Papers by Author: Shuang Liang

Abstract: By means of the establishment of thermal stability evaluation model and simulating in Hua-feng factory residential building ,the influence law of thermal properties on building thermal stability are obtained,especially the influence law of heat storage on building thermal stability and the best thermal inertia index value of envelope enclosure in Hot-humid and Cold-humid Area.

Abstract: By means of the establishment of thermal stability evaluation model and simulating in Huafeng factory residential building ,the relationship between the D value and building thermal stability and the optimal distribution ratio are obtained.The results show that:at the shape coefficient≤0.40, the most optimal matching relation is :heat transfer coefficient is 1.0, thermal inertia index is 2.0;at the shape coefficient >0.40, the most optimal matching relation is :heat transfer coefficient is 0.8, thermal inertia index is 2.0.

Abstract: Generating complex forms with the computer has become easier however a challenge still lies in the realization of these forms. Realize the digital fabrication face two challenges: first, how to evaluate the assembly ability of the design; second, how to realize digital fabrication combine with the Traditional technology. This paper introduces that the assembly ability evaluation ideas on design by the method of the combination of System Dynamics and association graph, and it needs to pay attention to the value added chain process fusion with the traditional mode of production in the process of evaluation.

Abstract: Relative humidity in hot-humid and cold-humid area in summer is high, the sun radiation intensity is low, and the existing building thermal stability condition basic research data is absence . Select the region typical residential building, the sun radiation, relative humidity, air temperature and surface temperature were measured and recorded; Test analysis shows that typical residential house in summer in the climate characteristics the typical average indoor temperature fluctuation in the cycle is 4.3 °C,fluctuations of temperature to a larger extent, and was obviously affected by such factors as orientations and envelope constructional detail.

Abstract: Humidity is one of the major factors affects the summer thermal environment in hot summer and cold winter zone. This article through calculation and analysis the humidity on environmental thermal comfort and influence of humidity the effect on the energy consumption, explain dehumidifying is one of the most efficient, energy saving measures to improve the hot summer and cold winter zone indoor thermal humidity environment. Aiming at the humidity environment characteristic in hot summer and cold winter zone, puts forward several design strategy of passive dehumidification for reference.