蓄

In order to make full use of the advantages of this technology, the optimizing control technique ought to be applied during the operating period of ice-storage air-conditioning systems with the aid and abetment of the government and the utilities.

因而在国家和电力部门的支持下，对蓄冰空调系统运行期采用优化控制的策略，发挥蓄冰空调的优势，真正做到利国利民，从而进一步推动蓄冰技术的发展。

The characteristics and method of modification of long afterglow energy storage aluminate luminescent material is introduced.

介绍了铝酸盐长余辉蓄能发光涂料中的主要组分发光材料的特点、物理化学改性以及树脂的选择，综述了国内外长余辉蓄能发光涂料的开发动向以及应用现状，探讨了长余辉蓄能发光涂料存在的问题和发展趋势。

The simulative results showed that the total heating loads in solar house were 24.4 % less than those in the reference house of no auxiliary heat sources in the whole heating period in Shenyang when indoor air temperature was 18℃ in the houses with ideal auxiliary heat.The effects of operation,structures and performance parameter of the solar thermal storage wall were analyzed.

无内通风口式集热蓄热墙冬季空气间层是密闭的，发挥了重质墙体的蓄热作用和空气间层的热阻作用，依靠导热向室内传递热量；有内通风口式集热蓄热墙依靠空气间层与室内的对流换热和墙体的导热两种方式向室内传递热量。

Pumped storage unit works in turbine-generator mode or pump-motor mode, Monitoring and Control system is very complicated, and each Pumped Storage Power Station's generating capacity and geographic conditions have their own characteristics. Therefore, it is very important to design a reasonable monitoring and Speed control system before the pumped storage station has been builded.

抽水蓄能机组在水轮机-发电机和水泵-电动机两种模式下工作，运行工况多，监控与调速系统十分复杂，并且每个抽水蓄能电站的发电量及地理条件都存在一定的差异性，因此在建设新的抽水蓄能电站时，科学的设计抽水蓄能电站的监控与调速系统是非常重要的工作。

Integrating many years' experience in using regenerative heating furnace s in our plant,we'd like to exchange it with persons of the same trade,in order to further consummate the application techniqu.

结合型钢厂多年使用蓄热式加热炉的经验，与同行们进行交流，进一步完善蓄热式炉的使用技术，提高蓄热式加热炉的加热能力，降低煤气消耗，促进蓄热式炉推广应用。

The relation between the thermal accumulating capacity and performance time is studied.

对蓄热容量与完成相变蓄热所需时间之间的关系进行了研究，发现尽管随着蓄热容量的增加完成相变蓄热所需要的时间会增加，但是完成单位蓄热量所需要的时间是减小的。

Based on a computing model of floor heating residences, indoor thermal environment and heat distribution under the effect of heat charge/discharge, operation control and solar radiation has been concluded. Concept and formula of equivalent heat supply has been put forward which indicate that actual heat supply will be equal to the sum of design heat supply and equivalent heat supply. Recommend coefficient has been given taken Dalian as an example. Computed according to the new method, design heat supply can be reduced to 37% in cloudy day and 43.3% in sunny day, energy saving effect is very obvious. In Tromb wall solar house, effect of concrete wall on indoor temperature swing and attenuation of temperature wave is very obvious. While the outdoor air-temperature swing exceeds 10℃, indoor air-temperature swing belows 3℃. In the experiment, maximal difference in temperature between inner surface and outer surface of the 300mm wall exceeded 10℃. Heat storage and collector efficiency varies adversely according to solar radiation. Factors such as thickness, material, absorptance of the wall and permeation of the glass cover all have big influence on heat storage and collector efficiency. There exsisted an optimal thickness of the wall, which can make the best of heat storage and collector efficiency. Most of the heat stored in conventional Trombe wall during the daytime has been lost to the outside at night without heat preservation. Heat preservation on the outside surface of the wall has effectively improved heat release performance of the wall at night, heat supply to the room has increased too.

通过建立的地板采暖系统动态热性能分析模型，得出了在蓄放热特性、运行方式和太阳辐射等因素耦合作用下的室内热环境及热量分配比例，提出了等效供热量的概念及计算公式，指出实际所需供热量应等于设计供热量加上等效供热量，并以大连为例，给出了等效供热量的修正系数，以新方法计算，阴天可减少设计供热量37％，晴天最大可以减少设计供热量43.3％，节能效果显著；集热蓄热墙式太阳房中，混凝土蓄热墙的室温均一化效果和对温度波的削减作用非常明显，当室外温度波动最大幅度超过10℃时，室温波幅不超过3℃，实验中300mm厚墙体内外表面温差超过10℃；墙体蓄热效率与集热效率随太阳辐射照度的变化呈相反的变化趋势；墙体厚度、材料、表面吸收率以及盖板透过率等因素对集热和蓄热效率均有较大的影响，存在一个最佳的墙体厚度值，使得墙体集热和蓄热综合性能最优；传统的蓄热墙夜间没有外保温，辐射散热损失很大，研究表明墙体外保温方式明显改善了蓄热墙夜间的散热性能，增加了向室内的供热量。

--- Method and apparatus for abstracting water from air wherein in a first phase of a recurring cycle a stream of cool, moist air from the atmosphere first cools a first heat storage condenser (1) and then humidifies a hygroscopic medium (14); in a second phase a stream of warm air additionally heated by solar radiation expels moisture from the hygroscopic medium and carries the moisture into said first heat storage condenser (1) where it condenses, releasing condensation heat, and drains away; in a third phase another stream of cool, moist air from the atmosphere first cools a second heat storage condenser (2) and then rehumidifies the hygroscopic medium, and in a fourth phase another stream of warm air heated by solar energy again expels the moisture from the hygroscopic medium and carries the moisture to said second heat storage condenser where it condenses and drains away, and wherein the warm air streams of the second and fourth phases, are preheated using the heat of condensation picked up by the said second heat storage condenser (2) in the fourth phase and the heat of condensation picked up by said first heat storage condenser (1) in the second phase, respectively, before being additionally heated by solar radiation and being used to expel moisture from the hygroscopic medium.

