Timothy Denen Akpenpuun, PhD

@unilorin.edu.ng

Senior Lecturer / Department of Agricultural and Biosystems Engineering, Faculty of Engineering and Technology
University of Ilorin, PMB 1515, Ilorin 240003, Nigeria

Timothy Denen Akpenpuun, PhD


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https://researchid.co/akpenpuun.td

RESEARCH, TEACHING, or OTHER INTERESTS

Engineering, Agricultural and Biological Sciences, Waste Management and Disposal, Environmental Engineering
26

Scopus Publications

774

Scholar Citations

17

Scholar h-index

24

Scholar i10-index

Scopus Publications

  • Analysis of temperature distribution in a naturally ventilated single-span greenhouse using computational fluid dynamics
    Oluwasegun Moses Ogundele, Jung-Hoo Kook, Sang-Min Kim, Jeong-In Choi, Niraj Tamrakar, et al.
    Journal of Agricultural Engineering, 2026
    Increasing global temperatures and unpredictable weather threaten agricultural production, intensifying the reliance on greenhouse cultivation. While naturally ventilated greenhouses offer an energy-efficient solution, their thermal performance under high heat loads is a growing concern. This study developed and validated a 3D CFD model to investigate the temperature distribution inside a single-span, naturally ventilated greenhouse. The model, implemented in ANSYS Fluent, considered the influence of external meteorological conditions, including solar radiation and wind, on the internal microclimate. The model demonstrated high accuracy, with an RMSE of 0.847°C and an MAE of 0.714°C for temperature when compared to experimental data. Diurnal analysis confirmed the dominant role of solar radiation, showing a strong correlation between indoor temperature and external solar radiation (r = 0.96) on sunny days. Spatially, the simulation revealed extreme thermal heterogeneity under high solar load, with a total internal temperature variation of up to 25°C (from 296 K to 321 K). The distribution was characterized by a distinct vertical stratification due to buoyancy and a strong longitudinal gradient, with the hottest air accumulating in the upper leeward corner. These findings highlight areas of potential crop heat stress and demonstrate the limitations of side-ventilation alone. The validated model serves as a valuable tool for optimizing ventilation strategies and improving climate control system design.
  • Development of a “PCM-in-container” energy storage model component for a possible building energy evaluation in TRNSYS 18
    Qazeem Opeyemi Ogunlowo, Timothy Denen Akpenpuun, Wook Ho Na, Misbaudeen Aderemi Adesanya, Anis Rabiu, et al.
    Journal of Agricultural Engineering, 2026
    Phase change materials (PCMs) offer a promising pathway toward net-zero energy buildings by enhancing thermal energy efficiency. By absorbing and storing heat during the day and releasing it at night, PCMs can reduce reliance on active heating and cooling systems. While PCMs have been widely studied both experimentally and numerically, limited research exists on configurations where PCM containers are in direct contact with surrounding air. This study developed a novel “PCM-in-container” component in TRNSYS 18 to simulate energy gains from such direct interactions. The component was integrated with greenhouse and weather modules in TRNSYS and validated experimentally using three model greenhouses containing air, water, and Vaseline as PCM substances. Model performance was assessed using R-squared (R²), correlation coefficient (CC), root mean square error (RMSE) and mean absolute error (MAE). For water-based PCM, values of R² = 0.97, CC = 0.99, RMSE = 2.01°C, and MAE = 1.33°C were obtained, demonstrating strong model accuracy. The results showed that PCM-filled containers (e.g., structural or railing pipes) could increase nighttime greenhouse temperatures by up to 7°C. The developed component enables energy gain simulations and nighttime heating predictions, offering a valuable tool for greenhouse energy demand evaluation. Although the current model does not account for hysteresis, future work may incorporate this through modifications in the TRNSYS Fortran environment.
