A Combined Limited Energy Study of Electrical Energy Demand and Use and Heating Systems at Pine Bluff Arsenal, Arkansas. Volume 4. Programming Documentation

Electricity supply in nonelectrified areas can be covered by distributed renewable energy systems. The main disadvantage of these systems is the intermittent and often unpredictable nature of renewable energy sources. Moreover, the temporal distribution of renewable energy may not match that of energy demand. Systems that combine photovoltaic modules with electrical energy storage (EES) can eliminate the above disadvantages. However, the adoption of such solutions is often financially prohibitive. Therefore, all parameters that lead to a functionally reliable and self-sufficient power generation system should be carefully considered during the design phase of such systems. This study proposes a sizing method for off-grid electrification systems consisting of photovoltaics (PV), batteries, and a diesel generator set. The method is based on the optimal number of PV panels and battery energy capacity whilst minimizing the levelized cost of electricity (LCOE) for a period of 25 years. Validations against a synthesized load profile produced grid-independent systems backed by different accumulator technologies, with LCOEs ranging from 0.34 EUR/kWh to 0.46 EUR/kWh. The applied algorithm emphasizes a parameter of useful energy as a key output parameter for which the solar harvest is maximized in parallel with the minimization of the LCOE.

Download Full-text

A Theoretical Study on Reversible Solid Oxide Cells as Key Enablers of Cyclic Conversion between Electrical Energy and Fuel

Energies ◽

10.3390/en14154517 ◽

2021 ◽

Vol 14 (15) ◽

pp. 4517

Author(s):

Saheli Biswas ◽

Shambhu Singh Rathore ◽

Aniruddha Pramod Kulkarni ◽

Sarbjit Giddey ◽

Sankar Bhattacharya

Keyword(s):

Energy Demand ◽

Electrode Materials ◽

Scale Up ◽

High Capacity ◽

Electrical Energy ◽

Solid Oxide ◽

Lower Efficiency ◽

Internal Reforming ◽

Fuels And Chemicals ◽

The Cost

Reversible solid oxide cells (rSOC) enable the efficient cyclic conversion between electrical and chemical energy in the form of fuels and chemicals, thereby providing a pathway for long-term and high-capacity energy storage. Amongst the different fuels under investigation, hydrogen, methane, and ammonia have gained immense attention as carbon-neutral energy vectors. Here we have compared the energy efficiency and the energy demand of rSOC based on these three fuels. In the fuel cell mode of operation (energy generation), two different routes have been considered for both methane and ammonia; Routes 1 and 2 involve internal reforming (in the case of methane) or cracking (in the case of ammonia) and external reforming or cracking, respectively. The use of hydrogen as fuel provides the highest round-trip efficiency (62.1%) followed by methane by Route 1 (43.4%), ammonia by Route 2 (41.1%), methane by Route 2 (40.4%), and ammonia by Route 1 (39.2%). The lower efficiency of internal ammonia cracking as opposed to its external counterpart can be attributed to the insufficient catalytic activity and stability of the state-of-the-art fuel electrode materials, which is a major hindrance to the scale-up of this technology. A preliminary cost estimate showed that the price of hydrogen, methane and ammonia produced in SOEC mode would be ~1.91, 3.63, and 0.48 $/kg, respectively. In SOFC mode, the cost of electricity generation using hydrogen, internally reformed methane, and internally cracked ammonia would be ~52.34, 46.30, and 47.11 $/MWh, respectively.

Download Full-text

Benchmarks for the energy demand of nutrient removal plants

Water Science & Technology ◽

10.2166/wst.2003.0637 ◽

2003 ◽

Vol 47 (12) ◽

pp. 125-132 ◽

Cited By ~ 17

Author(s):

O. Nowak

Keyword(s):

Nutrient Removal ◽

Energy Demand ◽

Municipal Wastewater ◽

Wastewater Treatment Plants ◽

Electrical Energy ◽

Anaerobic Sludge ◽

Operational Experience ◽

Municipal Wastewater Treatment ◽

Sludge Digestion ◽

Municipal Wastewater Treatment Plants

The energy demand of municipal wastewater treatment plants for nutrient removal equipped with primary clarifiers, activated sludge system, anaerobic sludge digestion, and CHP is evaluated theoretically, on the basis of COD balances. Operational experience from energy-efficient Austrian treatment plants confirms that the demand on external electrical energy can be kept as low as 5 to 10 kWh/(pe.a) depending on the N:COD ratio in the raw wastewater. A low N:COD ratio helps to keep not only the effluent nitrogen load low, but also the energy demand. Measures to minimise the energy demand at treatment plants and to reduce the nitrogen load are discussed.

