Chinese researchers have recently unveiled a series of technological methods based on a six-year-long program to effectively address the issue of high humidity in site museums, creating a more suitable preservation environment for cultural relics.
The program, carried out at the Dadiwan Site, a Neolithic site dated approximately 8,000 to 4,800 years ago, in Qin’an County, northwest China’s Gansu Province, involved researchers from Dunhuang Academy and Northwest Institute of Eco-Environment and Resources (NIEER) under the Chinese Academy of Sciences.
The site is one of the largest and best-preserved Neolithic settlement sites discovered in China to date.
The iconic Dadiwan F901 site, boasting a history of over 5,000 years and covering an area of 420 square meters, is the largest and most intricately crafted large-scale housing structure from China’s prehistoric era. Early renovation efforts, incorporating a sealed glass curtain wall, led to a continuous rise in relative humidity within the site, triggering
outbreaks of microbial diseases.
Researchers conducted on-site real-time environmental monitoring and numerical simulation to assess the ventilation effectiveness and relative humidity changes before and after multiple interior modifications of the F901 site.
The results indicate that the fully enclosed glass curtain wall can suppress the dependence of indoor humidity fluctuations on external weather fluctuations but has generated unintended consequences, leading to increased air relative humidity and even reaching saturation in the museum space. The strategic deployment of louvered windows and duct fans proved effective in enhancing internal airflow dynamics and overall air exchange capacity.
Source: Qatar News Agency