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"PLC SCADA and HMI Panels" Automation Training Course Duration: 6 Weeks, Saturday-Sunday (Total 60 Contact Hrs) Class: 10:00 AM to 2:00 PM Starting: Saturday, 14 Mar 2020 (1st Day FREE ????) SIEMENS PLCs 300/400/1200 in Totally Integrated Automation (TIA portal) Training material Full Course PDF format Practical Course Exercises Software Setup (TIA Portal 13, SCADA WinCC 7.5) Certification in PLC, SCADA and HMI Training Complete Hardware Training Kits Certified Professional Trainer with more than 15 years Industrial experience Fee installment options Course Content: Contact: +92 320 050 1217 Location: Islamabad Website: Views: 9

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Professional Training of HVAC HEATING, VENTILATION,AIR CONDITIONING HVAC Course Heating, ventilation, and air conditioning (HVAC) is an indoor and vehicular environmental comforting technology. The technology aims to provide thermal comfort and high indoor air quality. The techniques of ventilating a building is further divided into a few types as mechanical, forced, and natural ventilation that will provide optimal temperature throughout the day and night. HVAC does the above function, through three different and integrated parts such as heating, ventilation, and air-conditioning at required points or wherever necessary. Installing, HVAC systems has become common in the recent days and also the required industry standard for construction of new buildings. Introduction to HVAC The need for HVAC References, standards and codes Terms, definitions and units HVAC system type overview Ventilation and air quality Buildings and energy efficiency Psychrometrics Properties of moist air Psychrometric chart Sensible and latent Combined processes Mixing of air streams Refrigeration Definitions Refrigerant selection Safety considerations Pressure and enthalpy Phase change concepts Vapor compression cycle System components Heating and Cooling Loads Loads and energy Heat transfer Weather data Infiltration and ventilation Cooling load calculations All Air Systems Definition of “all air systems” Types of all supply and return air systems Recirculating / Mixed Air Systems Dedicated Outside Air (DOAS) Systems Overhead / Dilution Type: Constant Volume (CAV) and Variable Volume (VAV) Displacement / UFAD Type Types of exhaust systems General – Toilet, etc. Laboratory, process, or other specialty systems Types of central equipment Packaged / Unitary systems Split systems Air handling units Fans Types of terminal equipment Air Terminal Units / VAV Boxes Grilles, Registers, & Diffusers System Comparison – Advantages / Disadvantages Hybrid approaches Applications / Examples Hydronic Systems Definition of “hydronics” Comparison to air systems Types of hydronic systems Heating Hot Water Chilled Water Condenser Water: Tower and Geo-exchange Glycol Water Types of central equipment Boilers Chillers Cooling Towers / Fluid Coolers Pumps Heat Exchangers Types of terminal equipment Coils Unit Heaters Fan Coil Units Chilled Beams Radiant System Comparison – Advantages / Disadvantages Steam and Steam Condensate Definition of “steam” Comparison to air and hydronic systems ASME Codes / Safety Types of steam and condensate systems Low Pressure High Pressure Condensate Collection: Gravity return, Pumped return, Vacuum Types of central equipment Boilers Heat Exchangers Make-up water systems Types of terminal equipment Coils Humidifiers Unit Heaters Fan Coil Units Radiant System Comparison - Advantages / Disadvantages Applications / Examples Field Tour - Wisconsin Energy Institute Controls: Building Automation Systems Definition / Purpose of “Building Automation System (BAS)” Types of HVAC control systems Local Centralized (Building-wide) Pneumatic Direct Digital Control Pneumatic-Hybrid Programmable Logic Control (PLC) Type of control equipment Valves Dampers Actuators Sensors and thermostats Types of Controls Proportional/Modulating Control Concepts Open/Closed Loop Control Wisconsin Energy Institute Sequence of Operations Mechanical Flow Diagrams INSTITUTE OF PROFESSIONAL AND TECHNICAL STUDIES (IPATS) Whatsapp: +92 3219606785, 03035530865 Call: +923315145601, 03495021336 Head Office: 2nd Floor, Yasir Plaza, Near Chatri Chowk, Khanna Pull, Qadeer Road, Rawalpindi, Pakistan Contact Office: +923219606785, 03035530865, 0331-5145601, 0349-5021336 Email: ipatsedu@gmail.com Website: www.ipatsedu.comProfessional Training of HVAC HEATING, VENTILATION,AIR CONDITIONING HVAC Course Heating, ventilation, and air conditioning (HVAC) is an indoor and vehicular environmental comforting technology. The technology aims to provide thermal comfort and high indoor air quality. The