Using nighttime light data to estimate water evaporation inside buildings in China's urban areas

Abstract

AbstractUrbanization has a great impact on urban evapotranspiration. Water evaporation inside buildings is an important part of urban water vapor resources and a crucial core of urban hydrological processes. The systematic studies on building water evaporation (BWE) are mostly the method of experimental monitoring. This study proposed a new method to simulate and estimate water evaporation flux inside buildings in urban areas. Based on the nighttime light data and urban per capita gross domestic product (GDP), a new modeling system was built to simulate the total BWE. Building area was calculated using the nighttime light data. And the BWE coefficient Df was estimated according to the important indicator of economic development per capita GDP value. Then the water evaporation inside urban buildings and the spatial distribution of water evaporation inside buildings in typical cities could be obtained. The results showed that the total amount of water evaporation inside buildings in China's urban areas was 24.5 billion m3. Among the 31 provincial capitals in China, Shanghai had the largest BWE of 1.08 billion m3. The minimum water evaporation of buildings in Lhasa was 20.0 million m3. Studies of BWE can assess urban water budgets, support on‐demand allocation of water resources, and provide a fundamental understanding of the relationship between water resources and energy heat island effects in urban areas.