Analyzing a Decade of Research on Industrial Kitchen Design: A Systematic Mapping with an Architectural Focus

Year 2025, Volume: 4 Issue: 1, 53 - 78, 31.07.2025

Tülay Tuncay , Burçin Cem Arabacıoğlu

Abstract

Industrial kitchens represent a shared field of study among numerous disciplines. Each discipline contributes uniquely and valuably to kitchen design. However, as these disciplines—ranging from social sciences to engineering—possess their own distinct languages and areas of focus, there is a need to synthesize the knowledge they produce. The present study aims to address this need. In line with this objective, a systematic literature review was conducted to examine studies on industrial kitchens published over the past ten years. The research process followed the PRISMA protocol, consisting of five main stages: planning, identification, screening, evaluation, and synthesis. The searches were carried out using the Web of Science and Scopus databases. After the removal of duplicate records, 1,819 unique studies were included for further evaluation. During the evaluation phase, both inclusion–exclusion criteria and a layered screening method were applied. A total of 70 studies were selected and subjected to descriptive and thematic analyses. The findings are discussed in detail under the evaluation section. Ultimately, it was observed that there is a lack of publications—both in quantity and quality—within the field of architecture, which plays a central role in defining the physical structure of industrial kitchens.

Keywords

Industrial Kitchen Design , Systematic Screening , Multidisciplinary Study

ENDÜSTRİYEL MUTFAK TASARIMI ALANINDA ON YILLIK LİTERATÜRÜN SİSTEMATİK HARİTALAMASI: MİMARLIK AÇISINDAN BİR DEĞERLENDİRME

Abstract

Endüstriyel mutfaklar pek çok farklı disiplinin ortak bir çalışma alanını oluşturmaktadır. Her bir disiplin mutfak tasarımına dair özgün ve değerli katkılar sunmaktadır. Ancak sosyal çalışmalardan mühendislik çalışmalarına kadar uzanan bu disiplinlerin her biri kendine has bir dile ve ilgi alanına sahip olduğundan ürettikleri bilgilerin harmanlanmasına ihtiyaç duyulmaktadır. Mevcut çalışma bu ihtiyacın giderilmesini amaçlamaktadır. Bu amaç doğrultusunda sistematik literatür taraması yöntemi ile geçtiğimiz on yıl içerisinde endüstriyel mutfaklar üzerine yapılmış çalışmalar incelenmiştir. Araştırma sürecinde PRISMA protokolü; planlama, tanımlama, tarama, değerlendirme ve sentezleme olmak üzere beş temel aşamada gerçekleştirilmiştir. Taramalar Web of Science ve Scopus veritabanları üzerinde gerçekleştirilmiştir. Yinelenen çalışmaların çıkarılmasından sonra elde kalan 1819 özgün çalışma değerlendirmeye alınmıştır. Değerlendirme aşamasında dahil etme – hariç tutma kriterleri ile birlikte katmanlı eleme yönteminden faydalanılmıştır. Çalışma kapsamına alınan 70 çalışma tanımlayıcı ve tematik analizlerden geçirilmiştir. Ulaşılan sonuçlar değerlendirme başlığında kapsamlı bir biçimde ele alınmıştır. Sonuç olarak endüstriyel mutfakları fiziksel açıdan ortaya koyan mimarlık disiplininde beklenilen sayıda ve nitelikte yayın olmadığı görülmüştür.