techniques of ventilating a building is further divided into a few types as mechanical, forced, and natural ventilation that will provide optimal temperature throughout the day and night. HVAC does the above function, through three different and integrated parts such as heating, ventilation, and air-conditioning at required points or wherever necessary. Installing, HVAC systems has become common in the recent days and also the required industry standard for construction of new buildings. Introduction to HVAC The need for HVAC References, standards and codes Terms, definitions and units HVAC system type overview Ventilation and air quality Buildings and energy efficiency Psychrometrics Properties of moist air Psychrometric chart Sensible and latent Combined processes Mixing of air streams Refrigeration Definitions Refrigerant selection Safety considerations Pressure and enthalpy Phase change concepts Vapor compression cycle System components Heating and Cooling Loads Loads and energy Heat transfer Weather data Infiltration and ventilation Cooling load calculations All Air Systems Definition of “all air systems” Types of all supply and return air systems Recirculating / Mixed Air Systems Dedicated Outside Air (DOAS) Systems Overhead / Dilution Type: Constant Volume (CAV) and Variable Volume (VAV) Displacement / UFAD Type Types of exhaust systems General – Toilet, etc. Laboratory, process, or other specialty systems Types of central equipment Packaged / Unitary systems Split systems Air handling units Fans Types of terminal equipment Air Terminal Units / VAV Boxes Grilles, Registers, & Diffusers System Comparison – Advantages / Disadvantages Hybrid approaches Applications / Examples Hydronic Systems Definition of “hydronics” Comparison to air systems Types of hydronic systems Heating Hot Water Chilled Water Condenser Water: Tower and Geo-exchange Glycol Water Types of central equipment Boilers Chillers Cooling Towers / Fluid Coolers Pumps Heat Exchangers Types of terminal equipment Coils Unit Heaters Fan Coil Units Chilled Beams Radiant System Comparison – Advantages / Disadvantages Steam and Steam Condensate Definition of “steam” Comparison to air and hydronic systems ASME Codes / Safety Types of steam and condensate systems Low Pressure High Pressure Condensate Collection: Gravity return, Pumped return, Vacuum Types of central equipment Boilers Heat Exchangers Make-up water systems Types of terminal equipment Coils Humidifiers Unit Heaters Fan Coil Units Radiant System Comparison - Advantages / Disadvantages Applications / Examples Field Tour - Wisconsin Energy Institute Controls: Building Automation Systems Definition / Purpose of “Building Automation System (BAS)” Types of HVAC control systems Local Centralized (Building-wide) Pneumatic Direct Digital Control Pneumatic-Hybrid Programmable Logic Control (PLC) Type of control equipment Valves Dampers Actuators Sensors and thermostats Types of Controls Proportional/Modulating Control Concepts Open/Closed Loop Control Wisconsin Energy Institute Sequence of Operations Mechanical Flow Diagrams INSTITUTE OF PROFESSIONAL AND TECHNICAL STUDIES (IPATS) Whatsapp: +92 3219606785, 03035530865 Call: +923315145601, 03495021336 Head Office: 2nd Floor, Yasir Plaza, Near Chatri Chowk, Khanna Pull, Qadeer Road, Rawalpindi, Pakistan Contact Office: +923219606785, 03035530865, 0331-5145601, 0349-5021336 Email: ipatsedu@gmail.com Website: www.ipatsedu.comProfessional Training of HVAC HEATING, VENTILATION,AIR CONDITIONING HVAC Course Heating, ventilation, and air conditioning (HVAC) is an indoor and vehicular environmental comforting technology. The technology aims to provide thermal comfort and high indoor air quality. The techniques of ventilating a building is further divided into a few types as mechanical, forced, and natural ventilation that will provide optimal temperature throughout the day and night. HVAC does the above function, through three different and integrated parts such as heating, ventilation, and air-conditioning at required points or wherever necessary. Installing, HVAC systems has become common in the recent days and also the required industry standard for construction of new buildings. Introduction to HVAC The need for HVAC References, standards and codes Terms, definitions and units HVAC system type overview Ventilation and air quality Buildings and energy efficiency Psychrometrics Properties of moist air Psychrometric chart Sensible and latent Combined processes Mixing of air streams Refrigeration Definitions Refrigerant selection Safety considerations Pressure and enthalpy Phase change concepts Vapor compression cycle System components Heating and Cooling Loads Loads and energy Heat transfer Weather data