Download Full-text

Relative evaluation of regression tools for urban area electrical energy demand forecasting

Journal of Cleaner Production ◽

10.1016/j.jclepro.2019.01.108 ◽

2019 ◽

Vol 218 ◽

pp. 555-564 ◽

Cited By ~ 31

Author(s):

Nils Jakob Johannesen ◽

Mohan Kolhe ◽

Morten Goodwin

Keyword(s):

Urban Area ◽

Energy Demand ◽

Demand Forecasting ◽

Electrical Energy ◽

Relative Evaluation ◽

Energy Demand Forecasting

Download Full-text

Research Proposal: Cryptocurrency User Attitudes Towards the Environmental Impact of Proof-of-Work

10.31235/osf.io/kpyrf ◽

2021 ◽

Author(s):

Moritz Platt ◽

Francesco Pierangeli

Keyword(s):

Climate Change ◽

Environmental Impact ◽

Energy Demand ◽

Electrical Energy ◽

Consensus Protocol ◽

Energy Needs ◽

User Attitudes ◽

Decentralised Systems ◽

Consensus Models ◽

Potential Impact

The consumption of electrical energy is a requisite for ‘proof-of-work’, a class of consensus protocols for decentralised systems. ‘Ethereum’ and ‘Bitcoin’, along with various other cryptocurrencies, use implementations of such a consensus protocol. Among experts, the vast energy demand associated with the rising popularity of cryptocurrencies and the potential impact on climate change have been discussed extensively. It is, however, unclear what attitudes the users of cryptocurrencies themselves have towards the consequences of its growing energy demand. The proposed study aims to answer this question through survey research, using ‘Bitcoin’ as an archetype of a proof-of-work cryptocurrency. Conducting the study will reveal whether cryptocurrency users themselves consider their energy needs to be problematic, and which stakeholders they hold accountable to reduce consumption. The outcome can provide a theoretical grounding in social science for the ongoing implementation of alternative consensus models, for example in the context of the ‘Eth2’ upgrade of the ‘Ethereum’ blockchain.

Download Full-text

Impact of Rooftop PV Shading on Net Electrical Energy Demand of Buildings in Pakistan

Science Proceedings Series ◽

10.31580/sps.v3i1.1942 ◽

2021 ◽

Vol 3 (1) ◽

pp. 45-49

Author(s):

Muhammad Umar Maqbool ◽

Arslan Dawood Butt ◽

Abdul Rauf Bhatti ◽

Yawar Ali Sheikh ◽

Muhammad Waleed Asif

Keyword(s):

Energy Demand ◽

Heat Load ◽

Layer Structure ◽

Electrical Energy ◽

Position Angle ◽

Net Energy ◽

Ambient Conditions ◽

Pv System ◽

Roof Structure ◽

The Impact

This work performs a quantitative assessment of the impact of rooftop PV installation on building’s net energy demand using model of roof structure and steady state thermal simulations. For this purpose, roof structure typically used in Faisalabad, Pakistan is modeled with and without the shading effect due to a 395 W commercial rooftop PV setup. The simulated parameters include the impact of PV module’s dimensions, mounting position/angle alongside roof size and ambient conditions on heat load of air-conditioning system to maintain a temperature of 25 °C within building’s top floor. During the daylight hours of July, the heat load added by the roof on average reduces from 150.87 BTU/h/m2 without PV to 118.16 BTU/h/m2 with PV structure. This 20.05% reduction in energy demand has been achieved with July’s maximum daytime solar and infrared irradiances of 792.2 W/m2 and 466 W/m2 recorded at an average ambient temperature of 35.5 °C and wind speed of 2.75 m/s. This study provides valuable data on optimization of roof layer structure during building’s construction in anticipation of PV system installation at a later stage. Also developed techniques/methods to reduce building’s energy budget due to PV installation, can be valuable input for construction industry as well.

Download Full-text