Keywords

Endüstriyel Mutfak Tasarımı , Sistematik Tarama , Multidisipliner Çalışma

References

• Arman, A., Nizamoğlu, H. F. (2020). Endüstriyel Mutfakların Planlanmasında Etkili Olan Faktörler. Journal of Tourism and Gastronomy Studies, 8(4), 2682-2702.
• Aşkın, H., Arabacıoğlu, B. C. (2021). İç Mekânda Kullanıcı ve Doğal Çevre Etkileşiminin Mental İyi Oluş Durumu Üzerindeki Etkisinin Mimar Sinan Güzel Sanatlar Üniversitesi Örneğinde Ölçülmesi. Sanat ve Tasarım Dergisi, 28, 53-73.
• Barreto Lyra, A. V. T., de Arruda Xavier, L., de Albuquerque, A. P. G., Melo, F. J. C. de, Medeiros, D. D. de. (2018). Combined approach of COOK CHILL with HACCP. Nutrition and Food Science, 48(3), 468-482.
• Bellè, U., Invernizzi, M., Polvara, E., Lucotti, A., Diamanti, M. V., Sironi, S., Pedeferri, M. (2022). A novel nanotubular TiO2-based Plug-Flow reactor for gas phase photocatalytic degradation of toluene. Chemical Engineering Journal, 437, 135323.
• Buell, R. W., Kim, T., Tsay, C.-J. (2017). Creating Reciprocal Value Through Operational Transparency. Management Science, 63(6), 1673-1695.
• Bumyut, A., Makkaew, P., Yadee, K., Hlamchoo, S., Binyoosoh, I., Precha, N. (2021). Assessment of food safety conditions at food service premises using Thai survey form and field fecal indicator testing in Pakpoon municipality of Nakhon Si Thammarat, Thailand. Food Science and Technology, 42, e47521.
• Can, G., Uzun, A. (2022). Bir Kamu Kurumunun Yemekhane Bölümündeki Tehlike Kaynaklarının Sıralama Temelli Ağırlıklandırma Yöntemleriyle Önceliklendirilmesi. Journal of Turkish Operations Management, 6(1), Article 1.
• Cavalcante, J. M. (2023). Work safety in food services. Revista brasileira de medicina do trabalho, 21(3), e20231060.
• Ceballos, D., Mead, K., Ramsey, J. (2015). Recommendations to Improve Employee Thermal Comfort When Working in 40°F Refrigerated Cold Rooms. Journal of Occupational and Environmental Hygiene, 12(9), D216-D221.
• Chen, H., Moraru, C. I. (2023). Exposure to 222 nm far UV-C effectively inactivates planktonic foodborne pathogens and inhibits biofilm formation. Innovative Food Science and Emerging Technologies, 87, 103411.
• Ching, C. L., Kamaruddin, A., Rajangan, C. S. (2021). Assessing the performance of a real-time total adenylate (ATP+ ADP+ AMP) detection assay for surface hygiene monitoring in food manufacturing plants and commercial kitchens. Journal of Food Protection, 84(6), 973-983.
• Cunha, D. T. da, Amorim, A. L. B. de, Leite, F. H. M., Stedefeldt, E., Rosso, V. V. de, Bandoni, D. H. (2019).
• Dimensioning of the physical area and required number of food handlers for school food services. Revista de Nutrição, 32, e180188.
• Çakır, H. A., Çakır, E. Z. (2021). Otel Mutfaklarında Çalışanların İş Sağlığı Ve Güvenliği İle Mutfak Ergonomisi Tutumlarına Yönelik Bir Araştırma. Sivas Interdisipliner Turizm Araştırmaları Dergisi, 4(1), 23-34.
• Dapari, R., Mahfot, M. H., Chiu Yan Yee, F., Ahmad, A. N. I., Magayndran, K., Ahmad Zamzuri, M. ‘Ammar I., Isa, Z. M., Hassan, M. R., Che Dom, N., Syed Abdul Rahim, S. S. (2023). Prevalence of recent occupational injury and its associated factors among food industry workers in Selangor. PLoS One, 18(11), e0293987.
• De Andrade, M. L., Stedefeldt, E., Zanin, L. M., da Cunha, D. T. (2020). Food safety culture in food services with different degrees of risk for foodborne diseases in Brazil. Food Control, 112, 107152.
• Djekic, I., Kuzmanović, J., An\djelković, A., Saračević, M., Stojanović, M. M., Tomašević, I. (2016). Effects of HACCP on process hygiene in different types of Serbian food establishments. Food Control, 60, 131-137.