Infiltration and ventilation Cooling load calculations All Air Systems Definition of “all air systems” Types of all supply and return air systems Recirculating / Mixed Air Systems Dedicated Outside Air (DOAS) Systems Overhead / Dilution Type: Constant Volume (CAV) and Variable Volume (VAV) Displacement / UFAD Type Types of exhaust systems General – Toilet, etc. Laboratory, process, or other specialty systems Types of central equipment Packaged / Unitary systems Split systems Air handling units Fans Types of terminal equipment Air Terminal Units / VAV Boxes Grilles, Registers, & Diffusers System Comparison – Advantages / Disadvantages Hybrid approaches Applications / Examples Hydronic Systems Definition of “hydronics” Comparison to air systems Types of hydronic systems Heating Hot Water Chilled Water Condenser Water: Tower and Geo-exchange Glycol Water Types of central equipment Boilers Chillers Cooling Towers / Fluid Coolers Pumps Heat Exchangers Types of terminal equipment Coils Unit Heaters Fan Coil Units Chilled Beams Radiant System Comparison – Advantages / Disadvantages Steam and Steam Condensate Definition of “steam” Comparison to air and hydronic systems ASME Codes / Safety Types of steam and condensate systems Low Pressure High Pressure Condensate Collection: Gravity return, Pumped return, Vacuum Types of central equipment Boilers Heat Exchangers Make-up water systems Types of terminal equipment Coils Humidifiers Unit Heaters Fan Coil Units Radiant System Comparison - Advantages / Disadvantages Applications / Examples Field Tour - Wisconsin Energy Institute Controls: Building Automation Systems Definition / Purpose of “Building Automation System (BAS)” Types of HVAC control systems Local Centralized (Building-wide) Pneumatic Direct Digital Control Pneumatic-Hybrid Programmable Logic Control (PLC) Type of control equipment Valves Dampers Actuators Sensors and thermostats Types of Controls Proportional/Modulating Control Concepts Open/Closed Loop Control Wisconsin Energy Institute Sequence of Operations Mechanical Flow Diagrams INSTITUTE OF PROFESSIONAL AND TECHNICAL STUDIES (IPATS) Whatsapp: +92 3219606785, 03035530865 Call: +923315145601, 03495021336 Head Office: 2nd Floor, Yasir Plaza, Near Chatri Chowk, Khanna Pull, Qadeer Road, Rawalpindi, Pakistan Contact Office: +923219606785, 03035530865, 0331-5145601, 0349-5021336 Email: ipatsedu@gmail.com Website: www.ipatsedu.comProfessional Training of HVAC HEATING, VENTILATION,AIR CONDITIONING HVAC Course Heating, ventilation, and air conditioning (HVAC) is an indoor and vehicular environmental comforting technology. The technology aims to provide thermal comfort and high indoor air quality. The techniques of ventilating a building is further divided into a few types as mechanical, forced, and natural ventilation that will provide optimal temperature throughout the day and night. HVAC does the above function, through three different and integrated parts such as heating, ventilation, and air-conditioning at required points or wherever necessary. Installing, HVAC systems has become common in the recent days and also the required industry standard for construction of new buildings. Introduction to HVAC The need for HVAC References, standards and codes Terms, definitions and units HVAC system type overview Ventilation and air quality Buildings and energy efficiency Psychrometrics Properties of moist air Psychrometric chart Sensible and latent Combined processes Mixing of air streams Refrigeration Definitions Refrigerant selection Safety considerations Pressure and enthalpy Phase change concepts Vapor compression cycle System components Heating and Cooling Loads Loads and energy Heat transfer Weather data Infiltration and ventilation Cooling load calculations All Air Systems Definition of “all air systems” Types of all supply and return air systems Recirculating / Mixed Air Systems Dedicated Outside Air (DOAS) Systems Overhead / Dilution Type: Constant Volume (CAV) and Variable Volume (VAV) Displacement / UFAD Type Types of exhaust systems General – Toilet, etc. Laboratory, process, or other specialty systems Types of central equipment Packaged / Unitary systems Split systems Air handling units Fans Types of terminal equipment Air Terminal Units / VAV Boxes Grilles, Registers, & Diffusers System Comparison – Advantages / Disadvantages Hybrid approaches Applications / Examples Hydronic Systems Definition of “hydronics” Comparison to air systems Types of hydronic systems Heating Hot Water Chilled Water Condenser Water: Tower and Geo-exchange Glycol Water Types of central equipment Boilers Chillers Cooling Towers / Fluid Coolers Pumps Heat Exchangers Types of terminal equipment Coils Unit Heaters Fan Coil