  • Sustainable Cooling Solutions for Greenhouses under Humid Tropical Climate: A Preliminary Study of a Ground-to-Air Heat Exchanger Cooling System
    Research in Agricultural Sciences, 2026
  • Real-Time Strawberry Ripeness Classification and Counting: An Optimized YOLOv8s Framework with Class-Aware Multi-Object Tracking
    Oluwasegun Moses Ogundele, Niraj Tamrakar, Jung-Hoo Kook, Sang-Min Kim, Jeong-In Choi, et al.
    Agriculture Switzerland, 2025
    Accurate fruit counting is crucial for data-driven decision-making in modern precision agriculture. In strawberry cultivation, a labor-intensive sector, automated, scalable yield estimation is especially critical. However, dense foliage, variable lighting, visual ambiguity of ripeness stages, and fruit clustering pose significant challenges. To overcome these, we developed a real-time multi-stage framework for strawberry detection and counting by optimizing a YOLOv8s detector and integrating a class-aware tracking system. The detector was enhanced with a lightweight C3x module, an additional detection head for small objects, and the Wise-IOU (WIoU) loss function, thereby improving performance against occlusion. Our final model achieved a 92.5% mAP@0.5, outperforming the baseline while reducing the number of parameters by 27.9%. This detector was integrated with the ByteTrack multiple object tracking (MOT) algorithm. Our system enabled accurate, automated fruit counting in complex greenhouse environments. When validated on video data, results showed a strong correlation with ground-truth counts (R2 = 0.914) and a low mean absolute percentage error (MAPE) of 9.52%. Counting accuracy was highest for ripe strawberries (R2 = 0.950), confirming the value for harvest-ready estimation. This work delivers an efficient, accurate, and resource-conscious solution for automated yield monitoring in commercial strawberry production.
  • A review of emerging trends in circular manure management and the role of digital solutions
    Aliu Olamide Oyedun, Hammed Adeniyi Salami, Michael Mayokun Odewole, Lukman Omoniyi Lawal, Timothy Denen Akpenpuun, et al.
    Journal of the Saudi Society of Agricultural Sciences, 2025
    Livestock manure (LM) management is a crucial aspect of environmental preservation, material sustainability, and sustainable agriculture. However, inadequate LM management can lead to numerous environmental and health issues. To mitigate these negative impacts, improving manure processing conditions through circular manure management (CMM) practices has been widely promoted and implemented. Furthermore, livestock managers are actively utilizing digital technology (DT) and artificial intelligence (AI) to enhance this concept. This is achieved using decision support tools to plan and improve LM collection, storage, emission control, and resource recovery. This study reviews recent technological advancements in CMM practices, the nexus between CMM practices, and the roles of digital solutions. The findings indicate that models, AI, and decision support tools are effectively employed to estimate LM quality parameters. This enables livestock managers to optimize decisions that reduce methane (CH4) and nitrogen oxide (N2O) emissions while controlling ammonia (NH3) emissions on their farms. Technologies such as robotic scrapers and AI-driven collection systems that utilize smart sensors assist in effective LM collection and storage. Additionally, farmers can enhance soil fertility and decrease environmental pollution by fully exploring the nutrient potential in LM. This study examines how LM contributes to material and energy recovery through