採暖條件 的英文怎麼說
中文拼音 [cǎinuǎntiáojiàn]
採暖條件
英文
heating condition- 暖 : Ⅰ形容詞(暖和) warm; genial Ⅱ動詞(使東西變熱或使身體變溫暖) warm up
- 條 : Ⅰ名詞1 (細長的樹枝) twig 2 (條子) slip; strip 3 (分項目的) item; article 4 (層次; 秩序; 條...
- 件 : Ⅰ量詞(用於個體事物) piece; article; item Ⅱ名詞1. (指可以一一計算的事物) 2. (文件) letter; correspondence; paper; document
- 條件 : 1. (客觀的因素) condition; term; factor 2. (提出的要求) requirement; prerequisite; qualification
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First ehtv extended the region of ottv, it is the same with all weather condition, but ottv is used in hot zoon for air - condition. ehtv could calculate energy consume, but ottv is just a heat transfer value for not including air infiltration inner heat gain lighting energy efficiency ratio of equipments
首先是擴大了指標的適用范圍, ottv主要是針對炎熱地區的空調節能指標, ehtv指標能適用於各種氣象條件,此外ehtv的能耗計算方法,解決了ottv指標不包括空氣滲透、採光、空調採暖設備等因素,不能直觀反映建築能耗的不足。Through the analysis and studying of this subject, we can make conclusion as followed : during the whole heating season, the change law of the energy consumption of the thermal bridge is with the change law of the meteorological condition inside and outside the room : when airs temperatures indoor is steady, thermal bridge energy consumption increases with reducing of air temperature outside the room, reduce oppositely. the different position and the different structure patterns of the thermal bridges, even under the same meteorological condition inside and outside of the room, energy consumption of the building is different, and impact on heating energy consumption is different, this is mainly caused by the difference of the constructs thermal bridge and different influence in term of out wall, which lead to total mean heat - transfer coefficient different, when the heat - transfer coefficient is relatively small of outer wall, the impact of wall body is more obvious on heat - transfer coefficient of the thermal bridge
然後確立了在節能建築中熱橋耗熱量與室內外氣象參數和熱橋構造型式的關系,分析與研究並得出:在整個採暖季節中,熱橋的能耗隨著室內外氣象條件的變化規律是:在室內空氣溫度一定時,熱橋能耗隨著室外空氣溫度的降低而增大,相反減小;不同部位的熱橋,其構造型式不同,即使在相同的室內外氣象條件下,產生的能耗也是不同的,並且對採暖能耗的影響也不同,這主要是由於不同構造的熱橋對外墻的總平均傳熱系數的影響不同所造成的,並且當外墻主體的傳熱系數較小時,熱橋對墻體的傳熱系數的影響更加明顯。The painting specification for heating ventilation and air - conditioning equipments
採暖通風與空氣調節設備.塗裝技術條件The object to study in this paper is the electric heat reservoir boiler, which is used to supply heat water and bask for the resident population. the use of the system define the character of the output medium with the lower request on quality and parameter, at the same time, it ask the boiler should has the higher character on the respect of the cost, reliability, economy, and so on. hence, the paper carefully design and study the system for the choice and design of the boiler core heating componet, the lay of the heat exchanger, the working status of the heat reservoir equipment, the adjustment and control mode of to supply heat water. the study work mainly include underside some contents, forexample : 1. to confirm the heat medium parameter to adapt the requirements of the most of the heating equipments and to design the instruction of the boiler and heat reservoir as simple as possible
圍繞上述原則,本文從電熱鍋爐核心加熱元件的選型及設計、換熱面的布置、蓄熱設備的運行工況、供熱的調節方式以及控制方法進行了較細致的研究和計算,具體研究工作有以下幾個方面: 1 .根據使用要求,確定適用於多數採暖設備的熱介質參數,設計在結構型式上盡可能簡單的鍋爐和蓄熱器; 2 .對製造加熱元件電熱管的各種材料進行了對比和分析、在結構尺寸上進行了仔細的分析和計算,根據實際使用條件給出合理的設計,使其具有較高的可靠性和使用壽命; 3 .對不同換熱面布置形式進行傳熱分析。Given the thermal physical parameters of the envelops and the weather data, the above two parameters are determined by the following system design parameters : radiant panel dimension, radiant panel location and radiant panel layout style ( center or peripheral ). based on the thermal net model, digital analysis of the energy consumption and thermal environment are carried out to the several representative spaces under different design parameters, through which the relations of the heating load to the design parameters are obtained and can be a reference in the practical system design