Units Chilled Beams Radiant System Comparison – Advantages / Disadvantages Steam and Steam Condensate Definition of “steam” Comparison to air and hydronic systems ASME Codes / Safety Types of steam and condensate systems Low Pressure High Pressure Condensate Collection: Gravity return, Pumped return, Vacuum Types of central equipment Boilers Heat Exchangers Make-up water systems Types of terminal equipment Coils Humidifiers Unit Heaters Fan Coil Units Radiant System Comparison - Advantages / Disadvantages Applications / Examples Field Tour - Wisconsin Energy Institute Controls: Building Automation Systems Definition / Purpose of “Building Automation System (BAS)” Types of HVAC control systems Local Centralized (Building-wide) Pneumatic Direct Digital Control Pneumatic-Hybrid Programmable Logic Control (PLC) Type of control equipment Valves Dampers Actuators Sensors and thermostats Types of Controls Proportional/Modulating Control Concepts Open/Closed Loop Control Wisconsin Energy Institute Sequence of Operations Mechanical Flow Diagrams INSTITUTE OF PROFESSIONAL AND TECHNICAL STUDIES (IPATS) Whatsapp: +92 3219606785, 03035530865 Call: +923315145601, 03495021336 Head Office: 2nd Floor, Yasir Plaza, Near Chatri Chowk, Khanna Pull, Qadeer Road, Rawalpindi, Pakistan Contact Office: +923219606785, 03035530865, 0331-5145601, 0349-5021336Professional Training of HVAC HEATING, VENTILATION,AIR CONDITIONING HVAC Course Heating, ventilation, and air conditioning (HVAC) is an indoor and vehicular environmental comforting technology. The technology aims to provide thermal comfort and high indoor air quality. The techniques of ventilating a building is further divided into a few types as mechanical, forced, and natural ventilation that will provide optimal temperature throughout the day and night. HVAC does the above function, through three different and integrated parts such as heating, ventilation, and air-conditioning at required points or wherever necessary. Installing, HVAC systems has become common in the recent days and also the required industry standard for construction of new buildings. Introduction to HVAC The need for HVAC References, standards and codes Terms, definitions and units HVAC system type overview Ventilation and air quality Buildings and energy efficiency Psychrometrics Properties of moist air Psychrometric chart Sensible and latent Combined processes Mixing of air streams Refrigeration Definitions Refrigerant selection Safety considerations Pressure and enthalpy Phase change concepts Vapor compression cycle System components Heating and Cooling Loads Loads and energy Heat transfer Weather data Infiltration and ventilation Cooling load calculations All Air Systems Definition of “all air systems” Types of all supply and return air systems Recirculating / Mixed Air Systems Dedicated Outside Air (DOAS) Systems Overhead / Dilution Type: Constant Volume (CAV) and Variable Volume (VAV) Displacement / UFAD Type Types of exhaust systems General – Toilet, etc. Laboratory, process, or other specialty systems Types of central equipment Packaged / Unitary systems Split systems Air handling units Fans Types of terminal equipment Air Terminal Units / VAV Boxes Grilles, Registers, & Diffusers System Comparison – Advantages / Disadvantages Hybrid approaches Applications / Examples Hydronic Systems Definition of “hydronics” Comparison to air systems Types of hydronic systems Heating Hot Water Chilled Water Condenser Water: Tower and Geo-exchange Glycol Water Types of central equipment Boilers Chillers Cooling Towers / Fluid Coolers Pumps Heat Exchangers Types of terminal equipment Coils Unit Heaters Fan Coil Units Chilled Beams Radiant System Comparison – Advantages / Disadvantages Steam and Steam Condensate Definition of “steam” Comparison to air and hydronic systems ASME Codes / Safety Types of steam and condensate systems Low Pressure High Pressure Condensate Collection: Gravity return, Pumped return, Vacuum Types of central equipment Boilers Heat Exchangers Make-up water systems Types of terminal equipment Coils Humidifiers Unit Heaters Fan Coil Units Radiant System Comparison - Advantages / Disadvantages Applications / Examples Field Tour - Wisconsin Energy Institute Controls: Building Automation Systems Definition / Purpose of “Building Automation System (BAS)” Types of HVAC control systems Local Centralized (Building-wide) Pneumatic Direct Digital Control Pneumatic-Hybrid Programmable Logic Control (PLC) Type of control equipment Valves Dampers Actuators Sensors and thermostats Types of Controls Proportional/Modulating Control Concepts Open/Closed Loop Control Wisconsin Energy Institute Sequence of Operations Mechanical Flow Diagrams INSTITUTE OF PROFESSIONAL