the creation of bioenergy and organic fertilizers. Despite the significant potential for LM reuse, several obstacles still limit its widespread application within CMM practices, particularly in developing nations. In these regions, the implementation of CMM is hindered by costs, lack of technical expertise, and inadequate infrastructure. Moreover, the widespread adoption of CMM practices is also influenced by geopolitical and economic factors, as observed in countries with inefficient waste management systems. To facilitate sustainable, large-scale CMM practices globally, this study recommends future research areas, including the need for practical, large-scale, cost-effective treatment technologies and the scalability of bioenergy systems in developing nations.
  • Experimental Evaluation of Hybrid Renewable and Thermal Energy Storage Systems for a Net-Zero Energy Greenhouse: A Case Study of Yeoju-Si
    Misbaudeen Aderemi Adesanya, Anis Rabiu, Qazeem Opeyemi Ogunlowo, Min-Hwi Kim, Timothy Denen Akpenpuun, et al.
    Energies, 2025
    The implementation of renewable energy systems (RESs) in the agricultural sector has significant potential to mitigate the negative effects of fossil fuel-based products on the global climate, reduce operational costs, and enhance crop production. However, the intermittent nature of RESs poses a major challenge to realizing these benefits. To address this, thermal energy storage (TES) and hybrid heat pump (HHP) systems are integrated with RESs to balance the mismatch between thermal energy production and demand. In pursuit of clean energy solutions in the agricultural sector, a 3942 m2 greenhouse in Yeoju-si, South Korea, is equipped with 231 solar thermal (ST) collectors, 117 photovoltaic thermal (PVT) collectors, four HHPs, two ground-source heat pumps (GSHPs), a 28,500 m3 borehole TES (BTES) unit, a 1040 m3 tank TES (TTES) unit, and three short-term TES units with capacities of 150 m3, 30 m3, and 30 m3. This study evaluates the long-term performance of the integrated hybrid renewable energy and thermal energy storage systems (HRETESSs) in meeting the greenhouse’s heating and cooling demands. Results indicate that the annual system performance efficiencies range from 25.3% to 68.5% for ST collectors and 31.9% to 72.2% for PVT collectors. The coefficient of performance (COP) during the heating season is 3.3 for GSHPs, 2.5 for HHPs using BTES as a source, and 3.6 for HHPs using TTES as a source. During the cooling season, the COP ranges from 5.3 to 5.7 for GSHPs and 1.84 to 2.83 for ASHPs. Notably, the HRETESS supplied 3.4% of its total heating energy directly from solar energy, 89.3% indirectly via heat pump utilization, and 7.3% is provided by auxiliary heating. This study provides valuable insights into the integration of HRETESSs to maximize greenhouse energy efficiency and supports the development of sustainable agricultural energy solutions, contributing to reduced greenhouse gas emissions and operational costs.
  • Removal of per- and polyfluoroalkyl substances in environmental matrices by biochars: mechanisms, fate, and research needs
    Bashir Adelodun, Oyebankole Agbelusi, Qudus Adeyi, Abdulhamid Yusuf, Fidelis Odedishemi Ajibade, et al.
    Biochar for Environmental Remediation Principles Applications and Prospects, 2025
  • Deep reinforcement learning for PID parameter tuning in greenhouse HVAC system energy Optimization: A TRNSYS-Python cosimulation approach
    Misbaudeen Aderemi Adesanya, Hammed Obasekore, Anis Rabiu, Wook-Ho Na, Qazeem Opeyemi Ogunlowo, et al.
    Expert Systems with Applications, 2024
  • Thermal performance and energy cost of Korean multispan greenhouse energy-saving screens
    Anis Rabiu, Misbaudeen Aderemi Adesanya, Wook-Ho Na, Qazeem O. Ogunlowo, Timothy D. Akpenpuun, et al.
    Energy, 2023
  • Simulation of greenhouse energy and strawberry (Seolhyang sp.) yield using TRNSYS DVBES: A base case
