Sentences with phrase «electrical power generation with»

The gasoline engine of the e-POWER system is strictly for electrical power generation with minimal influence from the opening and closing of the throttle, allowing the engine to always operate in its optimum condition.

Power engineers are already sketching the outlines of the next - generation electrical grid that will keep our homes and factories humming with clean — but fluctuating — renewable energy.

Real - time, direct, electrical detection of sequencing, combined with the enormous amount of computing power in both the Ion Proton ™ Sequencer and Ion Proton ™ Torrent Server, enables generation of high quality sequencing results from DNA library to variants in a single day.

The new sports car generation makes its debut in the classic Porsche pairing of Boxster and Boxster S. Both models are powered by flat - six engines with direct petrol injection, the efficiency of which is further enhanced by electrical system recuperation, thermal management and start / stop function.

Powered by the fifth generation of battery and drivetrain technology, from 2021 the BMW Group will be capable of offering all - electric vehicles with a range of up to 700 kilometres and plug - in hybrids with an electrical range of up to 100 kilometres.

By inhibiting surplus power generation, the multistage alternator control along with other electrical system efficiencies contributes to an improvement in fuel efficiency.

But over the next decade, 60 million cars are expected to feature a 48 - volt electrical system, with a 10kw practical power limit, which will introduce the next generation of auto stop - start.

As a (now retired) electrical engineer (NYS Professional licensed) knowledgeable about power generation who has watched the challenge of meeting our energy needs over decades I can state with some expertise that the US is in a serious bind as to meeting our nation's energy needs.

And this same period saw the expansion of fossil fuel burning from the traditional family needs like heating / cooking, then on to quickly power - up both modern modern agriculture and also the industrial - mass production revolution in manufacturing industries, and finally the large - scale generation of ubiquitous electrical power, eventually distributed into nearly every home and business in the industrialized societies, with close to 24x7x365 availability.

(2007) • Contribution of Renewables to Energy Security (2007) • Modelling Investment Risks and Uncertainties with Real Options Approach (2007) • Financing Energy Efficient Homes Existing Policy Responses to Financial Barriers (2007) • CO2 Allowance and Electricity Price Interaction - Impact on Industry's Electricity Purchasing Strategies in Europe (2007) • CO2 Capture Ready Plants (2007) • Fuel - Efficient Road Vehicle Non-Engine Components (2007) • Impact of Climate Change Policy Uncertainty on Power Generation Investments (2006) • Raising the Profile of Energy Efficiency in China — Case Study of Standby Power Efficiency (2006) • Barriers to the Diffusion of Solar Thermal Technologies (2006) • Barriers to Technology Diffusion: The Case of Compact Fluorescent Lamps (2006) • Certainty versus Ambition — Economic Efficiency in Mitigating Climate Change (2006) • Sectoral Crediting Mechanisms for Greenhouse Gas Mitigation: Institutional and Operational Issues (2006) • Sectoral Approaches to GHG Mitigation: Scenarios for Integration (2006) • Energy Efficiency in the Refurbishment of High - Rise Residential Buildings (2006) • Can Energy - Efficient Electrical Appliances Be Considered «Environmental Goods»?

Thorium reactors could be a game changer here for power generation and heat with serviced buildings; but we'll still a long way off of good electrical storage in transportation — aircraft, trucks, ships, and cars will continue to burn oil products until that eureka moment)

For the first third of this year, renewables and nuclear power have been running neck - in - neck with renewables providing 20.20 percent of U.S. net electrical generation during the four - month period (January to April) compared to 20.75 percent for nuclear power.

4) For nations (like USA) with large coal reserves, it makes economic sense to exploit these in a «clean» way; electrical power generation is an efficient use of this resource, which enables flue gas cleanup 5) Carbon taxes do nothing to change our planet's future climate (no tax ever did).