AND TECHNICAL STUDIES (IPATS) Whatsapp: +92 3219606785, 03035530865 Call: +923315145601, 03495021336 Head Office: 2nd Floor, Yasir Plaza, Near Chatri Chowk, Khanna Pull, Qadeer Road, Rawalpindi, Pakistan Contact Office: +923219606785, 03035530865, 0331-5145601, 0349-5021336 Email: ipatsedu@gmail.com Website: www.ipatsedu.comProfessional Training of HVAC HEATING, VENTILATION,AIR CONDITIONING HVAC Course Heating, ventilation, and air conditioning (HVAC) is an indoor and vehicular environmental comforting technology. The technology aims to provide thermal comfort and high indoor air quality. The techniques of ventilating a building is further divided into a few types as mechanical, forced, and natural ventilation that will provide optimal temperature throughout the day and night. HVAC does the above function, through three different and integrated parts such as heating, ventilation, and air-conditioning at required points or wherever necessary. Installing, HVAC systems has become common in the recent days and also the required industry standard for construction of new buildings. Introduction to HVAC The need for HVAC References, standards and codes Terms, definitions and units HVAC system type overview Ventilation and air quality Buildings and energy efficiency Psychrometrics Properties of moist air Psychrometric chart Sensible and latent Combined processes Mixing of air streams Refrigeration Definitions Refrigerant selection Safety considerations Pressure and enthalpy Phase change concepts Vapor compression cycle System components Heating and Cooling Loads Loads and energy Heat transfer Weather data Infiltration and ventilation Cooling load calculations All Air Systems Definition of “all air systems” Types of all supply and return air systems Recirculating / Mixed Air Systems Dedicated Outside Air (DOAS) Systems Overhead / Dilution Type: Constant Volume (CAV) and Variable Volume (VAV) Displacement / UFAD Type Types of exhaust systems General – Toilet, etc. Laboratory, process, or other specialty systems Types of central equipment Packaged / Unitary systems Split systems Air handling units Fans Types of terminal equipment Air Terminal Units / VAV Boxes Grilles, Registers, & Diffusers System Comparison – Advantages / Disadvantages Hybrid approaches Applications / Examples Hydronic Systems Definition of “hydronics” Comparison to air systems Types of hydronic systems Heating Hot Water Chilled Water Condenser Water: Tower and Geo-exchange Glycol Water Types of central equipment Boilers Chillers Cooling Towers / Fluid Coolers Pumps Heat Exchangers Types of terminal equipment Coils Unit Heaters Fan Coil Units Chilled Beams Radiant System Comparison – Advantages / Disadvantages Steam and Steam Condensate Definition of “steam” Comparison to air and hydronic systems ASME Codes / Safety Types of steam and condensate systems Low Pressure High Pressure Condensate Collection: Gravity return, Pumped return, Vacuum Types of central equipment Boilers Heat Exchangers Make-up water systems Types of terminal equipment Coils Humidifiers Unit Heaters Fan Coil Units Radiant System Comparison - Advantages / Disadvantages Applications / Examples Field Tour - Wisconsin Energy Institute Controls: Building Automation Systems Definition / Purpose of “Building Automation System (BAS)” Types of HVAC control systems Local Centralized (Building-wide) Pneumatic Direct Digital Control Pneumatic-Hybrid Programmable Logic Control (PLC) Type of control equipment Valves Dampers Actuators Sensors and thermostats Types of Controls Proportional/Modulating Control Concepts Open/Closed Loop Control Wisconsin Energy Institute Sequence of Operations Mechanical Flow Diagrams INSTITUTE OF PROFESSIONAL AND TECHNICAL STUDIES (IPATS) Whatsapp: +92 3219606785, 03035530865 Call: +923315145601, 03495021336 Head Office: 2nd Floor, Yasir Plaza, Near Chatri Chowk, Khanna Pull, Qadeer Road, Rawalpindi, Pakistan Contact Office: +923219606785, 03035530865, 0331-5145601, 0349-5021336 Email: ipatsedu@gmail.com Website: www.ipatsedu.comProfessional Training of HVAC HEATING, VENTILATION,AIR CONDITIONING HVAC Course Heating, ventilation, and air conditioning (HVAC) is an indoor and vehicular environmental comforting technology. The technology aims to provide thermal comfort and high indoor air quality. The techniques of ventilating a building is further divided into a few types as mechanical, forced, and natural ventilation that will provide optimal temperature throughout the day and night. HVAC does the above function, through three different and integrated parts such as heating, ventilation, and air-conditioning at required points or wherever necessary. Installing, HVAC systems has become common in the recent