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Innovative Research in Civil and Environmental Engineering (IRCEE)
Published by CV. Sinar Howuhowu
ISSN : -     EISSN : 30890985     DOI : https://doi.org/10.70134/ircee
Core Subject : Engineering,
Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Engineering
Innovative Research in Civil and Environmental Engineering (IRCEE) is an academic journal committed to publishing high-caliber articles that contribute to advancing research in the fields of civil engineering and environmental sciences. IRCEE provides a platform for researchers, engineers, and professionals to share cutting-edge findings and novel approaches within these disciplines. The journal accepts a diverse range of manuscripts that address key topics such as material science innovations, structural engineering advancements, geotechnical solutions, construction management strategies, water resources engineering, and transportation system development. Additionally, IRCEE focuses on implementation techniques, workplace health and safety protocols, and comprehensive approaches to the planning, operation, evaluation, and maintenance of infrastructure projects like buildings, bridges, and environmental systems.
Arjuna Subject : Teknik (semua kategori) - Teknik Sipil dan Struktur
Articles 17 Documents
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Analysis Of The Kampung Batu Malakasari Baleendah Swimming Pool In Bandung On Sustainable Tourism And Its Impact On The Community Arba, Arsya; Ramdani, Dadan
Innovative Research in Civil and Environmental Engineering Vol. 2 No. 1 (2025): IRCEE - April
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/ircee.v2i2.671

Abstract

This study aims to analyze the contribution of the Kampung Batu Malakasari Swimming Pool, located in Baleendah, Bandung, to the development of sustainable tourism and its impact on the local community. The research method used was qualitative, with data collection techniques including interviews, observation, and documentation. The results indicate that the presence of Kampung Batu Malakasari has had positive impacts socially, economically, and environmentally. The surrounding community experienced direct benefits in the form of job creation, increased income, and business opportunities through the MSME sector. Meanwhile, tourists expressed satisfaction with the friendly service, diverse attractions, and clean and well-maintained environment. Although official data on budget allocation is not yet available, the analysis indicates that the development of infrastructure, public facilities, and sanitation systems at the tourist site reflects sound management and supports sustainability principles. This study recommends strengthening budget planning and community involvement in tourism development to ensure long-term benefits.
Qualitative Study Of Maintenance Of Wooden Structures Of Traditional Houses In Damp Environments Zebua, Dermawan; Giawa, Jun Fajar Krisman
Innovative Research in Civil and Environmental Engineering Vol. 2 No. 1 (2025): IRCEE - April
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/ircee.v2i1.723

Abstract

The maintenance of wooden structures in traditional houses located in humid environments poses significant challenges due to the high risk of damage caused by moisture, fungal growth, and termite infestation. This study employs a qualitative approach to explore community maintenance practices, the challenges encountered, and the role of local wisdom in sustaining wooden traditional houses. Data were collected through in-depth interviews, participatory observation, and documentation at several traditional house sites in humid climate regions. The findings reveal that traditional maintenance methods, such as the use of natural preservatives, replacement of damaged components, and ventilation management, are effective in extending the lifespan of wooden structures. However, limited knowledge and resources remain major obstacles to preservation efforts. The integration of traditional techniques with modern technologies is expected to enhance maintenance effectiveness. This research provides strategic recommendations for the sustainable preservation of traditional houses and serves as a reference for the development of cultural heritage conservation policies in humid regions.
Qualitative Study Of Maintenance Of Wooden Structures Of Traditional Houses In Damp Environments Khotimah
Innovative Research in Civil and Environmental Engineering Vol. 2 No. 2 (2025): IRCEE - Oktober
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/ircee.v2i2.836

Abstract

This study investigates the emerging trends and technologies transforming civil and environmental engineering in the era of digitalization and sustainability. Using a mixed-method approach that combines literature review, case study analysis, and expert surveys, the research identifies three dominant areas of innovation: digital transformation through Building Information Modeling (BIM), Internet of Things (IoT), and Artificial Intelligence (AI); sustainable construction practices using green materials and renewable energy systems; and resilience-oriented design to address climate change challenges. The findings reveal that these technologies significantly enhance project efficiency, safety, and environmental performance while promoting data-driven decision-making and proactive risk management. Statistical analysis shows a strong correlation between technology adoption and improved project outcomes in cost, time, and ecological impact. Despite notable progress, challenges such as high implementation costs, limited digital skills, and policy gaps persist. The study concludes that future civil and environmental engineering must integrate digital tools, sustainability principles, and interdisciplinary collaboration to achieve resilient and environmentally responsible infrastructure systems.
Smart Infrastructure And Innovative Materials In Modern Civil Engineering Arsawijaya, Ringga
Innovative Research in Civil and Environmental Engineering Vol. 2 No. 2 (2025): IRCEE - Oktober
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/ircee.v2i2.838

