, dials and black rectangular features, and motioned for him to crouch down beside her. “This is our baby and my personal favorite because this one gives us all our fresh water. In the beginning, we had to bring everything in, including gallons and gallons of water. We’d collect rainwater when we could, but if we had no rain, we’d begin to panic. Now, thanks to a partnership with my father’s university, we’re able to turn salt water into drinking water using only solar energy. Although there are over eighteen thousand desalination plants across the world, this one is unique in that it combines solar energy with brand-new technology allowing a family to generate enough clean water for individual use.”
“How is it different from traditional desalination?”
“You’re familiar with the desalination process?”
“Salt water is brought to a boil, creating steam. The steam is run through a condensing coil.”
“Right. The traditional method is very energy inefficient and requires expensive, complex infrastructure. Over half of the cost of a distillation plant is spent on energy.”
“So this is membrane distillation?”
She was impressed he knew that much. Perhaps he’d studied science in school, or something environment related. “Yes and no. The university took conventional membrane distillation, where hot salt water flows across one side of the porous membrane and cold freshwater flows across the other, and added in a layer of carbon-black nanoparticles. The carbon-black nanoparticles attract light, heating the entire surface of the membrane, converting as much as eighty percent of sunlight energy into heat, giving us more water with less energy. It’s ideal for us with a compact footprint, but it will also revolutionize the way the world desalinates water because the nanoparticles are low-cost and commercially available.”
“Fascinating,” he murmured, studying the section with the nanoparticles and then the tubing where water dripped into a clear canister. “By integrating photothermal heating with membrane distillation you’ve created more productive and efficient technology.”
“I haven’t. The university program did. We’re lucky the scientists and engineers agreed to let us work with it here. We’ve had it eighteen months now and it’s transformed our lives.” She nodded toward the small garden off to the side. “Tomatoes, cucumbers, lettuce, carrots, and more. All possible now due to a never-ending supply of clean, drinkable water.”
“I’d heard about an American university developing something like this, but it’s amazing to see it in use here on Khronos and to know it’s not just theoretical.”
“It’s a game changer for the world.”
“Indeed,” he murmured, and yet he wasn’t looking at the system