days and also the required industry standard for construction of new buildings. Introduction to HVAC The need for HVAC References, standards and codes Terms, definitions and units HVAC system type overview Ventilation and air quality Buildings and energy efficiency Psychrometrics Properties of moist air Psychrometric chart Sensible and latent Combined processes Mixing of air streams Refrigeration Definitions Refrigerant selection Safety considerations Pressure and enthalpy Phase change concepts Vapor compression cycle System components Heating and Cooling Loads Loads and energy Heat transfer Weather data Infiltration and ventilation Cooling load calculations All Air Systems Definition of “all air systems” Types of all supply and return air systems Recirculating / Mixed Air Systems Dedicated Outside Air (DOAS) Systems Overhead / Dilution Type: Constant Volume (CAV) and Variable Volume (VAV) Displacement / UFAD Type Types of exhaust systems General – Toilet, etc. Laboratory, process, or other specialty systems Types of central equipment Packaged / Unitary systems Split systems Air handling units Fans Types of terminal equipment Air Terminal Units / VAV Boxes Grilles, Registers, & Diffusers System Comparison – Advantages / Disadvantages Hybrid approaches Applications / Examples Hydronic Systems Definition of “hydronics” Comparison to air systems Types of hydronic systems Heating Hot Water Chilled Water Condenser Water: Tower and Geo-exchange Glycol Water Types of central equipment Boilers Chillers Cooling Towers / Fluid Coolers Pumps Heat Exchangers Types of terminal equipment Coils Unit Heaters Fan Coil Units Chilled Beams Radiant System Comparison – Advantages / Disadvantages Steam and Steam Condensate Definition of “steam” Comparison to air and hydronic systems ASME Codes / Safety Types of steam and condensate systems Low Pressure High Pressure Condensate Collection: Gravity return, Pumped return, Vacuum Types of central equipment Boilers Heat Exchangers Make-up water systems Types of terminal equipment Coils Humidifiers Unit Heaters Fan Coil Units Radiant System Comparison - Advantages / Disadvantages Applications / Examples Field Tour - Wisconsin Energy Institute Controls: Building Automation Systems Definition / Purpose of “Building Automation System (BAS)” Types of HVAC control systems Local Centralized (Building-wide) Pneumatic Direct Digital Control Pneumatic-Hybrid Programmable Logic Control (PLC) Type of control equipment Valves Dampers Actuators Sensors and thermostats Types of Controls Proportional/Modulating Control Concepts Open/Closed Loop Control Wisconsin Energy Institute Sequence of Operations Mechanical Flow Diagrams INSTITUTE OF PROFESSIONAL AND TECHNICAL STUDIES (IPATS) Whatsapp: +92 3219606785, 03035530865 Call: +923315145601, 03495021336 Head Office: 2nd Floor, Yasir Plaza, Near Chatri Chowk, Khanna Pull, Qadeer Road, Rawalpindi, Pakistan Contact Office: +923219606785, 03035530865, 0331-5145601, 0349-5021336 Email: ipatsedu@gmail.com Website: www.ipatsedu.comProfessional Training of HVAC HEATING, VENTILATION,AIR CONDITIONING HVAC Course Heating, ventilation, and air conditioning (HVAC) is an indoor and vehicular environmental comforting technology. The technology aims to provide thermal comfort and high indoor air quality. The techniques of ventilating a building is further divided into a few types as mechanical, forced, and natural ventilation that will provide optimal temperature throughout the day and night. HVAC does the above function, through three different and integrated parts such as heating, ventilation, and air-conditioning at required points or wherever necessary. Installing, HVAC systems has become common in the recent days and also the required industry standard for construction of new buildings. Introduction to HVAC The need for HVAC References, standards and codes Terms, definitions and units HVAC system type overview Ventilation and air quality Buildings and energy efficiency Psychrometrics Properties of moist air Psychrometric chart Sensible and latent Combined processes Mixing of air streams Refrigeration Definitions Refrigerant selection Safety considerations Pressure and enthalpy Phase change concepts Vapor compression cycle System components Heating and Cooling Loads Loads and energy Heat transfer Weather data Infiltration and ventilation Cooling load calculations All Air Systems Definition of “all air systems” Types of all supply and return air systems Recirculating / Mixed Air Systems Dedicated Outside Air (DOAS) Systems Overhead / Dilution Type: Constant Volume (CAV) and Variable Volume (VAV) Displacement / UFAD Type Types of exhaust systems General – Toilet, etc. Laboratory, process, or other specialty systems