對于給定圍護結構熱物性參數和室外氣候參數的條件下,室內平均輻射溫度和室內空氣溫度的大小取決于系統的設計參數:輻射板的布置方式(周邊布置和中心布置) 、輻射板尺寸和輻射板鋪設位置。基於熱網模型,利用matlab軟體編程對採暖空間在不同設計參數下室內的熱環境和能耗進行數值分析,得出了低溫熱水地板輻射採暖系統的性能和能耗指標隨這些參數變化的規律,從而為低溫熱水地板輻射採暖系統的優化設計提供了參考。After controlling indexes of the heat preservation and controlling indexes of the energy conservation for building envelop ( root and walls ) in indoor heating condition is given, by means of the interrelated principle between windows and walls the controlling indexes of heat preservation and the controlling indexes at energy conservation for building envelop ( windows ) in indoor heating condition can be determined directly
摘要該文在室內採暖條件下圍護結構(墻與屋頂)保溫控制指標已確定的基礎上,依據窗墻相關性原理所導出的同一方向窗的傳熱阻與墻的傳熱阻相關性系數(它隨窗墻面積比不同而變化)可直接求出在同一室內熱環境控制條件下窗的保溫、節能控制指標,使保溫控制與節能控制設計更加科學、簡單。The dissertation marks off air - condition calculating period and heating calculating period by the weather, so ehtv and other factors are mean value to air - condition calculating period and heating calculating period
本文以室外氣象條件為依據劃分各地空調、採暖計算期, ehtv指標各參數是空調、采西安建築科技大學博士學位論文暖計算期的平均值。( 4 ) the paper compares the economical efficiency of the vrv heat pump air condition system to the traditional heating systems. form the results, nearly 740, 000 yuan can be saved when this system is be used to maintain 18 ? indoors every year
通過採暖費用與vrv熱泵空調系統運行費用計算及比較可知,採用vrv熱泵空調採暖在保證冬季室內溫度+ 18條件下,每年可節省近74萬元,經濟效益十分明顯。Considers that applying water source heat pump can reduce initial investment, operating cost and atmospheric pollution effects when recycling cooling - water from power plant is used
認為在具備利用電廠循環冷卻水條件的場所,採用水源熱泵為建築供暖可以減少初投資、運行費用以及對城市的污染影響。At the same time, the structure and the condensation mechanism of the natural down fiber are analyzed, the cold wind environment test on the warmth instrument which is designed as a warmth man was simulated and the thermal properties were measured on it successfully. by analyzing and discussing of those test data, the influence factors of the component fibers and the proportions of the natural down fiber in the felt under the wind cold environment were discovered, the influence trend to the warmth property of the different wind speed were tested and compared each other when the ptfe film lamination fabrics was applied or not
本文在總結分析了國內外風冷環境條件下保暖材料的保暖機理及材料特性后,提出了採用羽絨纖維與ptfe膜復合加工高保暖性材料的設計思路。對ptfe膜、 pu膜及ptfe pu膜的透濕性進行了比較;探討分析了羽絨纖維的結構及成氈機理;對暖體假人進行了模擬風冷實驗研究。在此基礎上,分析總結了不同的材料、不同的羽絨含量對保暖絮氈保暖性的影響程度;在風冷環境下,比較了風速對有ptfe膜絮氈及無ptfe膜絮氈保暖性的影響。On the basis above, the paper sets a multiple evaluating index for the thermal environment, and then according to the critical transferring condition of the natural ventilation and the air conditioning in dwellings, the paper offers a " correction factor of energy consumption " to make a scientific and correct evaluation for the energy consumed by those sorts of buildings. further more, the author programmed the subprogram of thermal comfort results by fuzzy evaluation for the natural ventilation room so as to form an entire program, which could make it easy to numerically calculate the indoor thermal environment of residential buildings, and evaluate and analyze its thermal comfort as well features of energy conservation
西安建築科技大學博士學位論文利用熱環境定量化分析及舒適性評價計算程序,對夏季自然通風條件下建築特性與室內熱環境影響關系進行了定量化計算分析,得出在滿足冬季節約採暖能耗要求的前提下,合理組織自然通風是改善夏季室內熱環境的有效手段;以寒冷地區三個城市為例,對比分析了不同地區夏季自然通風的有效時數;結合實際測試分析,提出全面改善夏季室內熱環境的系統優化設計方法。Abstract : based on the mechanism of radiant heating, its comfortable condotions for use this heating form and ability are inteoduced and discussed
文摘:從輻射採暖的機理出發,針對其舒適特點和節能效果進行論述,同時提出採用這種採暖方式的有利條件及可能性。It has been proved by practice that an fuzzy control system based neural network have better flexibility 、 self adaptability and expandability. the fuzzy controlling system can satisfied the automatic controlling of electric heated boiler heating system. dai qing xin ( computer applied technology ) directed by associate prof. huang zhi qiang
應用實踐表明基於神經網路實現的模糊控制系統具有很強的靈活性、自適應性和可擴展性,可以滿足不同地區、不同氣候條件下對電熱鍋爐採暖系統自動化控制的需要。For the space heated by low - temperature water floor radiant heating system, the mean radiant temperature and air temperature are two main factors that affect the indoor thermal quality as well as the building energy consumption, so how to minimize the heating load as much as possible on the condition of securing thermal comfort demand
採暖空間的室內熱舒適度主要是由兩個因素來決定的:室內平均輻射溫度和室內空氣溫度,這兩個參數同時也影響室內採暖系統的能耗大小,因此,如何在保證室內人體熱舒適要求的條件下,最大限度地減少低溫熱水地板輻射採暖系統的能耗分享友人