• Dzwolak, W. (2017). Documenting HACCP in a small restaurant–a practical approach. Quality Assurance and Safety of Crops and Foods, 9(2), 187-194.
• Evans, E. W., Bulochova, V., Jayal, A., Haven-Tang, C. (2023). Attitudes towards using artificial intelligence to determine real-time hand hygiene compliance in the food sector. Food Control, 145, 109439.
• Fink, R., Okanovič, D., Dražič, G., Abram, A., Oder, M., Jevšnik, M., Bohinc, K. (2017). Bacterial adhesion capacity on food service contact surfaces. International Journal of Environmental Health Research, 27(3), 169-178.
• Flessas, M., Rizzardi, V., Tortorella, G. L., Fettermann, D., Marodin, G. A. (2015). Layout performance indicators and systematic planning: A case study in a southern Brazilian restaurant. British Food Journal, 117(8), 2098-2111.
• Fuste-Forne, F. (2021). Robot chefs in gastronomy tourism: What’s on the menu? Tourism Management Perspectives, 37, 100774.
• Gabriel, A. A., Ugay, M. C. C. F., Siringan, M. A. T., Rosario, L. M. D., Tumlos, R. B., Ramos, H. J. (2016). Atmospheric pressure plasma jet inactivation of Pseudomonas aeruginosa biofilms on stainless steel surfaces. Innovative Food Science and Emerging Technologies, 36, 311-319.
• Green, D. R., Anthony, T. R. (2015). Occupational Noise Exposure of Employees at Locally-Owned Restaurants in a College Town. Journal of Occupational and Environmental Hygiene, 12(7), 489-499.
• Güngör, O., Yücel Güngör, M. (2024). Automation in gastronomy: Use of smart cooking systems in industrial kitchens. Worldwide Hospitality and Tourism Themes, 16(2), 190-201.
• Han, O., Li, A., Kosonen, R. (2019). Hood performance and capture efficiency of kitchens: A review. Building and Environment, 161, 106221.
• Han, W., Wu, Z., Li, Y., Wang, Y. (2019). Graphene family nanomaterials (GFNs)—promising materials for antimicrobial coating and film: A review. Chemical Engineering Journal, 358, 1022-1037.
• Hassanain, M. A., Sawalha, H., Hamida, M. B., Alshibani, A., Zami, M. S. (2024). Fire hazard management in dining properties: A case study. International Journal of Emergency Services, 13(3), 271-284.
• Kaur, N., Esa, W., Zahlan, Y., Dony, J. F., Rahim, S., Jeffree, M. S., Lukman, K. A., Madrim, M. F., Ahmad, Z. N. S. (2021). Factors of Food Premises Not Attaining" A" Grading in Sabah, Malaysia Borneo. Universal Journal of Public Health, 9(5), 339-343.
• Kfouri, T., Fernandes, A. C., Bernardo, G. L., Proença, L. C., Uggioni, P. L., Rodrigues, V. M., da Costa Proença, R. P. (2022). Sustainable solid waste management in restaurants: The case of the Ecozinha Institute, Brazil. International Journal of Gastronomy and Food Science, 27, 100464.
• Kim, M., Park, S. Y., Ha, S.-D. (2016). Synergistic effect of a combination of ultraviolet–C irradiation and sodium hypochlorite to reduce Listeria monocytogenes biofilms on stainless steel and eggshell surfaces. Food Control, 70, 103-109.
• Kitchenham, B. (2004). Procedures for performing systematic reviews. Keele, UK, Keele University, 33(2004), 1-26.
• Kong, M., Zhang, J. (2016). Life-cycle cost and benefit analysis of utilizing hoods for light-duty cooking appliances in commercial kitchens (RP-1631, part 2). Science and Technology for the Built Environment, 22(6), 866-882.
• Lai, H., Liu, M., Chen, X., Ren, F., Xu, M., Jiao, X., Huang, J., Li, Q. (2025). Assessment of microbial contamination in various processing rooms using culture-dependent and 16S rRNA methods in a commercial kitchen in eastern China. Food Control, 168, 110931.
