AKM32D-ACCNC-00 AKM32D-ACCNC 伺服电动机 Kollmorgen
该装置采用强制空气炉的空气循环方法;然而,它也用于冷却
加热空气通过过滤器(H)吸入装置,并通过鼓风机(G)吸入。鼓风机推动
空气经过加热盘管或热交换器(F),但该盘管在冷却时不工作。空气继续过去
蒸发器盘管或冷却盘管(E)在空气通过时冷却空气。由此产生的空气通过
供应管道(I)通向空间。该系统的主要目标是合理地冷却通过的空气。任何除湿
这可能会成为这一过程的副产品。离开系统的较冷空气可能损失了一些
但将具有较高的相对湿度。该装置通常运行到空间
装置关闭时的温度满足要求。这些装置需要空气自由流动才能运行,并且必须
具有开放的回风管道或畅通的空气路径,以帮助在操作时吸入空气。
IPI在环境中实施可持续节能战略的方法(2017年)
制冷剂/供暖供应:
该系统的工作原理与基本的空调器类似,只是在定位上有一些变化。膨胀阀(D),
压缩机(B)和冷凝器(C)位于建筑物外部,而蒸发器盘管(E)位于
熔炉制冷剂必须从内到外穿过长管
就在膨胀阀制冷剂作为低温低压液体启动之后开始。在此情况下
低压条件制冷剂具有低沸点。制冷剂被推过蒸发器
盘管,从流经盘管的热空气中吸收热量。从热空气中吸收的热量
使制冷剂沸腾并变成蒸汽。制冷剂继续通过系统流向
压缩机。当制冷剂进入压缩机时,制冷剂现在是低温低压蒸汽。
制冷剂进入压缩机,在那里被加压成高温高压蒸汽。
制冷剂现在处于非常高的压力下并且具有高沸点。在这些条件下,制冷剂
它很容易凝结。当制冷剂通过冷凝器盘管时,装置内的风扇推动空气
穿过线圈。当风扇推动空气通过散热片时,制冷剂将热量排出到通过的空气中。这个
通过的空气吸收热量,使制冷剂冷却并冷凝成液体。高压液体
向冷凝器出口即膨胀阀移动。制冷剂将作为高压进入阀
高温高压液体。该阀允许制冷剂的压力变化,制冷剂
将作为低温低压液体离开阀门,并重新开始该过程。
系统变化:
1.装置的回流可能是实际的管道系统,也可能是切割到地板和墙壁上的回流格栅
创造流通。
干燥剂轮
组件/布局:
加热线圈
干燥剂轮
排气扇
送风机
轮式电机
IPI在环境中实施可持续节能战略的方法(2017年)
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空气流量:
该系统可以作为独立系统或空气处理单元内存在。干燥剂轮(B)是旋转的
包含干燥剂材料并连接至电机(E)的轮子。轮子在两组内旋转
管道系统、大管道和小管道。在大管道内,车轮的¾%露出。较小的管道
包围车轮的¼。待除湿的空气,即工艺空气,进入大型管道,并通过
干燥剂轮。空气中的水分被干燥剂吸收。然后,空气被吸入风扇(D),并且
被推出装置。离开装置的工艺空气的含水量比进入装置时低得多
该装置温度稍高。
在装置内部,干燥剂轮转动,将充满水分的干燥剂输送至较小的管道系统。
这里,外部空气用于重新激活干燥剂;这被称为再生空气。外部空气被吸入
并在其通过时被加热线圈(a)显著加热。这种加热空气具有更大的能力:
保持水分,并以与工艺空气相反的方向穿过干燥剂。当空气穿过
干燥剂它从车轮上吸收水分并干燥干燥剂。然后将再生空气吸入
风扇(C),并作为热/湿空气排出建筑物。车轮继续转动,重新激活
干燥剂准备再次处理空间。
系统变化:
1.干燥剂轮上的管道布置可能因装置而异。
2.干燥剂轮可在空气进入空气处理器之前对空气进行预处理,或调节正在通过的空气
空气处理器,取决于设计。
3.干燥剂装置不需要
AKM32D-ACCNC-00 AKM32D-ACCNC 伺服电动机 Kollmorgen
AKM32D-ACCNC-00 AKM32D-ACCNC 伺服电动机 Kollmorgen
The device adopts the air circulation method of forced air furnace; However, it is also used for cooling
The heated air is sucked into the device through the filter (H) and sucked into the device through the blower (g). Blower driven
The air passes through the heating coil or heat exchanger (f), but the coil does not work when it is cooled. The air continues to pass
The evaporator coil or cooling coil (E) cools the air as it passes. The resulting air passes through
The supply pipe (I) leads to the space. The main objective of the system is to reasonably cool the passing air. Any dehumidification
This may become a by-product of this process. Some of the cooler air leaving the system may have been lost
But will have a higher relative humidity. The device usually runs into space
The temperature when the device is closed meets the requirements. These devices require free air flow to operate and must
Open return air duct or smooth air path shall be provided to help suck in air during operation.