    Qazeem Opeyemi Ogunlowo, Timothy Denen Akpenpuun, Wook Ho Na, Misbaudeen Aderemi Adesanya, Anis Rabiu, et al.
    Solar Energy, 2023
  • Building Energy Simulation Model Application to Greenhouse Microclimate, Covering Material and Thermal Blanket Modelling: A Review
    T. D. Akpenpuun, Q. O. Ogunlowo, A. Rabiu, M. A. Adesanya, W. H. Na, et al.
    Nigerian Journal of Technological Development, 2022
  • TRNSYS Simulation and Experimental Validation of Internal Temperature and Heating Demand in a Glass Greenhouse
    Misbaudeen Aderemi Adesanya, Wook-Ho Na, Anis Rabiu, Qazeem Opeyemi Ogunlowo, Timothy Denen Akpenpuun, et al.
    Sustainability Switzerland, 2022
  • Determination of overall heat transfer coefficient for greenhouse energy-saving screen using Trnsys and hotbox
    Anis Rabiu, Wook-Ho Na, Timothy Denen Akpenpuun, Adnan Rasheed, Misbaudeen Aderemi Adesanya, et al.
    Biosystems Engineering, 2022
  • Effect of envelope characteristics on the accuracy of discretised greenhouse model in TRNSYS
    Qazeem Opeyemi Ogunlowo, Wook Ho Na, Anis Rabiu, Misbaudeen Aderemi Adesanya, Timothy Denen Akpenpuun, et al.
    Journal of Agricultural Engineering, 2022
  • Effect of Thermal Screen Position on Greenhouse Microclimate and Impact on Crop Growth and Yield
    E. Zakir, Q. O. Ogunlowo, T. D. Akpenpuun, W-H. Na, M. A. Adesanya, et al.
    Nigerian Journal of Technological Development, 2022
  • Effect of greenhouse cladding materials and thermal screen configuration on heating energy and strawberry (Fragaria ananassa var. “seolhyang”) yield in winter
    Timothy Denen Akpenpuun, Wook-Ho Na, Qazeem Opeyemi Ogunlowo, Anis Rabiu, Misbaudeen Aderemi Adesanya, et al.
    Agronomy, 2021
  • Impact of magnetically treated water on compressive and flexural strength of concrete
    K.O. Yusuf, T.D. Akpenpuun, S.O. David, C.H. Oluwayemi
    Nigerian Journal of Technological Development, 2021
  • Analysis of heat and mass distribution in a single-and multi-span greenhouse microclimate
    Qazeem Opeyemi Ogunlowo, Timothy Denen Akpenpuun, Wook-Ho Na, Anis Rabiu, Misbaudeen Aderemi Adesanya, et al.
    Agriculture Switzerland, 2021
  • Effect of glazing configuration as an energy-saving strategy in naturally ventilated greenhouses for strawberry (Seolhyang sp.) cultivation
    Timothy Denen Akpenpuun, Wook Ho Na, Qazeem Opeyemi Ogunlowo, Anis Rabiu, Misbaudeen Aderemi Adesanya, et al.
    Journal of Agricultural Engineering, 2021
  • The use of red earth, lateritic soils and quarry dust as an alternative building material in sandcrete block
    Banjo A. Akinyemi, Alhassan Elijah, Aladegboye Oluwasegun, Denen T. Akpenpuun, Owolaja Glory
    Scientific African, 2020
  • Strength and micro-structural properties of wood chips composite panel
    Timothy Denen Akpenpuun, Ridwan Gbadeyanka
    Bioresources, 2020
  • Mechanical and structural characteristics of cement mortars blended with locust bean pod ash
    Agricultural Engineering International Cigr Journal, 2019
  • Evaluation of a Greenhouse under Tropical Conditions Using Irish Potato (Solanum Tuberosum) as the Test Crop
    Timothy Denen Akpenpuun, Yahaya Mijinyawa
    Acta Technologica Agriculturae, 2018
  • A comparative study of using a wooden storage box and storage platform for white yam tuber storage
    Timothy AKPENPUUN, Banjo AKINYEMI, Tayo OYESOMI
    Acta Agriculturae Slovenica, 2018
  • Effectiveness of Moringa oleifera seed as a coagulant in domestic wastewater treatment
    K. A. Adeniran, T. D. Akpenpuun, B. A. Akinyemi, R. A. Wasiu
    African Journal of Science Technology Innovation and Development, 2017
  • Evaluation of potential of activated locust bean pod as a coagulant for domestic sewage treatment
    Timothy Denen Akpenpuun, Banjo A Akinyemi, Kamoru A Adeniran, M F Sulaiman, Bashir Adelodun
    Environmental Research Engineering and Management, 2017