Types of central equipment Packaged / Unitary systems Split systems Air handling units Fans Types of terminal equipment Air Terminal Units / VAV Boxes Grilles, Registers, & Diffusers System Comparison – Advantages / Disadvantages Hybrid approaches Applications / Examples Hydronic Systems Definition of “hydronics” Comparison to air systems Types of hydronic systems Heating Hot Water Chilled Water Condenser Water: Tower and Geo-exchange Glycol Water Types of central equipment Boilers Chillers Cooling Towers / Fluid Coolers Pumps Heat Exchangers Types of terminal equipment Coils Unit Heaters Fan Coil Units Chilled Beams Radiant System Comparison – Advantages / Disadvantages Steam and Steam Condensate Definition of “steam” Comparison to air and hydronic systems ASME Codes / Safety Types of steam and condensate systems Low Pressure High Pressure Condensate Collection: Gravity return, Pumped return, Vacuum Types of central equipment Boilers Heat Exchangers Make-up water systems Types of terminal equipment Coils Humidifiers Unit Heaters Fan Coil Units Radiant System Comparison - Advantages / Disadvantages Applications / Examples Field Tour - Wisconsin Energy Institute Controls: Building Automation Systems Definition / Purpose of “Building Automation System (BAS)” Types of HVAC control systems Local Centralized (Building-wide) Pneumatic Direct Digital Control Pneumatic-Hybrid Programmable Logic Control (PLC) Type of control equipment Valves Dampers Actuators Sensors and thermostats Types of Controls Proportional/Modulating Control Concepts Open/Closed Loop Control Wisconsin Energy Institute Sequence of Operations Mechanical Flow Diagrams INSTITUTE OF PROFESSIONAL AND TECHNICAL STUDIES (IPATS) Whatsapp: +92 3219606785, 03035530865 Call: +923315145601, 03495021336 Head Office: 2nd Floor, Yasir Plaza, Near Chatri Chowk, Khanna Pull, Qadeer Road, Rawalpindi, Pakistan Contact Office: +923219606785, 03035530865, 0331-5145601, 0349-5021336 Email: ipatsedu@gmail.com Website: www.ipatsedu.comProfessional Training of HVAC HEATING, VENTILATION,AIR CONDITIONING HVAC Course Heating, ventilation, and air conditioning (HVAC) is an indoor and vehicular environmental comforting technology. The technology aims to provide thermal comfort and high indoor air quality. The techniques of ventilating a building is further divided into a few types as mechanical, forced, and natural ventilation that will provide optimal temperature throughout the day and night. HVAC does the above function, through three different and integrated parts such as heating, ventilation, and air-conditioning at required points or wherever necessary. Installing, HVAC systems has become common in the recent days and also the required industry standard for construction of new buildings. Introduction to HVAC The need for HVAC References, standards and codes Terms, definitions and units HVAC system type overview Ventilation and air quality Buildings and energy efficiency Psychrometrics Properties of moist air Psychrometric chart Sensible and latent Combined processes Mixing of air streams Refrigeration Definitions Refrigerant selection Safety considerations Pressure and enthalpy Phase change concepts Vapor compression cycle System components Heating and Cooling Loads Loads and energy Heat transfer Weather data Infiltration and ventilation Cooling load calculations All Air Systems Definition of “all air systems” Types of all supply and return air systems Recirculating / Mixed Air Systems Dedicated Outside Air (DOAS) Systems Overhead / Dilution Type: Constant Volume (CAV) and Variable Volume (VAV) Displacement / UFAD Type Types of exhaust systems General – Toilet, etc. Laboratory, process, or other specialty systems Types of central equipment Packaged / Unitary systems Split systems Air handling units Fans Types of terminal equipment Air Terminal Units / VAV Boxes Grilles, Registers, & Diffusers System Comparison – Advantages / Disadvantages Hybrid approaches Applications / Examples Hydronic Systems Definition of “hydronics” Comparison to air systems Types of hydronic systems Heating Hot Water Chilled Water Condenser Water: Tower and Geo-exchange Glycol Water Types of central equipment Boilers Chillers Cooling Towers / Fluid Coolers Pumps Heat Exchangers Types of terminal equipment Coils Unit Heaters Fan Coil Units Chilled Beams Radiant System Comparison – Advantages / Disadvantages Steam and Steam Condensate Definition of “steam” Comparison to air and hydronic systems ASME Codes / Safety Types of steam and condensate systems Low Pressure High Pressure Condensate Collection: Gravity return, Pumped return, Vacuum Types of central equipment Boilers Heat Exchangers Make-up water systems Types of terminal equipment Coils