Storage in sentence

394 examples of Storage in a sentence

One gentleman lives in a rented storage unit for $100 a month.

...does a pre-adolescent girl who'd lost her hearing manage to run away from a small village and in 10-15 years end up living in a big city high-rise apartment complete with a storage room, a well-equipped private screening room that seats at least ten and a balcony that just happens to overlook the hutong inhabited by her long-estranged parents...in contemporary China (population: 1.4 billion)?

Luggage is in below decks storage rather than in people's staterooms, as if it were an airplane.

The discovery of this spool confirms that an alien spaceship from Venus crash-landed there and that the spool is a memory storage devise.

This is a strange, lukewarm chiller that arguably for the first time in the movies has a corpse telling the story of her mysterious death by way of flashbacks from a lab in cold storage.

Garth Marenghi is a horror writer who created a show during the 1980's so deep and meaningful that the networks banished it to storage.

In May, in his first major policy speech, Deputy Prime Minister Nick Clegg announced the sweeping away of the “Big Brother” state that Blair had constructed: no more ID cards or national identity register, new restrictions on the storage of DNA, tighter regulation of the closed-circuit television surveillance that had made the British the most monitored people on earth, and so on.

But the major consideration driving them is profit, not the environment, as increased efficiency in energy distribution and, where necessary, storage, reduces the cost of producing renewable energy.

Gore claims the planet is in the midst of an “inevitable transition to a clean energy economy,” and Steyer recently said that the time when “renewables plus storage is cheaper than fossil fuels” has already arrived.

The second solution is to capture CO2 emissions for storage underground.

In 1980, a gigabyte of data storage occupied a room; now, 200 gigabytes of storage fits in your shirt pocket.

But a bigger, largely unreported, message is that some European countries, especially Germany, have launched projects that combine renewables like solar and wind with hydrogen for energy storage, implying clean, zero-emission, stable power grids that require no coal, oil, or nuclear power.

Indeed, the bottom line of a new study by two American researchers, Willett Kempton and Cory Budischak, is that the combination of renewables and hydrogen storage could fully power a large electricity grid by 2030 at costs comparable to those today.

Kempton and Budischak designed a computer model for wind, solar, and storage to meet demand for one-fifth of the US grid.

The results buck “the conventional wisdom that renewable energy is too unreliable and expensive,” says Kempton.“For example,” according to Budischak, “using hydrogen for storage, we can run an electric system that today would meet a need of 72 gigawatts, 99.9 % of the time, using 17 GW of solar, 68 GW of offshore wind, and 115 GW of inland wind.”

The latest effort, scheduled to get underway outside Brussels this year, is the delightfully named “Don Quichote” project (“Demonstration of New Qualitative Innovative Concept of Hydrogen Out of wind Turbine Electricity”), designed to highlight utility-scale energy storage and transport, and to provide power for fuel-cell forklift trucks.

To be sure, in addition to the negative storage effect, there might be a positive effect on the world climate insofar as bio-fuels may replace fossil fuels for combustion processes.

Suboptimal storage conditions – which include, for example, prolonged exposure to sunlight and heat – can cause potent estrogenic activity in bottled water, exposing consumers to chemicals that alter the function of the endocrine system by mimicking the role of the body’s natural hormones.

The effort that will receive the greatest amount of attention is bio-energy with carbon capture and storage (BECCS).

Countless laboratories are working on better, cheaper hydrogen production and storage methods, and on ways to bring down costs and boost fuel cell durability.

Between Apple’s recent decision to relinquish its Chinese user data storage to a Chinese partner and Google’s announcement that it will site a new AI research center in China, US technology giants are not just making deals to benefit their “stakeholders.”

It would let each country focus on its own future vision of energy needs, whether that means concentrating on renewable sources, nuclear energy, fusion, carbon storage, or searching for new and more exotic opportunities.

It has been several years since private investors and states began buying and leasing millions of hectares of farmland worldwide in order to secure their domestic supply of food, raw commodities, and biofuels, or to get subsidies for carbon storage through plantations.

If sizeable amounts of Canadian gas are to flow across the Atlantic, both Canada and Europe will need to beef up their investments in the necessary LNG terminals and storage facilities – a complex and expensive undertaking.

But a closer look at the global energy system, together with a more refined understanding of the emissions challenge, reveals that fossil fuels will likely remain dominant throughout this century – meaning that carbon capture and storage (CCS) may well be the critical technology for mitigating climate change.

The fact is that the rate at which CO2 is being released into the ocean-atmosphere system is several orders of magnitude greater than the rate at which it is returning to geological storage through processes like weathering and ocean sedimentation.

More food is available, thanks to higher agricultural yields and waste-reducing improvements in storage and distribution.

Around the globe, entire industries are being redefined and created from scratch, owing to groundbreaking developments in artificial intelligence, robotics, the Internet of Things, autonomous vehicles, 3D printing, nanotechnology, biotechnology, materials science, energy storage, and quantum computing.

The second track is official recognition of the carbon storage of African lands and forests, as well as rewards for “avoided deforestation.”

Even after the needed technologies are deployed widely, additional investment in power storage or a back-up energy would be needed.

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