Design, Assembly and Testing of HVAC Electrical Panel

This paper describes the basic concepts of the design, assembly, and testing of HVAC electrical panels. Here are the complete details about components that are used in designing of HVAC panel. HVAC panel designing consists of designing of GA drawing of the panel, designing of a power circuit for the HVAC system, and designing of a control circuit of the HVAC system. After considering different parameters, the assembly will cover up as per the guidelines and requirements of the consumer. Keywords—Importance; components; GA diagram; power wiring; control wiring; assembly; testing.


INTRODUCTION
The HVAC control panel includes the control of temperature, humidity, and airflow in a particular space. For this control, the panel has a different part to control these factors. The heating, ventilation, and air-conditioning (HVAC) system is a complex system installed in a building. A right-sized HVAC system will provide the desired comfort and also it will run efficiently. Right-sizing the HVAC system starts with an accurate understanding of the heating and cooling loads on a space. A full HVAC design involves more than a load estimate calculation. The load calculation is the first step of the HVAC design procedure. This strategy guideline discusses the information needed to design the air distribution system to deliver the proper amount of conditioned air to space. The equipment selection and the air distribution design are based upon the loads and each other. And the heating and cooling loads are dependent upon the building location and the construction of the house.

A. Importance of a Control System
• Maintain thermal comfort conditions • Maintain optimum indoor air quality • Reduce energy use • Safe plant operation • To reduce manpower costs • Identify maintenance problems • Efficient plant operation to match the load • Monitoring system performance II. GENERAL OVERVIEW AHU system is an environmental control system. This system includes the control of temperature, humidity, and airflow in a particular space. Primary AHU equipment includes heating equipment, ventilation equipment, and cooling or air-conditioning equipment. AHU system is used in different types of buildings. For example, industrial, commercial, residential and institutional buildings. The aim of the AHU system is to satisfy the thermal comfort of the building. The system adjusts or changes the outdoor air conditions to the desired condition.

A. Disconnector
Main disconnector is used to isolate the whole panel circuit from a single place. This Isolator is attached at the beginning of the panel.

B. Fuse link
A fuse is an electrical device used for protecting electrical equipment and cables from overcurrent damage. Different types of fuses are used in different electrical panels. The main types of fuses used in panels are HRC fuse and Cartridge fuse.
C. MCB MCB (Miniature Circuit Breaker) is a switching device that is capable of protecting the distribution line or feeder connected to it from overloads and faults. If a circuit overload, the mechanism inside the MCB trips the switch and breaks the continuous circuit.

D. Contactor
The contactor is used in every motor control panel.

K. Controller
The programmable controller is a predefined coded controller. AHU temperature and humidity parameter can be set in this controller. This gives the command to the control circuit when the temperature or humidity will become above or under the set Parameters.

L. Sensor
Temperature and humidity sensors (T+ Rh) are used for sensing temperature and humidity respectively in AHU units.
The designing is the first step of the production of the panel for designing there are some components that are necessary for it the following are as below: -➢The requirement sent by the receiver of the panel ➢The single line diagram including incoming line outgoing line for the applications ➢The make list for the components to be used ➢The rating of the I/P lines and the applications During this project, we measure the different parameters (length, width, height) of panel and pieces of equipment. By using these parameters, we made a Geographical Arrangement diagram of the HVAC panel.
It refers to the location of different equipment and assemblies within the overall design of the electrical panel. with the Fuse base Disconnector as mounted at the incomer of the panel. After that, it is connected with the indication LAMP which indicates the presence of all phases with the protection of single-pole MCB at sub-incomer. From the incomer, 3 Phase will directly be Connected to the terminal of VFD as L1, L2, L3 with the protection of three-pole MCB at sub-incomer. From the o/p terminal of VFD as U, V, W phase will pass from the Contactor K1. After passing from the contactor K1, 3ph directly connects to the terminal box TB1. The load that will connect with the TB1 is AHU Fan Motor. As a parallel, 3 Phase with neutral wire will directly be Connected to the terminal box TB1 with the protection of four-pole MCB at sub-incomer. The load will connect with the TB1 is Compressor.
As shown in fig 2.0 from the incomer, 3 Phase with neutral wire will directly pass from The Contactor K2 with the protection of single-pole MCB at sub-incomer. After passing from the contactor K2, 3ph directly connect to the terminal box TB1. The load that will connect with the TB1 is Heater Bank.