RECENT SCHOLAR PUBLICATIONS

  • Development of a “PCM-in-container” energy storage model component for a possible building energy evaluation in TRNSYS 18
    QO Ogunlowo, TD Akpenpuun, WH Na, MA Adesanya, A Rabiu, ...
    Journal of Agricultural Engineering , 2026
    2026
    Citations: 2
  • Analysis of temperature distribution in a naturally ventilated single-span greenhouse using computational fluid dynamics
    OM Ogundele, JH Kook, SM Kim, JI Choi, N Tamrakar, S Karki, ...
    Journal of Agricultural Engineering 57 (2) , 2026
    2026
  • Sustainable Cooling Solutions for Greenhouses under Humid Tropical Climate: A Preliminary Study of a Ground-to-Air Heat Exchanger Cooling System
    AAQ Asiru, M Omobowale, TD Akpenpuun, Y Mijinyawa, MA Adesanya
    Research in Agricultural Sciences 57 (1), 57-64 , 2026
    2026
  • Advancements in vertical farming: A review of potentials, challenges, and prospects
    TD Akpenpuun, HO Sanusi, OM Ogundele, A Usman, AR Gbenga, ...
    Korean Journal of Agricultural Science 52 (4), 619-638 , 2025
    2025
    Citations: 1
  • Real-Time Strawberry Ripeness Classification and Counting: An Optimized YOLOv8s Framework with Class-Aware Multi-Object Tracking
    OM Ogundele, N Tamrakar, JH Kook, SM Kim, JI Choi, S Karki, ...
    Agriculture 15 (18), 1906 , 2025
    2025
    Citations: 6
  • A review of emerging trends in circular manure management and the role of digital solutions
    AO Oyedun, HA Salami, MM Odewole, LO Lawal, TD Akpenpuun, ...
    Journal of the Saudi Society of Agricultural Sciences 24 (4), 21 , 2025
    2025
    Citations: 9
  • Experimental Evaluation of Hybrid Renewable and Thermal Energy Storage Systems for a Net-Zero Energy Greenhouse a Case Study of Yeoju-Si
    MA Adesanya, A Rabiu, QO Ogunlowo, MH Kim, TD Akpenpuun, WH Na, ...
    Energies 18 (10), 23 , 2025
    2025
    Citations: 8
  • Nemli Tropikal İklimde Sera İçin Sürdürülebilir Soğutma Çözümleri: Topraktan-Havaya Isı Değiştirici Soğutma Sisteminin Ön Çalışması
    AAQ Asiru, M Omobowale, TD Akpenpuun, Y Mijinyawa, MA Adesanya
    2025
  • Decision Support System for Predicting Growth and Management of Selected Crops Using Growing Degree Days
    T Akpenpuun, R Azuatalam, A Olaifa, Q Akolade, A Usman, H Sanusi
    2025
    Citations: 2
  • Removal of per-and polyfluoroalkyl substances in environmental matrices by biochars: mechanisms, fate, and research needs
    B Adelodun, O Agbelusi, Q Adeyi, A Yusuf, FO Ajibade, A Abdullahi, ...
    Biochar for Environmental Remediation, 215-240 , 2025
    2025
  • Simulation and validation of the effect of horizontal and radial airflow on the microclimate of single-span greenhouses using CFD
