全部文献期刊学位论文会议报纸专利标准年鉴图书|学者科研项目
中外文文献  中文文献  外文文献
作者:Allan R. Starke , Jose M. Cardemil , Rodrigo Escobar ...
来源:[J].Journal of the Brazilian Society of Mechanical Sciences and Engineering(IF 0.234), 2017, Vol.39 (6), pp.2289-2306Springer
摘要:... The simulations were performed using TRNSYS software. The four configurations considered herein include a conventional heat pump in which ambient air is used as the heat source for an air-to-water heat pump (ASHP), a parallel configuration between the solar collectors and an ...
作者:Eva Schito , Daniele Testi
来源:[J].Building Simulation(IF 0.649), 2017, Vol.10 (6), pp.977-987Springer
摘要:... The model is validated comparing monitored data of temperature and specific humidity in the rooms with the results of a dynamic simulation, run on TRNSYS 17, using the modeled correlation. By means of this validated model, energy-saving measures on the examined museum can ...
作者:R.L. Shrivastava , Vinod Kumar , S.P. Untawale
来源:[J].Renewable and Sustainable Energy Reviews(IF 5.627), 2017, Vol.67, pp.126-143Elsevier
摘要:... TRNSYS is transient system simulation software which provides good agreement within error ranging from 5% to 10%. Critical review of simulation of solar water heating system including early works, comparative analysis of popular simulation tools and their architecture in pers...
作者:Junliang Cao , Jing Liu , Xiaoxin Man
来源:[J].Applied Thermal Engineering(IF 2.127), 2017, Vol.114, pp.196-210Elsevier
摘要:Abstract(#br)A united WRF/TRNSYS method is developed to calculate the heating/cooling load for the plan of constructing the thousand-meter scale megatall building in this study. The core of the united WRF/TRNSYS method consists of three parts: (1) utilizing mesoscale meteorol...
作者:W. Stuart Dols , Liangzhu (Leon) Wang , Steven J. Emmerich ...
来源:[J].Journal of Building Performance Simulation(IF 1.524), 2015, Vol.8 (5), pp.326-337Taylor & Francis
摘要:The TRNSYS energy analysis tool has been capable of simulating whole-building coupled heat transfer and building airflow for about 10 years. The most recent implementation was based on two TRNSYS modules, Type 56 and Type 97. Type 97 is based on a subset of the airflow calculatio...
作者:Jie Ji , Wu Wang , Wei Sun ...
来源:[J].Chinese Science Bulletin(IF 1.319), 2014, Vol.59 (16), pp.1890-1895Springer
摘要:... A simulation project of the whole building system in winter was built by the software TRNSYS with the new component developed for DFSC and compiled into the TRNSYS library based on the validated theoretical method and experimental results from previous studies. The simulation...
作者:Mehdi Shahrestani , Runming Yao , Geoffrey K. Cook
来源:[J].Building Simulation(IF 0.649), 2013, Vol.6 (3), pp.309-322Springer
摘要:... Full integration of the new components within the TRNSYS simulation package is another advantage of this study, which makes it more applicable for designers in both the design and commissioning of hydronic systems.
作者:Ming Liu , Wasim Saman , Frank Bruno
来源:[J].Applied Energy(IF 4.781), 2014, Vol.132, pp.226-235Elsevier
摘要:Abstract(#br)This paper presents a new TRNSYS model of a refrigeration system incorporating phase change material (PCM) for mobile transport. The PCTSU is charged by an off-vehicle refrigeration unit and the PCM provides cooling when discharging and the cooling released is u...
作者:Shilei Lu , Shangbao Liu , Jingyu Huang ...
来源:[J].Energy & Buildings(IF 2.679), 2014, Vol.84, pp.287-298Elsevier
摘要:Abstract(#br)The aim of the present work is to set up an apparent specific heat capacity phase change heat transfer model and a new TRNSYS component (Type272). A PCM (phase change material) room model is established by combining Type272 and some TRNSYS components (Type 56, 109...
作者:P. Almeida , M.J. Carvalho , R. Amorim ...
来源:[J].Solar Energy(IF 2.952), 2014, Vol.104, pp.60-70Elsevier
摘要:... The present paper describes the work done following a different approach for the identification of parameters – use of TRNSYS to simulate the system and use of GENOPT® for optimization. Results are presented, both for thermosyphon and forced circulation systems, and sho...

我们正在为您处理中,这可能需要一些时间,请稍等。

资源合作:cnki.scholar@cnki.net, +86-10-82896619   意见反馈:scholar@cnki.net

×