Abstract

The advancement of smart infrastructure and innovative materials has transformed modern civil engineering practices toward greater sustainability, efficiency, and resilience. This study explores the integration of intelligent technologies—such as sensors, Internet of Things (IoT), and artificial intelligence (AI)—with advanced construction materials including self-healing concrete, fiber-reinforced polymers (FRP), and geopolymers. Using a comprehensive literature-based approach, the research identifies how these innovations enhance structural performance, optimize maintenance, and reduce environmental impact. The findings reveal that the synergy between smart systems and sustainable materials significantly improves lifecycle efficiency and safety while supporting the global transition to greener urban environments. Furthermore, the paper highlights the importance of policy support, interdisciplinary collaboration, and digital transformation in accelerating smart infrastructure adoption. Overall, this study underscores that the future of civil engineering relies on the harmonious combination of smart technologies and innovative materials to achieve long-term sustainability and urban resilience.
Integrating Green Technology And Environmental Engineering For Urban Resilience Giawa, Jun Fajar Krisman; Harefa, Andrew Christover; Zebua, Dermawan
Innovative Research in Civil and Environmental Engineering Vol. 2 No. 2 (2025): IRCEE - Oktober
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/ircee.v2i2.839

Abstract

This study explores the integration of green technology and environmental engineering as a foundation for strengthening urban resilience in the face of rapid urbanization, climate change, and resource depletion. By analyzing the interaction between sustainable technologies, ecological systems, and adaptive infrastructure, this research identifies key strategies for building cities that are not only environmentally sustainable but also socioeconomically resilient. The methodology combines literature-based analysis, comparative case studies, and data evaluation from urban development programs that apply green innovations. Results indicate that green infrastructure—such as renewable energy systems, water recycling technologies, and eco-friendly building materials—significantly enhances the capacity of cities to withstand and recover from environmental stressors. Furthermore, environmental engineering plays a critical role in optimizing urban systems through the integration of smart waste management, energy efficiency measures, and climate-responsive design. The study concludes that achieving urban resilience requires a holistic framework that merges technological innovation with policy alignment, community engagement, and long-term sustainability goals.
Eco-Innovations In Urban Development: Bridging Civil Engineering And Environmental Sustainability Vierdan Roweney Marek Janshevaski
Innovative Research in Civil and Environmental Engineering Vol. 2 No. 2 (2025): IRCEE - Oktober
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/ircee.v2i2.841

Abstract

Urban development faces increasing challenges due to rapid population growth, environmental degradation, and the urgent need for sustainable infrastructure. This study explores the role of eco-innovations in bridging civil engineering and environmental sustainability through the integration of green technologies, sustainable materials, and smart urban systems. The research highlights how eco-innovative approaches—such as the use of renewable resources, life-cycle assessments, and digital tools like BIM and IoT—can reduce carbon footprints, enhance resource efficiency, and promote urban resilience. The findings indicate that sustainable engineering practices not only improve environmental performance but also align with global sustainability goals such as SDG 9 and SDG 11. The paper concludes that eco-innovations are essential to shaping future cities that are technologically advanced, environmentally balanced, and socially inclusive.
Assessing The Resilience Of Drainage Infrastructure Under Extreme Rainfall Events Lauzuary
Innovative Research in Civil and Environmental Engineering Vol. 2 No. 2 (2025): IRCEE - Oktober
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/ircee.v2i2.842

Abstract

Extreme rainfall events have become more frequent and intense due to climate change, posing serious challenges to urban drainage infrastructure. This study assesses the resilience of drainage systems under extreme rainfall through hydrological modeling, field surveys, and resilience index analysis. Results indicate that many existing drainage networks were designed using outdated rainfall assumptions, leading to recurrent flooding and capacity failures. Structural measures alone were found insufficient to withstand extreme rainfall; instead, integrated approaches combining engineering improvements and real-time monitoring are required. Land-use change and urbanization further exacerbate drainage inefficiencies by reducing natural infiltration. The study highlights that proactive maintenance, adaptive design, and hybrid green–gray infrastructure can significantly enhance resilience. Recommendations include incorporating dynamic rainfall models, deploying smart monitoring technologies, and adopting policy frameworks that embed resilience assessments in urban planning. This integrated approach is crucial for ensuring sustainable, adaptive drainage systems in the face of evolving climatic conditions.

Page 2 of 2 | Total Record : 17

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