摘要---方法和仪器取水，从空气，其中在第一阶段的周期性循环流冷静，潮湿空气从大气中的第一冷却的第一个蓄热冷凝器（ 1 ），然后humidifies一吸湿中等（ 14 ）；在第二阶段流的暖空气此外，激烈的太阳辐射驱逐水分从吸湿中等，并进行水分成表示，第一蓄热冷凝器（ 1 ）凡它凝结，释放出凝结换热，及雨水渠的距离；在第三阶段另一流的冷静，潮湿空气从大气中冷却，第一第二蓄热冷凝器（ 2 ），然后rehumidifies该吸湿中等，而在第四个阶段的另一流的暖空气加热太阳能再次驱逐水分从中期和吸湿性带有水分说，第二蓄热冷凝器而凝结及排水渠远离，和其中的暖空气流，第二和第四阶段，预热用热凝结回升，由说，第二蓄热冷凝器（ 2 ）在第四个阶段和热凝结回升，由说，第一蓄热冷凝器（ 1 ）在第二个阶段，分别之前，此外激烈的太阳辐射和被用来驱逐水分从吸湿中等。

cold-storage characteristic ; interface of phase ; high temperature phase-change material cold storage air conditioner

高温相变材料作为蓄冷介质则克服水蓄冷的蓄冷密度小和冰蓄冷的蒸发温度过低的缺点，但在该技术中的固液相变

Based on the previous research about the ice-harvester tank, the paper further investigates the properties of tank at ice-filling and ice-melting, notifying the relation between the two rest angles, bringing out the method to optimize the tank"s dimensions, resolving the ice-filling problem according to the connection between the icepack and the tank"s underside, analyzing the ice-melting problem with discharge capacity.

本文在国内外有关片冰机蓄冰槽研究成果的基础上，对蓄冰槽在蓄冰和融冰时的特性做了进一步的研究，揭示了两个安息角的关系，提出了优化蓄冰槽尺寸的方法，根据冰床与蓄冰槽底面接触的情形求解蓄冰问题，用融冰能力分析融冰问题。

aquifer：蓄水层

使我们处于危险之中的不是权力集中,而是权力缺位. 通常,蓄水层(aquifer)是可以补充的, 但是一些最重要的蓄水层---"化石"蓄水层,却是不可补充的. 之所以称为"化石"蓄水层,是因为它们存储远古的水,并且不能被补充.

Electric boiler heat reservoir：蓄热式电加热系统

蓄热式电锅炉:thermal storage electric boiler | 蓄热式电加热系统:Electric boiler heat reservoir | 蓄热式电锅炉:Electric Boiler System with Heat Accumulator

liman irrigation：春水蓄灌,雪水蓄灌,洪漫灌溉

Lima bean pod borer 豆荚螟 | liman irrigation 春水蓄灌,雪水蓄灌,洪漫灌溉 | limb 脚,腕

Brand: Polder：品牌:堵港蓄

Brand: Polder 品牌:堵港蓄 | Label: Polder Inc. 标签:堵港蓄公司 | Manufacturer: Polder Inc. 制造商:堵港蓄公司

Label: Polder：标签:堵港蓄

Brand: Polder 品牌:堵港蓄 | Label: Polder 标签:堵港蓄 | Manufacturer: Polder 制造商:堵港蓄

pumped storage：抽水蓄能

pumped power station 抽水蓄能电站 | pumped storage 抽水蓄能 | pumped storage aggregate 抽水蓄能机组

pumped storage：抽水蓄能,抽水蓄存

pumped storage 抽水蓄能,抽水蓄存 | record storage 记录存储器 | regulating storage 调节库容

savings deposit：儲蓄存款金融銀行

62364儲蓄成語英美片語成語nest egg | 62365儲蓄存款金融銀行savings deposit | 62366儲蓄銀行金融銀行savings bank

SNIPING CANNON：狙击枪,威力中上,蓄能速度较慢,需要优先升级蓄能速度

BARRIER DECOY:最强肉盾,没有攻击力,但是普通机枪对它完全没伤害,用好它可以使你轻松过关 | SNIPING CANNON:狙击枪,威力中上,蓄能速度较慢,需要优先升级蓄能速度 | FLAK CANNON:炸裂炮,蓄能然后放出,空中炸裂

Castor Seed Semen Ricini：扁蓄粉末 扁蓄提取物

Dioscoreae Hypoglaucae Root Rhizome Dioscoreae Hypoglaucae 蓖麻子粉末 蓖麻子提... | Castor Seed Semen Ricini 扁蓄粉末 扁蓄提取物 | Common Knotgrass Herb Herba Polygoni Avicularis 鳖甲(醋)粉末 鳖甲(醋)提...