Wind generation impact on electricity generation adequacy and nuclear safety

2018 ◽

Vol 10 (2) ◽

pp. 90-116 ◽

Cited By ~ 26

Author(s):

Harrison Fell ◽

Daniel T. Kaffine

Keyword(s):

Natural Gas ◽

Electricity Generation ◽

Wind Generation ◽

Unit Level ◽

Fuel Prices ◽

Level Data ◽

Natural Gas Prices

Since 2007, US coal-fired electricity generation has declined by a stunning 25 percent. Detailed daily unit-level data is used to examine the joint impact of natural gas prices and wind generation on coal-fired generation and emissions, with a focus on the interaction between gas prices and wind. This interaction is found to be significant. Marginal responses of coal-fired generation to natural gas prices (wind) in 2013 were larger, sometimes much larger, than the counterfactual with 2008 wind generation (gas prices). Additionally, these factors jointly account for the vast majority of the observed decline in generation and emissions. (JEL L94, L95, Q35, Q38, Q42, Q53)

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Evaluating net benefits of electricity generating technologies

Resources and Environmental Economics ◽

10.25082/ree.2021.01.001 ◽

2021 ◽

Vol 3 (1) ◽

pp. 218-228

Author(s):

Nisal Herath ◽

Keyword(s):

Electricity Generation ◽

Wind Generation ◽

Fuel Price ◽

Levelized Cost Of Electricity ◽

Capital Costs ◽

Cost Benefits ◽

Gas Fuel ◽

Avoided Emissions ◽

Net Benefits ◽

Capacity Cost

Typically, the Levelized Cost of Electricity (LCOE) has been used to compare different electricity generation technologies. As LCOE does not account for intermittency and reliability, the updated net benefits methodology has been used. For various electricity generation technologies, with the use of the updated net benefits methodology, the net benefits of avoided emissions benefits, avoided energy cost benefits, avoided capacity cost benefits, energy costs, capacity costs and other costs at a per MW per year basis have been calculated. The results showed that nuclear generation had the highest net benefits in all of the scenarios considered. The net benefits of solar and wind generation increase when high coal and natural gas fuel price and with technological improvement which would increase the capacity factor and decrease the capital costs. Renewable and nuclear generation sources should play a significant role in the future electricity generation mix.

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Feasible design for electricity generation from Chlorella vulgaris using convenient photosynthetic conditions

BIOCELL ◽

10.32604/biocell.2018.07002 ◽

2018 ◽

Vol 42 (1) ◽

pp. 7-11 ◽

Cited By ~ 1

Author(s):

M. Moustafa ◽

T. Taha ◽

M. Elnouby ◽

M.A. Abu-Saied Aied ◽

A. Shati ◽

...

Keyword(s):

Chlorella Vulgaris ◽

Electricity Generation

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A Review on Utilization of Fly- Ash and Pond-Ash as a Partial Replacement of Cement in Concrete Mix Design

International Journal of Scientific Research in Science Engineering and Technology ◽

10.32628/ijsrset196270 ◽

2018 ◽

pp. 413-418

Author(s):

Harshkumar Patel ◽

Yogesh Patel

Keyword(s):

Fly Ash ◽

Electricity Generation ◽

Power Plants ◽

Renewable Energy Sources ◽

Thermal Power ◽

Strength Test ◽

Partial Replacement ◽

Pond Ash ◽

Research Activities ◽

Ash Disposal

Now-a-days energy planners are aiming to increase the use of renewable energy sources and nuclear to meet the electricity generation. But till now coal-based power plants are the major source of electricity generation. Disadvantages of coal-based thermal power plants is disposal problem of fly ash and pond ash. It was earlier considered as a total waste and environmental hazard thus its use was limited, but now its useful properties have been known as raw material for various application in construction field. Fly ash from the thermal plants is available in large quantities in fine and coarse form. Fine fly ash is used in construction industry in some amount and coarse fly ash is subsequently disposed over land in slurry forms. In India around 180 MT fly is produced and only around 45% of that is being utilized in different sectors. Balance fly ash is being disposed over land. It needs one acre of land for ash disposal to produce 1MW electricity from coal. Fly ash and pond ash utilization helps to reduce the consumption of natural resources. The fly ash became available in coal based thermal power station in the year 1930 in USA. For its gainful utilization, scientist started research activities and in the year 1937, R.E. Davis and his associates at university of California published research details on use of fly ash in cement concrete. This research had laid foundation for its specification, testing & usages. This study reports the potential use of pond-ash and fly-ash as cement in concrete mixes. In this present study of concrete produced using fly ash, pond ash and OPC 53 grade will be carried. An attempt will be made to investigate characteristics of OPC concrete with combined fly ash and pond ash mixed concrete for Compressive Strength test, Split Tensile Strength test, Flexural Strength test and Durability tests. This paper deals with the review of literature for fly-ash and pond-ash as partial replacement of cement in concrete.

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PADDY RESIDUE AS FEEDSTOCK IN ELECTRICITY GENERATION: REDEMPTION OF LIFE CYCLE EMISSIONS AND COST ANALYSIS

Journal of Technology and Operations Management ◽

10.32890/jtom2018.13.1.6 ◽

2018 ◽

Vol 13 (Number 1) ◽

pp. 55-67

Author(s):

Shafini M. Shafie ◽

Zakirah Othman ◽

N Hami

Keyword(s):

Power Generation ◽

Life Cycle ◽

Cost Analysis ◽

Positive Feedback ◽

Energy Supply ◽

Electricity Generation ◽

Economic Sector ◽

Ghg Emission ◽

Coal Fuel ◽

Biomass Resources

Malaysia has an abundance of biomass resources that can be utilised for power generation. One of them is paddy residue. Paddy residue creates ahuge potential in the power generation sector. The consumption of paddy residue can help Malaysia become less dependent on conventional sources of energy, mitigate greenhouse gas(GHG) emission, offer positive feedback in the economic sector, and at the same time, provide thebest solution for waste management activities. The forecast datafor 20 years on electricity generation wasused to calculate the GHG emission and its saving when paddy residue is used for electricity generation. The government’scost saving was also identified when paddy residue substituted coal fuel in electricity generation.This paper can provide forecast information so that Malaysia is able to move forward to apply paddy residue as feedstock in energy supply. Hopefully, the data achieved can encourage stakeholder bodies in the implementation of paddy residue inelectricity generation since there is apositive impact towardscost and emission saving.

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