IPI's approach to implementing sustainable energy conservation strategies in the environment (2017)
Refrigerant / heating supply:
The working principle of the system is similar to that of the basic air conditioner, except for some changes in positioning. An expansion valve (d),
The compressor (b) and condenser (c) are located outside the building, while the evaporator coil (E) is located
The furnace refrigerant must pass through the long pipe from inside to outside
It starts after the expansion valve refrigerant is started as a low-temperature and low-pressure liquid. In this case
The low pressure condition refrigerant has a low boiling point. The refrigerant is pushed through the evaporator
The coil absorbs heat from the hot air flowing through the coil. Heat absorbed from hot air
So that the refrigerant boils and becomes vapor. The refrigerant continues to flow through the system
compressor. When the refrigerant enters the compressor, the refrigerant is now low temperature and low pressure steam.
The refrigerant enters the compressor where it is pressurized into high temperature and high pressure steam.
The refrigerant is now at a very high pressure and has a high boiling point. Under these conditions, the refrigerant
It condenses easily. When the refrigerant passes through the condenser coil, the fan in the unit pushes the air
Pass through the coil. When the fan pushes air through the fins, the refrigerant discharges heat into the passing air. this
The passing air absorbs heat to cool the refrigerant and condense it into liquid. High pressure liquid
Move to the condenser outlet, that is, the expansion valve. The refrigerant will act as a high pressure inlet valve
High temperature and high pressure liquid. This valve allows the pressure of the refrigerant to change
Will leave the valve as low temperature and low pressure liquid and restart the process.
System changes:
1. The backflow of the device may be the actual piping system or the backflow grille cut to the floor and wall
Create circulation.
Desiccant wheel
Components / layout:
Heating coil
Desiccant wheel
exhaust fan
Forced draft fan
Wheel motor
IPI's approach to implementing sustainable energy conservation strategies in the environment (2017)
twenty-one
Air flow:
The system may exist as an independent system or in an air handling unit. Desiccant wheel (b) is rotating
Wheels containing desiccant material and connected to the motor (E). The wheels rotate in two groups
Piping system, large piping and small piping. In the large pipe, the wheel ¾% Exposed. Smaller pipes
Surrounding the wheel ¼。 The air to be dehumidified, i.e. process air, enters the large pipeline and passes through
Desiccant wheel. Moisture in the air is absorbed by the desiccant. Then, the air is sucked into the fan (d), and
Pushed out of the device. The moisture content of the process air leaving the unit is much lower than when entering the unit
The temperature of the device is slightly higher.
Inside the unit, the desiccant wheel rotates to transport the desiccant filled with water to the smaller piping system.
Here, the outside air is used to reactivate the desiccant; This is called regeneration air. Outside air is sucked in
And is significantly heated by the heating coil (a) as it passes. This kind of heated air has a greater ability:
Retain moisture and pass through the desiccant in the opposite direction to the process air. When air passes through
Desiccant it absorbs moisture from the wheels and dries the desiccant. Then, the regeneration air is sucked in
A fan (c) and is discharged from the building as hot / humid air. The wheels continue to rotate and reactivate
The desiccant is ready to treat the space again.
System changes:
1. The piping arrangement on the desiccant wheel may vary from device to device.
2. The desiccant wheel can pretreat the air before it enters the air processor, or regulate the passing air
Air handler, depending on design.
3. Desiccant device (not required)
AKM32D-ACCNC-00 AKM32D-ACCNC 伺服电动机 Kollmorgen