VI. CONTROL CIRCUIT
Control Circuit mainly use for control or providing the signal to the power circuit to operate the machine as per the demand required. However, For the HVAC panel temperature and humidity are the main functions for control and stabilize the atmosphere of the operation room or area. Moreover, to senses the temperature and humidity and as per the measures to provide the signals to the power circuit there are sensors and programable controllers that are additionally used for this co-ordination. Whereas, limit switches are also used in the control circuit to release the signals which are explained in further explanations. As shown in Fig 3.0, R-Ph is connected to the limit-switch LS1 of AHU door. Now if the door will open then the circuit will not be completed and the indicator of the AHU door will indicate that the door of the AHU machine is open. After that, it is connected to the limit-switch LS2, which is provided at the fire damper. if the fire will be Done in the system then limit switch release the signals and incomplete the power circuit for safety purpose. Moreover, AHU door will close and no fire symptoms will Show then the circuit will complete and it will give the supply to the VFD's control terminals.
There is two Relay available for auxiliary contact. Power has given in the common contact of both Relay. Both Relay has one NO and NC contact. AHU Fan Trip indicator will connect through the NO terminal of Relay 1. While DOL Starter with auxiliary Relay will connect through the NC contact of Relay 1. The DOL starter for AHU Fan Motor with the help of auxiliary Relay and smooth starting through the VFD. Moreover, in fault condition trip signal will terminate by the co-ordination of VFD's Relay.
As the START signal will release by the START button the Auxiliary Relay will be energized and the NO contact of Relay will close and the signal will release to the Relay 2 of VFD and the NO contact will close. As of NO contact of Relay 2 will close the supply will energize the Contactor K1 and the AHU Fan motor will start with the nominal speed as the program via VFD.
Furthermore, The R phase passes through the auxiliary contact NO of contactor K1. As of contactor, K1 energizes NO contact will close and the supply passes through the contact and the Panel cooling Fan will ON and also AHU FAN ON indicator will indicate that motor is ON. Moreover, supply passes through the SMPS which converts the power into DC Supply and it will give to the programmable controller which gives the signal to the heater bank and compressor for the temperature and humidity control for operational area or room. The temperature and humidity were measured through the temperature sensor and humidity sensor which are connected to the programmable controller. The programmable controller will measure the result of the sensor and convert it into the digital signal.

C. Wiring
The wiring is the most important part of the panel because the control of the panel and power transmission is also done through wire. The control wiring is usually done with 2.5 Sq. mm copper wire or the 1.5 Sq. mm copper wire. We have to draw the wire as per the designed diagram in the panel and select the wire as specified by the designer. Cable tie will use for making a bunch of wire. Given points are consider during wiring.
➢ Select the type of wire and gauge of wire as per requirement ➢ RED, YELLOW, BLUE colours are considered for power wiring and grey colour for control wiring ➢ Measurement for wiring and cut the wire as per measurements ➢ Fix the lug and ferrule on wire for wire indication ➢ Follow BS7671/ IET wiring regulation ➢ Follow company standards and procedures VIII. TESTING At the end of the panel, fabrication is to check the panel meets the requirement of the consumer. There is some test list below for checking the quality, electrical, and logic for the panel after the process of assembly is been completed.

IX. CONCLUSION
This paper describes the process of designing of the electrical panel for the HVAC system. This paper describes how the actual panel works from the power circuit diagram and control circuit diagram. We can build this type of HVAC panel design according to the requirement.

ACKNOWLEDGEMENT
The developed HVAC electrical panel is effectively applicable for air handling unit to achieve comfortable atmosphere Facilities for buildings of factories. This electrical panel has controller and sensors for provide building management system as per consumer's requirements. We like to appreciate the support provided by our faculty guide and our host company "Narnarayan electricals" to provide technical support.