Expressed in financial terms, the health costs linked to biomass burning for power generation run into billions of euros each year, with health costs associated with emissions from former coal and co-fired plants amounting to 137,000 euros per year on average for every megawatt of electrical capacity installed.

With these additions, Canada has reached a total of 9.7 GW of online wind energy electrical generation capability — enough to power 3 million average Canadian homes annually.

60 Wind Generation Historically Small wind turbines used for Wind Generation Historically Small wind turbines used for agriculture use — pump water Provide electrical needs for isolated homes Extracts ~ 3 kW of power with wind vanes no larger than 1m long Modern Wind turbines with vanes larger than 50 m can extract megawatts of power from the wind Blades designed to function similar to airplane wings utilizing lift created by the wind flowing over the surface to turn the blades — more efficient Turbines mounted on tall towers or at sea can take advantage of higher winds.

Note that most of the storage, transport, and power generation technology for methane is already mature, and that a strong reliance on methane could reduce the need for large electrical grids with huge generating plants.

Since electrical demand probably won't match up very well with wind fluctuations, installed wind capacity does not displace conventional power generation in a 1 to 1 ratio.

Coal production in the USA, after declining during the 1950s when natural gas replaced coal as the preferred fuel for space heating, has grown steadily ever since with coal continuing as the primary fuel source for electrical power generation.

With strong electrical engineering skills and significant insight into all facets of schematic design, proposal changes, and extensive knowledge of Next Generation Integrated Power Systems, I feel that I am a knowledgeable and qualified candidate.

My past work experience and extensive training has shaped me into an employee with skills in Electrical and Power Generation maintenance, installation and repairs, servicing a wide array of global corporations and the U.S. Military.

TECHNICAL SKILLS • Familiar with all facets of operating the GFE power generation plant • Able to initiate start up and check the generators for accurate operations • Demonstrated ability to carry out routine scheduled maintenance • Proven ability to lubricate and cleans parts • Able to repair basic electrical equipment

SUMMARY OF QUALIFICATIONS Results - oriented, project management professional (PMP), collaborative leader having a zero safety incident expectation mindset, with major project delivery track record, project execution budget cost estimation (CAPEX, OPEX) skillsets, combined with cross-disciplined mechanical, electrical, operations & maintenance engineering experience in the renewable energy, power generation and upstream, mids...

Summary Experienced and knowledgeable military trained Electrical and Power Generation Technician with... Medal three times.

EXPERIENCE SUMMARY Electrical Engineer with Over 25 years experience in design, construction and start - up of power Generation, distribution and control, instrumentation in Nuclear and Fossil Power Plants, Substation, Mining, Petrochemical Refinery, Water & Waste water field, Standby Power Generapower Generation, distribution and control, instrumentation in Nuclear and Fossil Power Plants, Substation, Mining, Petrochemical Refinery, Water & Waste water field, Standby Power GeneraPower Plants, Substation, Mining, Petrochemical Refinery, Water & Waste water field, Standby Power GeneraPower Generation.

New permanent opportunity for a Electrical Maintenance Engineer, with one of the UK's most well - known industrial power generation companies in the Cambridgeshire area.

Experienced and knowledgeable military trained Power Generation Technician with a proven track record in providing installation and modification to electrical generating power production plants and equipment while driving quality and safety assurPower Generation Technician with a proven track record in providing installation and modification to electrical generating power production plants and equipment while driving quality and safety assurpower production plants and equipment while driving quality and safety assurance.

An experienced Power Plant Technician with over 11 years of experience in the Power Generation and Power Distribution Industry with technical expertise in Gas Turbine Engines / Generators, Electrical Power Distribution, and Power Plant Operations.

Broad experience spanning twenty years solving electrical design and systems engineering challenges in industrial, heavy industrial, launch complex and office facilities in the Aerospace, Power Generation and Consulting Engineering industries with a proven track record of completing tasks on budget, on time both as a leader or member of design teams and as a stand - alone engineer.