    TD Akpenpuun, A Usman, MO Ojo, AA Danmusa, BT Aribisala, HO Sanusi
    GOMBE JOURNAL OF ADMINISTRATION AND MANAGEMENT (GJAM) 8 (4A), 256-266 , 2024
    2024
  • Deep reinforcement learning for PID parameter tuning in greenhouse HVAC system energy Optimization: A TRNSYS-Python cosimulation approach
    MA Adesanya, H Obasekore, A Rabiu, WH Na, QO Ogunlowo, ...
    Expert Systems with Applications 252, 124126 , 2024
    2024
    Citations: 70
  • Energy-economic-environmental analysis of a net-zero energy greenhouse with fan-coil units and hot-water pipes: Experiment and modelling
    MA Adesanya, WH Na, MH Kim, HW Lee
    Indoor and Built Environment 33 (8), 1542-1566 , 2024
    2024
    Citations: 7
  • Dynamic neural network modeling of thermal environments of two adjacent single-span greenhouses with different thermal curtain positions
    TD Akpenpuun, QO Ogunlowo, WH Na, P Dutta, A Rabiu, MA Adesanya, ...
    Journal of Agricultural Engineering 55 (2) , 2024
    2024
    Citations: 5
  • Dynamic modeling and techno-economic assessment of hybrid renewable energy and thermal storage systems for a net-zero energy greenhouse in South Korea
    MA Adesanya, AO Yakub, A Rabiu, AB Owolabi, QO Ogunlowo, A Yahaya, ...
    Clean Technologies and Environmental Policy 26 (2), 551-576 , 2024
    2024
    Citations: 17
  • Mechanical Strength, Characterization and Suitability of Cement-Plastic Concrete Admixture.
    SA ABUBAKAR, AO HAMZAT, TD AKPENPUUN
    Journal of Applied Sciences & Environmental Management 28 (2) , 2024
    2024
  • Effect of horizontal and radial airflow fans on the microclimate of single-span greenhouses and their yield
    P Dutta, TD Akpenpuun, WH Na, QO Ogunlowo, A Rabiu, MA Adesanya, ...
    Indian Journal of Agricultural Sciences 94, 224-228 , 2024
    2024
    Citations: 4
  • Review of Temperature Management Strategies and Techniques in the Greenhouse Microenvironment
    TD Akpenpuun, QO Ogunlowo, WH Na, A Rabiu, MA Adesanya, P Dutta, ...
    Adeleke University Journal of Engineering and Technology (AUJET) 6 (2), 126-147 , 2023
    2023
    Citations: 19
  • Thermal performance and energy cost of Korean multispan greenhouse energy-saving screens
    A Rabiu, MA Adesanya, WH Na, QO Ogunlowo, TD Akpenpuun, HT Kim, ...
    Energy 285, 129514 , 2023
    2023
    Citations: 16
  • Simulation of greenhouse energy and strawberry (Seolhyang sp.) yield using TRNSYS DVBES: A base case
    QO Ogunlowo, TD Akpenpuun, WH Na, MA Adesanya, A Rabiu, P Dutta, ...
    Solar Energy 266, 112196 , 2023
    2023
    Citations: 16

