Derek B. Ingham’s research while affiliated with The University of Sheffield and other places

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Publications (271)


Fig. 2. Solid-liquid phase for Wheat straw (3) obtained by the FactSage equilibrium modelling.
Fig. 3. Comparison between melt fraction by TEM, M f and predictive BAI index, I a .
Chemical ash compositions for various types of biomass [7,20-27].
An improved numerical model for early detection of bed agglomeration in fluidized bed combustion
  • Article
  • Full-text available

January 2025

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5 Reads

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Derek B. Ingham

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Techno-economic assessment of vertical axis wind turbine driven RO desalination with compressed air energy storage for remote communities

September 2024

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63 Reads

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2 Citations

Desalination

Renewable energy desalination is gaining much attention in remote off-grid communities facing challenges in accessing clean water. Typically, batteries ensure the continuous operation of small-scale renewable reverse osmosis (RO) desalination systems; however, they are expensive and have relatively shorter lifespans. This study investigates the implementation of a compressed air energy storage (CAES) system coupled with a vertical axis wind turbine (VAWT) to directly drive small-scale RO desalination, potentially replacing batteries and reducing energy conversions. A Simulink model was developed to simulate the performance of a VAWT-driven CAES operating RO units, adaptable for both technical and economic assessments. Parametric studies have identified the optimal configuration. The most cost-effective configuration, utilising eleven VAWTs and a pressure exchanger (PX), achieves a levelised cost of water (LCOW) of 1.63 US$/m3 and an annual water production of 9400 m3. The normalised daily water production per square metre of turbine swept area at the study site is 0.19 m3/m2/day at an average wind speed of 5 m/s. While this configuration has a higher initial capital cost, it yields the lowest LCOW. The CAES system effectively addresses the intermittency challenges of wind energy. This study presents a novel, battery-free VAWT-CAES-RO system as a sustainable desalination solution for remote communities, offering a promising approach to address water scarcity in an environmentally friendly manner.



Impact of the blending of kaolin on particulate matter (PM) emissions in a biomass field-scale 250 kW grate boiler

July 2024

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87 Reads

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3 Citations

Fuel

The aim of the study was to investigate the impact of adding kaolin on the partitioning of chemical elements in the particulate matter (PM) when virgin and waste woody biomass fuels were fired in a 250 kW grate boiler. A comprehensive analysis of the chemical compositions of the PM has been conducted, including alkali and non-volatile species, size-fractionated mass concentrations and micromorphology images. The results showed that the PM emission levels were significantly decreased by approximately 70-76 % and 60-66 % after the addition of kaolin to virgin wood (VW) and grade A recycled wood (RW), respectively, which inhibited the partitioning of the alkali species into fine and ultrafine PM. On the other hand, the concentration of the non-volatile elements, SiO 2 and Al 2 O 3 , significantly increased in the PM emissions after the addition of kaolin due to the adhesion and aggregation of particulates between airborne kaolin and the fine and ultrafine PM. Moreover, the addition of the kaolin at 1.55 wt% showed comparable effects with that at 2.5 wt% on the chemical composition of PM emission. Furthermore, the SEM morphology suggested that KCl salts were diminished after the addition of the kaolin. These findings demonstrate the practicality of adding kaolin to mitigate PM emissions and their impacts in actual biomass combustion scenarios.



Techno-Economic Assessment of Molten Salt-Based Concentrated Solar Power: Case Study of Linear Fresnel Reflector with a Fossil Fuel Backup under Saudi Arabia's Climate Conditions