• Landi, D., Rossi, M., Favi, C., Brunzini, A., Germani, M. (2020). A virtual design approach to simulate the hob energy performance. Computer-Aided Design and Applications, 17(5), 1101-1115.
• Leong, K. B. R., Ng, Q. X., Gan, W. H., Ng, W. T., Lim, J. W. (2024). Epidemiology of work-related injuries, musculoskeletal disorders and dermatitis among hospital food service workers in a tertiary hospital in Asia. Journal of Occupational Medicine and Toxicology, 19(1), 18.
• Li, J. (2020). Synergetic effect of N/P/B coordinated Fe/Co on carbon support catalysts for removing odor-chemicals of cooking source. SN Applied Sciences, 2(12), 2123. https://doi.org/10.1007/s42452-020-03968-5 Li, J. (2021). Insights into cooking sources in the context of sustainable development goals. Sustainable Production and Consumption, 26, 517-531.
• Lima, de S. R. G., Mahler, C. F. (2020). Evaluation Of New Small-Scale Composting Practices With Energy Recovery. Detritus, 10, 3.
• Lv, L., Zeng, L., Wu, Y., Gao, J., Xie, W., Cao, C., Zhang, J. (2021). The application of an air curtain range hood in reducing human exposure to cooking pollutants. Building and Environment, 205, 108204.
• Markkanen, P., Peters, S. E., Grant, M., Dennerlein, J. T., Wagner, G. R., Burke, L., Wallace, L., Sorensen, G. (2021). Development and application of an innovative instrument to assess work environment factors for injury prevention in the food service industry. Work, 68(3), 641-651.
• Mudie, S., Vahdati, M. (2017). Fat, oil and grease reduction in commercial kitchen ductwork: A novel biological approach. Waste Management, 61, 28-39.
• Muduli, K., Syed, S. A., Kommula, V. P., Moharana, B. R., Behera, B. C. (2023). Assessment of musculoskeletal disorder in food service industry in emerging economies. International Journal of Process Management and Benchmarking, 14(4), 558-580.
• Nagler, E. M., Stelson, E. A., Karapanos, M., Burke, L., Wallace, L. M., Peters, S. E., Nielsen, K., Sorensen, G. (2021). Using Total Worker Health® implementation guidelines to design an organizational intervention for low-wage food service workers: The workplace organizational health study. International Journal of environmental research and public health, 18(17), 9383.
• Ngoc, P. V. B., Nguyen, N. H., Thien, N. L. (2023). Real-Time Fire and Smoke Detection for Trajectory Planning and Navigation of a Mobile Robot. Engineering, Technology and Applied Science Research, 13(5), 11843-11849.
• Page, M. J., Moher, D., Bossuyt, P. M., Boutron, I., Hoffmann, T. C., Mulrow, C. D., Shamseer, L., Tetzlaff, J. M., Akl, E. A., Brennan, S. E., Chou, R., Glanville, J., Grimshaw, J. M., Hróbjartsson, A., Lalu, M. M., Li, T., Loder, E. W., Mayo-Wilson, E., McDonald, S., McKenzie, J. E. (2021). PRISMA 2020 explanation and elaboration: Updated guidance and exemplars for reporting systematic reviews. BMJ, 372, n160.
• Parvez, M. O., Hossain, M. S., Islam, M. S., Eluwole, K. K. (2024). Customers’ acceptance of AI-powered robot chefs in casual dining restaurants. Journal of Hospitality and Tourism Insights.
• Pellegrino, R., Crandall, P. G., O’Bryan, C. A., Seo, H.-S. (2015). A review of motivational models for improving hand hygiene among an increasingly diverse food service workforce. Food Control, 50, 446-456.
• Peng, C.-Y., Hsieh, H.-M., Li, M.-Y., Liaw, L.-J., Wang, C.-L., Pan, C.-H., Wu, M.-T. (2021). Gender differences and site-specific incident risks of musculoskeletal disorders among 224 506 workers in the food and beverage service industry in Taiwan: A 15-year Nationwide Population-Based Cohort Study. Journal of occupational health, 63(1), e12214.
