【摘 要】
:
针对集中空调系统存在的问题进行了整改,包括将原已损坏的圆形冷却塔改为方形冷却塔,原旋转式布水改为固定式布水,对冷却水系统进行清洗,除去机组冷凝器中的杂物和水垢,更换
论文部分内容阅读
针对集中空调系统存在的问题进行了整改,包括将原已损坏的圆形冷却塔改为方形冷却塔,原旋转式布水改为固定式布水,对冷却水系统进行清洗,除去机组冷凝器中的杂物和水垢,更换已损坏的冷水泵的泵头。通过对整个系统的整改,制冷机组的耗电功率由220kW降到180 kW,取得了较好的节能效果,节能率为18.2%。
For the problems of central air conditioning system rectification, including the original damaged circular cooling tower into a square cooling tower, the original rotary water to fixed cloth, the cooling water system to clean, remove the unit condenser In the debris and scale, replace the pump head has been damaged cold water pump. Through the rectification of the entire system, the power consumption of the refrigeration unit dropped from 220kW to 180 kW, and a good energy-saving effect was achieved with an energy-saving rate of 18.2%.
其他文献
Two N-dichloroacetyl oxazolidines were synthesized with a simple, mild and convenient method. All the compounds were characterized by IR, 1HNMR and elemental an
Spark, stream and corona pulsed high-voltage discharges in water induced by the various initial conductivities have been examined in this paper. The discharge m
Based on the structure-activity relationships of RGD-containing peptides, a series of 1,3-dihydro-1,3-dioxo-2H-isoindole derivatives were synthesized. All of th
A mild and efficient oxidation of alcohols to the corresponding carbonyl compounds using the PhI(OAc)2 (1.1 eq.) with n-Bu4NBr (8 mol%) in water at room tempera
Two tri(2-chlorobenzyl)tin(IV) complexes with dithiocarbamate ligands (2-Cl- C6H4CH2)3SnS2CN(C5H10) 1 and (2-Cl-C6H4CH2)3SnS2CN(C4H9N) 2 have been synthesized b
从土壤中分离得到一株具有溶藻能力的真菌,命名为J20.经形态学和18srDNA序列对比分析鉴定,J20菌株属于青霉属(Peniciliium).研究了J20菌株对铜绿微囊藻Ds的溶藻效果,初步探讨
Background Reports are increasingly appearing on the side effects caused by excessive iodine intake. Our objective was to find out whether iodine excess would i
为了建立鸭先天免疫受体核苷酸寡域1(NOD1)的荧光定量RT-PCR检测方法,依据GenBank中鸡NOD1序列设计特异性引物,克隆获得鸭NOD1序列,设计鸭NOD1、凋亡相关碱性蛋白(ARBP)荧光定量R
人类社会从陆地生态系统获取生产和生活资料的同时也作为一种干扰形式改变着地气之间的动态平衡。这三个既独立又相互耦合的子系统共同组成了一个复杂的陆地系统。如何深入理解这一系统的过程和机制是人类应对气候变化挑战的前提条件。陆地生态系统模型作为一种集成工具,已广泛应用于全球变化研究的各个领域,但从输入数据到模型结构和过程等诸多方面仍存在很大的不确定性。近年来,随着大气和地面生态观测网络的不断完善以及遥感等
采用硫酸铝混凝强化去除微氧EGSB反应器出水中的TP,考察了混凝时间和沉淀时间、混凝剂投量、pH和温度等对强化除磷效果的影响,以分析微氧EGSB/化学混凝组合工艺作为生活污水再生回用工艺的可行性。结果表明,在最佳Al3+/TP值(质量比)为1.5~2.3、混凝时间为20min、沉淀时间为20min的条件下,对TP的去除率可达94.6%~96.4%,出水TP可降至0.29mg/L,达到了GB1891