MOST CITED SCHOLAR PUBLICATIONS

  • Deep reinforcement learning for PID parameter tuning in greenhouse HVAC system energy Optimization: A TRNSYS-Python cosimulation approach
    MA Adesanya, H Obasekore, A Rabiu, WH Na, QO Ogunlowo, ...
    Expert Systems with Applications 252, 124126 , 2024
    2024
    Citations: 70
  • TRNSYS Simulation and Experimental Validation of Internal Temperature and Heating Demand in a Glass Greenhouse
    MA Adesanya, WH Na, A Rabiu, QO Ogunlowo, TD Akpenpuun, ...
    sustainability 14 (14), 32 , 2022
    2022
    Citations: 58
  • Physical and Combustible Properties of Briquettes Produced from a Combination of Groundnut Shell, Rice Husk, Sawdust and Wastepaper using Starch as a Binder
    TD AKPENPUUN, RA SALAU, AO ADEBAYO, OM ADEBAYO, J SALAWU, ...
    Journal of Applied Sciences and Environmental Management (JASEM) 24 (1), 171-177 , 2020
    2020
    Citations: 58
  • Determination of overall heat transfer coefficient for greenhouse energy-saving screen using Trnsys and hotbox
    A Rabiu, W Na, TD Akpenpuun, A Rasheed, MA Adesanya, QO Ogunlowo, ...
    Biosystems Engineering 217, 83-101 , 2022
    2022
    Citations: 48
  • Effectiveness of Moringa oleifera seed as a coagulant in domestic wastewater treatment
    KA Adeniran, TD Akpenpuun, BA Akinyemi, RA Wasiu
    African Journal of Science, Technology, Innovation and Development, 1-6 , 2017
    2017
    Citations: 42
  • Impact of climate on tuber crops yield in Kwara State, Nigeria
    TD Akpenpuun, RA Busari
    American International Journal of Contemporary Research 3 (10), 52-57 , 2013
    2013
    Citations: 42
  • Analysis of Heat and Mass Distribution in a Single- and Multi-Span Greenhouse Microclimate
    QO Ogunlowo, TD Akpenpuun, WH Na, A Rabiu, MA Adesanya, ...
    Agriculture 11 (9), 25 , 2021
    2021
    Citations: 28
  • Building Energy Simulation Model Application to Greenhouse Microclimate, Covering Material and Thermal Blanket Modelling: A Review
    TD Akpenpuun, QO Ogunlowo, A Rabiu, MA Adesanya, WWH Na, ...
    Nigerian Journal of Technological Development 19 (3), 276-286 , 2022
    2022
    Citations: 26
  • The use of red earth, lateritic soils and quarry dust as an alternative building material in sandcrete block
    BA Akinyemi, A Elijah, A Oluwasegun, DT Akpenpuun, O Glory
    Scientific African 7, e00263 , 2020
    2020
    Citations: 24
  • Climate change and its effect on grain crops yields in the middle belt in Nigeria
    Y Mijinyawa, TD Akpenpuun
    African Journal of Environmental Science and Technology 9 (7), 641-645 , 2015
    2015
    Citations: 22
  • Effect of glazing configuration as an energy-saving strategy in naturally ventilated greenhouses for strawberry (Seolhyang sp.) cultivation
    TD Akpenpuun, WH Na, QO Ogunlowo, A Rabiu, MA Adesanya, ...
    Journal of Agricultural Engineering 52 (2), 8 , 2021
    2021
    Citations: 21
  • Effect of Greenhouse Cladding Materials and Thermal Screen Configuration on Heating Energy and Strawberry (Fragaria ananassa var. “Seolhyang”) Yield in Winter
    TD Akpenpuun, WH Na, QO Ogunlowo, A Rabiu, MA Adesanya, ...
    Agronomy 11 (12), 24 , 2021
    2021
    Citations: 20
  • Review of Temperature Management Strategies and Techniques in the Greenhouse Microenvironment
    TD Akpenpuun, QO Ogunlowo, WH Na, A Rabiu, MA Adesanya, P Dutta, ...
    Adeleke University Journal of Engineering and Technology (AUJET) 6 (2), 126-147 , 2023
    2023
    Citations: 19
  • Dynamic modeling and techno-economic assessment of hybrid renewable energy and thermal storage systems for a net-zero energy greenhouse in South Korea
    MA Adesanya, AO Yakub, A Rabiu, AB Owolabi, QO Ogunlowo, A Yahaya, ...
    Clean Technologies and Environmental Policy 26 (2), 551-576 , 2024
    2024
    Citations: 17
  • Effect of envelope characteristics on the accuracy of discretised greenhouse model in TRNSYS
    QO Ogunlowo, WH Na, A Rabiu, MA Adesanya, TD Akpenpuun, HT Kim, ...
    Journal of Agricultural Engineering 53 (3) , 2022
    2022
    Citations: 17
  • Evaluation of a Greenhouse Under Tropical Conditions Using Irish Potato (Solanum Tuberosum) as the Test Crop
    TD AKPENPUUN, Y MIJINYAWA
    Acta Technologica Agriculturae 21 (2), 56 - 62 , 2018
    2018
    Citations: 17
  • Impact of climate on the yield of major tuber crops in Kwara State, Nigeria
    TD Akpenpuun, RA Busari
    Global Journal of Agricultural Sciences 16 (1), 61-65 , 2017
    2017
    Citations: 17
  • Thermal performance and energy cost of Korean multispan greenhouse energy-saving screens
    A Rabiu, MA Adesanya, WH Na, QO Ogunlowo, TD Akpenpuun, HT Kim, ...
    Energy 285, 129514 , 2023
    2023
    Citations: 16
  • Simulation of greenhouse energy and strawberry (Seolhyang sp.) yield using TRNSYS DVBES: A base case
    QO Ogunlowo, TD Akpenpuun, WH Na, MA Adesanya, A Rabiu, P Dutta, ...
    Solar Energy 266, 112196 , 2023
    2023
    Citations: 16
  • Impact of a split-gable greenhouse microclimate on the yield of irish potato (solanum tuberosum l.) under tropical conditions
    TD Akpenpuun, Y Mijinyawa
    Journal of Agricultural Engineering and Technology (JAET) 25 (1), 54-78 , 2020
    2020
    Citations: 13