• Pereira, D., Bozzato, A., Dario, P., Ciuti, G. (2022). Towards Foodservice Robotics: A taxonomy of actions of foodservice workers and a critical review of supportive technology. IEEE Transactions on Automation Science and Engineering, 19(3), 1820-1858.
• Peters, S. E., Nielsen, K. M., Nagler, E. M., Revette, A. C., Madden, J., Sorensen, G. (2020). Ensuring organization-intervention fit for a participatory organizational intervention to improve food service workers’ health and wellbeing: Workplace organizational health study. Journal of Occupational and Environmental Medicine, 62(2), e33-e45.
• Pinto, E. de O., Aquino, C. R., COSTA, G. da, Campos, L., Rodrigues, Y., Thode Filho, S. (2022). A preliminary study of environmental risks through the gut matrix: Application in an industrial kitchen. Food Science and Technology, 42, e12622.
• Pollock, A., Berge, E. (2018). How to do a systematic review. International Journal of Stroke, 13(2), 138-156. Ray, C., Määttä, S., Lehto, R., Roos, G., Roos, E. (2016). Influencing factors of children’s fruit, vegetable and sugar-enriched food intake in a Finnish preschool setting–Preschool personnel’s perceptions. Appetite, 103, 72-79.
• Reichard, A. A., Konda, S., Jackson, L. L. (2015). Occupational burns treated in emergency departments. American Journal of Industrial Medicine, 58(3), 290-298.
• Ricci, A., Martelli, F., Razzano, R., Cassi, D., Lazzi, C., Neviani, E., Bernini, V. (2020). Service temperature preservation approach for food safety: Microbiological evaluation of ready meals. Food Control, 115, 107297.
• Rondinella, A., Andreatta, F., Turrin, D., Fedrizzi, L. (2021). Degradation mechanisms occurring in PTFE-based coatings employed in food-processing applications. Coatings, 11(11), 1419.
• Saad, M., Sahrir, M. S., Abdullah, N., Jeinie, M. H., Mokhtar, M. K. (2024). A mapping review of challenges in existing technology-based occupational safety training in the tourism and hospitality industry: Research potential in commercial kitchens. International Journal of Occupational Safety and Health, 14(3), 412-423.
• Saad, M., Sahrir, M. S., Jeinie, M. H. (2024). Developing a valid VR-based safety tool framework for hospitality TVET: A Fuzzy Delphi analysis with academic and industry experts. Journal of Infrastructure, Policy and Development, 8(8), 5662.
• Salim, N. A. N., Asmuin, N., Hariri, A., Sies, M. F., Zakaria, H., Idris, A. F., Afandi, A., Bosiran, M. A., Taib, I., Arifin, A. M. T. (2022). Experimental Investigation on Filtration and Cooling Effect of Kitchen Hood Ventilation System from Water-Mist Recirculation Spray: Water-Mist Spray Cycle. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 90(1), 64-79.
• Samandoulgou, I., Hammami, R., Morales Rayas, R., Fliss, I., Jean, J. (2015). Stability of Secondary and Tertiary Structures of Virus-Like Particles Representing Noroviruses: Effects of pH, Ionic Strength, and Temperature and Implications for Adhesion to Surfaces. Applied and Environmental Microbiology, 81(22), 7680-7686.
• Samudro, H., Samudro, G., Mangkoedihardjo, S. (2022). Retrospective study on indoor bioaerosol-prospective improvements to architectural criteria in building design. Israa University Journal of Applied Science, 6(1).
• Schestak, I., Spriet, J., Styles, D., Williams, A. P. (2020). Emissions down the drain: Balancing life cycle energy and greenhouse gas savings with resource use for heat recovery from kitchen drains. Journal of Environmental Management, 271, 110988.
• Shankar, S., Shanmugam, M., Srinivasan, J. (2015). Workplace factors and prevalence of low back pain among male commercial kitchen workers. Journal of Back and Musculoskeletal Rehabilitation, 28(3), 481-488.