June 2024

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73 Reads

Energies

Concentrated solar power (CSP) has gained traction for generating electricity at high capacity and meeting base-load energy demands in the energy mix market in a cost-effective manner. The linear Fresnel reflector (LFR) is valued for its cost-effectiveness, reduced capital and operational expenses, and limited land impact compared to alternatives such as the parabolic trough collector (PTC). To this end, the aim of this study is to optimize the operational parameters, such as the solar multiple (SM), thermal energy storage (TES), and fossil fuel (FF) backup system, in LFR power plants using molten salt as a heat transfer fluid (HTF). A 50 MW LFR power plant in Duba, Saudi Arabia, serves as a case study, with a Direct Normal Irradiance (DNI) above 2500 kWh/m 2. About 600 SM-TES configurations are analyzed with the aim of minimizing the levelized cost of electricity (LCOE). The analysis shows that a solar-only plant can achieve a low LCOE of 11.92 ¢/kWh with a capacity factor (CF) up to 36%, generating around 131 GWh/y. By utilizing a TES system, the SM of 3.5 and a 15 h duration TES provides the optimum integration by increasing the annual energy generation (AEG) to 337 GWh, lowering the LCOE to 9.24 ¢/kWh, and boosting the CF to 86%. The techno-economic optimization reveals the superiority of the LFR with substantial TES over solar-only systems, exhibiting a 300% increase in annual energy output and a 20% reduction in LCOE. Additionally, employing the FF backup system at 64% of the turbine's rated capacity boosts AEG by 17%, accompanied by a 5% LCOE reduction. However, this enhancement comes with a trade-off, involving burning a substantial amount of natural gas (503,429 MMBtu), leading to greenhouse gas emissions totaling 14,185 tonnes CO 2 eq. This comprehensive analysis is a first-of-a-kind study and provides insights into the optimal designs of LFR power plants and addresses thermal, economic, and environmental considerations of utilizing molten salt with a large TES system as well as employing natural gas backup. The outcomes of the research address a wide audience including academics, operators, and policy makers.



Polymer electrolyte fuel cell operating with nickel foam-based gas diffusion layers: A numerical investigation

May 2024

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39 Reads

International Journal of Hydrogen Energy

Due to their outstanding structural, transport and electrical characteristics, nickel foams serve as excellent candidate materials for gas diffusion layers (GDLs) in polymer electrolyte fuel cells (PEFCs). In this work, a new three-dimensional PEFC model was developed to explore the local and global fuel cell performance with nickel foam-based GDLs. The fuel cell operating with nickel foam GDLs was shown to have, due to its superior mass and charge transport properties, higher oxygen and water concentration and current density compared to that operating with the conventional carbon fibre-based GDLs. The results show that the pumping power should be taken into account when optimising the dimensions of the flow channels and as such the net power density must be the criterion for optimisation. The optimal dimensions of the flow channels for the fuel cell operating with nickel foam based GDLs were found to be 0.25 mm for the channel height and 1 mm for the channel width; the maximum net power density with these dimensions was around 0.95 W/cm2 which is two times higher than that operating with carbon fibre based GDLs. All the results have been presented and critically discussed.


Citations (64)


... However, in the case of hybrid energy systems in terms of cost of energy, Ref. [54] indicates that using HAWT-based hybrid systems is more costeffective than that of VAWT-based systems. Ref. [55] suggests a novel, battery-free VAWTcompressed air energy storage reverse osmosis system as a sustainable desalination solution for off-grid environments with a scarcity of water. In this study, the most cost-effective configuration of eleven VAWTs and a pressure exchanger obtained a levelized cost of water of 1.63 USD/m 3 and an annual water production of 9400 m 3 . ...

Reference:

Addressing VAWT Aerodynamic Challenges as the Key to Unlocking Their Potential in the Wind Energy Sector
Techno-economic assessment of vertical axis wind turbine driven RO desalination with compressed air energy storage for remote communities

Desalination

... With annual emissions exceeding 30 gigatons, CO₂ from fossil fuels contributes to over 60% of global warming [4][5][6][7]. The Paris Agreement aims to limit global warming to 1.5 • C by 2100 [8,9].To mitigate CO₂ effects, various methods have been employed, including emission reduction, carbon capture and storage, and CO₂ utilization through conversion into valuable chemicals. Carbon Capture and Utilization (CCU) has emerged as an attractive approach for reducing CO₂ levels while using it as a carbon source, potentially increasing financial and social acceptance of this method [10][11][12].Several chemical processes can utilize CO₂ as a feedstock for producing essential chemicals such as Methanol, ethanol, and formic acid. ...

Techno economic and life cycle assessment of olefin production through CO2 hydrogenation within the Power-to-X concept

Journal of Cleaner Production

... The concentrations of K, S, Cl, Zn, Ba, and Cr were notably higher in winter than in other seasons ( Figure 2). S primarily originates from coal burning, while Cl and K are largely attributed to biomass combustion [69]. Therefore, the elevated use of coal and biofuels for heating in winter contributed to the higher concentrations of these elements. ...

