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Demand Controlled Ventilating Systems. Source Book. Energy Conservation in Buildings and Community Systems Program. Annex 18

机译：需求控制通风系统。资料书。建筑物和社区系统计划中的节能。附件18

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The objectives of the source book are: To provide facility managers, designers and manufacturers with guidelines concerning the use, applications and benefits of DCV (Demand Controlled Ventilating) systems; To provide general principles for the design and operation of DVC systems; To serve as a basis for producing national guidelines; To serve as a source of inspiration in promoting further development.

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年度 1992
页码 1-199
总页数 199
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Ventilation systems ; Demand factors ; Buildings ; Energy management systems ; Energy conservation ; Research management ; Europe ; Indoor air pollution ; Sensors ; Humidity ; Feasibility ; Houses ; Schools ; Auditoriums;

机译：通风系统;需求因素;建筑物;能源管理系统;节能;研究管理;欧洲;室内空气污染;传感器;湿度;可行性;房屋;学校;礼堂;

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1. Ventilated rainscreen cladding system subframe contribution to annual source energy use in mid-size office buildings [J] . Grauer Michael Energy and Buildings . 2019,第MARa期

机译：通风式防雨覆层系统子框架对中型办公楼年度能源消耗的贡献
2. Integrated building energy-computational fluid dynamics simulation for estimating the energy-saving effect of energy recovery ventilator with CO_2 demand-controlled ventilation system in office space [J] . Yunqing Fan, Kazuhide Ito Indoor and built environment . 2014,第6期

机译：集成建筑能量计算流体动力学模拟，用于估算办公室空间中采用CO_2需求控制通风系统的能量回收呼吸机的节能效果
3. The impact of indoor thermal conditions, system controls and building types on the building energy demand [J] . Stefano Paolo Corgnati, Enrico Fabrizio, Marco Filippi Energy and Buildings . 2008,第4期

机译：室内热条件，系统控制和建筑物类型对建筑物能源需求的影响
4. ENERGY EFFICIENCY OF COLD OR HEAT SOURCES IN AIR-CONDITIONING SYSTEMS BUILDING ENERGY CONSERVATION [C] . Changqing Wang, Weiding Long, Wenting Ding, 4th International Conference on Indoor Air Quality, Ventilation and Energy Conservation in Buildings Vol.2 (IAQVEC 2001) Oct 2-5, 2001 Changsha, Hunan, China . 2001

机译：空调系统冷热源的能源效率与建筑节能
5. Comparison of energy consumption of common heating, ventilating, and air conditioning systems with closed water loop heat pump systems. [D] . Zaidi, Jawad Hussain. 1990

机译：比较普通的供暖，通风和空调系统与封闭式水循环热泵系统的能耗。
6. The conformational basis of energy conservation in membrane systems. II. Correlation between conformational change and functional states. [O] . R A Harris, J T Penniston, J Asai, 1968

机译：膜系统中能量守恒的构象基础。二。构象变化与功能状态之间的相关性。
7. Advanced controllers for building energy management systems. Advanced controllers based on traditional mathematical methods (MIMO P+I, state-space, adaptive solutions with constraints) and intelligent solutions (fuzzy logic and genetic algorithms) are investigated for humidifying, ventilating and air-conditioning applications. [O] . Ghazali Abu Baker MHD. 1996

机译：用于建筑能源管理系统的高级控制器。研究了基于传统数学方法（MIMO P + I，状态空间，有约束的自适应解决方案）和智能解决方案（模糊逻辑和遗传算法）的高级控制器，用于加湿，通风和空调应用。
8. Demand Controlled Ventilating Systems. Case Studies. Energy Conservation in Buildings and Community Systems Program. Annex 18 [R] . Mansson, L. G. 1992

机译：需求控制通风系统。实例探究。建筑物和社区系统计划中的节能。附件18

Demand Controlled Ventilating Systems. Source Book. Energy Conservation in Buildings and Community Systems Program. Annex 18

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