• Singh, A., Kamal, R., Mudiam, M. K. R., Gupta, M. K., Satyanarayana, G. N. V., Bihari, V., Shukla, N., Khan, A. H., Kesavachandran, C. N. (2016). Heat and PAHs emissions in indoor kitchen air and its impact on kidney dysfunctions among kitchen workers in Lucknow, North India. Plos one, 11(2), e0148641.
• Singh, A. P., McNabola, A. (2023). Reducing the Energy and Environmental Impact of Commercial Kitchen Water Use: Assessment of Wastewater Heat Recovery in a Grease Interceptor and Its Impact on Fat, Oil, and Grease Removal Capabilities. Journal of Environmental Engineering, 149(9), 04023050.
• Singh, A. P., Spriet, J., McNabola, A. (2023). Experimental and numerical investigation of drain water heat recovery in a grease interceptor. Journal of Cleaner Production, 403, 136799.
• Spriet, J., Singh, A. P., Considine, B., Murali, M. K., McNabola, A. (2023). Design and Long-Term Performance of a Pilot Wastewater Heat Recovery System in a Commercial Kitchen in the Tourism Sector. Water, 15(20), 3646.
• Susanna, D., Eryando, T., Kusuma, A., Indrawani, Y. M. (2015). The correlation between the storage of food ingredients before preparation and leftover or unprocessed ingredient storage to E.coli contamination in campus’ food service. International Journal of Tropical Medicine, 10(3), 10-16.
• Tavakkoli, H., Zabihi, A., Khatibi, S. A., Nasiri, T., Kaviani, L., Dopeykar, N. (2015). Status of prerequisite programs for the implementation of HACCP system in chain restaurants in Iran. British Food Journal, 117(6), 1753-1763.
• Teyin, G., Seçim, Y. (2023). Opinions of Kitchen Workers on Industrial Kitchen Planning. Journal of Culinary Science and Technology, 21(2), 328-341.
• Tiberi, E., Piller, M., Bozzato, A., Toneatti, L., Pozzetto, D. (2022). Design and assessment of an innovative thawing equipment for the professional food service. Journal of Thermal Science and Engineering Applications, 14(7), 071014.
• Varlı, S. N., Bilici, S., Arı, P. E., Gaga, E. O., İlhan, M. N., Arı, A. (2024). Lung deposition of PM-bound trace elements and corresponding human health risk assessment in commercial kitchens serving Mediterranean cuisine. Atmospheric Pollution Research, 15(9), 102227.
• Wu, T.-C., Peng, C.-Y., Hsieh, H.-M., Pan, C.-H., Wu, M.-T., Lin, P.-C., Wu, C.-F., Hsieh, T.-J. (2021). Reduction of aldehyde emission and attribution of environment burden in cooking fumes from food stalls using a novel fume collector. Environmental Research, 195, 110815.
• Yang, C., Zhong, T., Li, J., You, S., Yang, S., Zhang, H., Zheng, Z. (2022). Extended tube acoustic metamaterial: Its modeling and application to a kitchen hood. Applied Acoustics, 185, 108398.
• Yılmaz, İ., Akay, E. (2023). Ticari Mutfaklarda Tasarım ve Ergonomi Üzerine Bir Değerlendirme. Türk Bilimsel Derlemeler Dergisi, 16(2), 47-57.
• Zhang, A., Deng, N., Shen, C., Hao, R., Liu, J., Wang, Y., Long, Z. (2020). Survey study on Chinese commercial kitchen exhaust fume systems in Tianjin. Building and Environment, 171, 106629.
• Zhang, C., Yang, F., Xia, Y., He, L., Yu, Y., Zeng, L., Cao, C., Gao, J. (2024). Make-up air optimization and demand exhaust rate of commercial kitchens under multiple cookers operation. Journal of Building Engineering, 89, 109274.
• Zhao, D., You, X. (2021). Cooking grease particles purification review and technology combination strategy evaluation for commercial kitchens. Building Simulation, 14(6), 1597-1617.
• Zhong, C., Reibman, A. R., Mina, H. A., Deering, A. J. (2021). Designing a computer-vision application: A case study for hand-hygiene assessment in an open-room environment. Journal of Imaging, 7(9), 170.