Author
Janghoo Seo
Other affiliations: Chosun University, University of Tokyo
Bio: Janghoo Seo is an academic researcher from Kookmin University. The author has contributed to research in topics: Energy consumption & Indoor air quality. The author has an hindex of 11, co-authored 87 publications receiving 541 citations. Previous affiliations of Janghoo Seo include Chosun University & University of Tokyo.
Papers published on a yearly basis
Papers
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TL;DR: In this article, the authors evaluated the effectiveness of seven different types of building materials in reducing volatile organic compound (VOC) concentrations in air using a small test chamber, where air containing a low concentration of VOCs was supplied and any decrease in the VOC concentrations was measured at the exhaust.
57 citations
TL;DR: In this paper, the authors measured formaldehyde and volatile organic compounds (VOCs) from the adhesive, flooring, and flooring with adhesive using a desiccator, a 20-L chamber and a field and laboratory emission cell (FLEC).
49 citations
TL;DR: In this article, the authors proposed an optimal design method for the HVAC system in apartment using a genetic algorithm and examined the possibility for the energy conservation of a designed HVC system.
38 citations
TL;DR: In this article, a perforated light shelf that minimizes the effect of wind pressure was proposed, and its effectiveness was verified by comparing its lighting energy saving performance with that of previously tested light shelves in an actual testbed.
37 citations
TL;DR: In this article, the authors measured 2E1H emission rates from polyvinyl chloride (PVC) flooring and determined the components of the adhesives using chemical analysis.
35 citations
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TL;DR: Adverse health effects from exposure to formaldehyde in prefabricated houses, especially irritation of the eyes and upper airways, were first reported in the mid-1960s and a guideline value of 0.1 ppm was proposed in 1977 by the former German Federal Agency of Health to limit human exposure in dwellings.
Abstract: 1.1. History
Formaldehyde was described in the year 1855 by the Russian scientist Alexander Michailowitsch Butlerow. The technical synthesis by dehydration of methanol was achieved in 1867 by the German chemist August Wilhelm von Hofmann. The versatility that makes it suitable for use in various industrial applications was soon discovered, and the compound was one of the first to be indexed by Chemical Abstracts Service (CAS). In 1944, Walker published the first edition of his classic work Formaldehyde.(1) Between 1900 and 1930, formaldehyde-based resins became important adhesives for wood and wood composites. The first commercial particle board was produced during World War II in Bremen, Germany. Since 1950, particle board has become an attractive alternative to solid wood for the manufacturing of furniture. Particle board and other wood-based panels were subsequently also used for the construction of housing. Adverse health effects from exposure to formaldehyde in prefabricated houses, especially irritation of the eyes and upper airways, were first reported in the mid-1960s. Formaldehyde emissions from particle boards bonded with urea formaldehyde resin were soon identified as the cause of the complaints. As a consequence, a guideline value of 0.1 ppm was proposed in 1977 by the former German Federal Agency of Health to limit human exposure in dwellings. Criteria for the limitation and regulation of formaldehyde emissions from wood-based materials were established in 1981 in Germany and Denmark. The first regulations followed in the United States in 1985 or thereabouts. In Germany and the United States, large-scale test chambers were used for the evaluation of emissions. Although the chamber method is very reliable, it is also time-consuming and expensive. This meant there was a strong demand for simple laboratory test methods.(2)
1,253 citations
TL;DR: In this article, a literature review on the basic and applied research in RHC systems for the built environment is conducted, in terms of thermal comfort, thermal analysis including heat transfer model, heating/cooling capacity, CFD analysis, energy simulation, system configuration and control strategies.
322 citations
TL;DR: In this article, seven cementitious binders comprised of metakaolin, silica fume and nano-silica have improved thermal performance compared with Portland cement and calculated the full CO2 emissions associated with manufacture and transport of each binder for the first time.
256 citations
TL;DR: In this article, a three-step holistic review approach incorporating bibliometric search, scientometric analysis, and in-depth qualitative discussion is presented to contribute to the body of knowledge in off-site construction by critically reviewing and summarizing: 1) the latest research keywords and main research topics in OSC; 2) the performance of OSC compared to that of conventional construction approach; 3) current research gaps in integrating OSC with other emerging construction concepts; and 4) future research directions.
213 citations
TL;DR: A high level overview of the formaldehyde gas sensing field is provided and some of the more significant real-time sensors presented in the literature over the past 10 years or so are described.
Abstract: Many methods based on spectrophotometric, fluorometric, piezoresistive, amperometric or conductive measurements have been proposed for detecting the concentration of formaldehyde in air. However, conventional formaldehyde measurement systems are bulky and expensive and require the services of highly-trained operators. Accordingly, the emergence of sophisticated technologies in recent years has prompted the development of many microscale gaseous formaldehyde detection systems. Besides their compact size, such devices have many other advantages over their macroscale counterparts, including a real-time response, a more straightforward operation, lower power consumption, and the potential for low-cost batch production. This paper commences by providing a high level overview of the formaldehyde gas sensing field and then describes some of the more significant real-time sensors presented in the literature over the past 10 years or so.
207 citations