Impact of the blending of kaolin on particulate matter (PM) emissions in a biomass field-scale 250 kW grate boiler

Fuel

... Thus, a non-premixed flame was applied in our work since it is similar to the conditions in practical aero-engines. Various numerical and experimental investigations have shown that non-premixed flames show localized extinction progressively when approaching global blowoff [19,[34][35][36][37][38][39][40]. Our work aimed to study the effects of external acoustic force on combustion instability and blowoff characteristics in non-premixed swirling flames, elucidating the mechanism behind the blowoff events and offering new strategies to extend the blowoff limits. ...

Combustion and lift-off characteristics near blow-off conditions of NH 3 -CH 4 swirling flame using LES
  • Citing Conference Paper
  • January 2024

... As a result of increasingly stringent emission standards related to energy production, there has been a gradual shift away from traditional fossil fuels towards more diverse renewable sources and hydrogen. Hydrogen is currently one of the most desirable gases due to its wide range of applications in various industries [1,2]. The use of hydrogen enables the use and transport of energy from renewable sources on a much larger scale than just through direct electricity generation. ...

Comprehensive process simulation of a biomass-based hydrogen production system through gasification within the BECCS concept in a commercial two-stage fixed bed gasifier

Energy Conversion and Management

... The accurate calculation of trusted capacity can avoid the risk of sufficient system capacity caused by the uncertainty of power generation resource capacity supply and is conducive to further exploring the capacity value of different power generation resources. To effectively evaluate the credible capacity of power generation resources, references [15][16][17] fully consider the output uncertainties of generating units with new energy and measure the credible capacity of new energy in the capacity market by mining the correlation between power source and load. References [18,19] focus on the evaluation of credible capacity under the interaction of diverse power generation resources, improving the credible capacity of hybrid power generation resources through output complementarity and optimization coordination. ...

Comparative techno-economic assessment and minimization of the levelized cost of electricity for increasing capacity wind power plants by row and angle layout optimization
  • Citing Article
  • November 2023

Journal of Cleaner Production

... Nevertheless, due to the complexity of MEAs in fuel cells, contemporary simulations of PEMFCs have predominantly been confined to idealized two-dimensional or three-dimensional models based on homogeneous descriptions of MEA materials [32][33][34][35] . Furthermore, where three-dimensional modelling has been used, it has commonly emphasized single-physics fluid simulations within the gas channels or simplified multi-physics simulations, excluding consideration of electrochemical processes, which neglects the critical interaction between fluid dynamics and electrochemical processes 33,36,37 . Importantly, X-ray micro-computed tomography (µ-CT), coupled with machine learning segmentation, has nonetheless enabled the non-destructive visualisation of full MEAs and the ability to distinguish between the different components and has proven effective for experimental characterization of catalysts, PA migration, and porous media porosity in HT-PEMFCs 10 . ...

X-ray CT-based numerical investigation of nickel foam-based GDLs under compression

International Journal of Hydrogen Energy

... The lift-type Darrieus wind turbine, which has attracted much attention among vertical-axis wind turbines, suffers from the drawbacks of low starting torque and difficulty in self-starting [6]. In order to improve its starting performance, Huang [7] designed a hybrid wind turbine with dual Darrieus rotors, which effectively achieved the design purpose. ...

Novel hybrid blade design and its impact on the overall and self-starting performance of a three-dimensional H-type Darrieus wind turbine

Journal of Fluids and Structures

... Fuel cells have emerged as a promising and environmentally sound energy source due to their capacity to produce energy through electrochemical reactions with little to no negative emissions [9][10][11][12][13]. Fuel cells are drawn back by low stability, high cost of platinum, and the slow speed of the electrocatalytic cell reactions [14]. Because of their remarkable mechanical, electrical, and optical properties, nanomaterials have become essential in overcoming the challenges that fuel cells encounter. ...

Air-breathing polymer electrolyte fuel cells: A review
  • Citing Article
  • June 2023

Renewable Energy

... Properly addressing these resistances is crucial to avoid substantial losses during fuel cell operation [12]. There have been many investigations into how best to decrease the contact resistance between the GDL and BPP; investigations have been carried out using simulations [9] and experimentation [7,[13][14][15][16][17][18][19]. The main findings from these studies is that the contact resistance can be decreased with the application of an MPL, in particular, a double-sided MPL-coated GDL. ...

Single- and Double-Sided Coated Gas Diffusion Layers Used in Polymer Electrolyte Fuel Cells: A Numerical Study

Energies