Humidifiers Unit Heaters Fan Coil Units Radiant System Comparison - Advantages / Disadvantages Applications / Examples Field Tour - Wisconsin Energy Institute Controls: Building Automation Systems Definition / Purpose of “Building Automation System (BAS)” Types of HVAC control systems Local Centralized (Building-wide) Pneumatic Direct Digital Control Pneumatic-Hybrid Programmable Logic Control (PLC) Type of control equipment Valves Dampers Actuators Sensors and thermostats Types of Controls Proportional/Modulating Control Concepts Open/Closed Loop Control Wisconsin Energy Institute Sequence of Operations Mechanical Flow Diagrams INSTITUTE OF PROFESSIONAL AND TECHNICAL STUDIES (IPATS) Whatsapp: +92 3219606785, 03035530865 Call: +923315145601, 03495021336 Head Office: 2nd Floor, Yasir Plaza, Near Chatri Chowk, Khanna Pull, Qadeer Road, Rawalpindi, Pakistan Contact Office: +923219606785, 03035530865, 0331-5145601, 0349-5021336 Email: ipatsedu@gmail.com Website: www.ipatsedu.comProfessional Training of HVAC HEATING, VENTILATION,AIR CONDITIONING HVAC Course Heating, ventilation, and air conditioning (HVAC) is an indoor and vehicular environmental comforting technology. The technology aims to provide thermal comfort and high indoor air quality. The techniques of ventilating a building is further divided into a few types as mechanical, forced, and natural ventilation that will provide optimal temperature throughout the day and night. HVAC does the above function, through three different and integrated parts such as heating, ventilation, and air-conditioning at required points or wherever necessary. Installing, HVAC systems has become common in the recent days and also the required industry standard for construction of new buildings. Introduction to HVAC The need for HVAC References, standards and codes Terms, definitions and units HVAC system type overview Ventilation and air quality Buildings and energy efficiency Psychrometrics Properties of moist air Psychrometric chart Sensible and latent Combined processes Mixing of air streams Refrigeration Definitions Refrigerant selection Safety considerations Pressure and enthalpy Phase change concepts Vapor compression cycle System components Heating and Cooling Loads Loads and energy Heat transfer Weather data Infiltration and ventilation Cooling load calculations All Air Systems Definition of “all air systems” Types of all supply and return air systems Recirculating / Mixed Air Systems Dedicated Outside Air (DOAS) Systems Overhead / Dilution Type: Constant Volume (CAV) and Variable Volume (VAV) Displacement / UFAD Type Types of exhaust systems General – Toilet, etc. Laboratory, process, or other specialty systems Types of central equipment Packaged / Unitary systems Split systems Air handling units Fans Types of terminal equipment Air Terminal Units / VAV Boxes Grilles, Registers, & Diffusers System Comparison – Advantages / Disadvantages Hybrid approaches Applications / Examples Hydronic Systems Definition of “hydronics” Comparison to air systems Types of hydronic systems Heating Hot Water Chilled Water Condenser Water: Tower and Geo-exchange Glycol Water Types of central equipment Boilers Chillers Cooling Towers / Fluid Coolers Pumps Heat Exchangers Types of terminal equipment Coils Unit Heaters Fan Coil Units Chilled Beams Radiant System Comparison – Advantages / Disadvantages Steam and Steam Condensate Definition of “steam” Comparison to air and hydronic systems ASME Codes / Safety Types of steam and condensate systems Low Pressure High Pressure Condensate Collection: Gravity return, Pumped return, Vacuum Types of central equipment Boilers Heat Exchangers Make-up water systems Types of terminal equipment Coils Humidifiers Unit Heaters Fan Coil Units Radiant System Comparison - Advantages / Disadvantages Applications / Examples Field Tour - Wisconsin Energy Institute Controls: Building Automation Systems Definition / Purpose of “Building Automation System (BAS)” Types of HVAC control systems Local Centralized (Building-wide) Pneumatic Direct Digital Control Pneumatic-Hybrid Programmable Logic Control (PLC) Type of control equipment Valves Dampers Actuators Sensors and thermostats Types of Controls Proportional/Modulating Control Concepts Open/Closed Loop Control Wisconsin Energy Institute Sequence of Operations Mechanical Flow Diagrams INSTITUTE OF PROFESSIONAL AND TECHNICAL STUDIES (IPATS) Whatsapp: +92 3219606785, 03035530865 Call: +923315145601, 03495021336 Head Office: 2nd Floor, Yasir Plaza, Near Chatri Chowk, Khanna Pull, Qadeer Road, Rawalpindi, Pakistan Contact Office: +923219606785, 03035530865, 0331-5145601, 0349-5021336 Email: ipatsedu@gmail.com Website: www.ipatsedu.comProfessional Training of HVAC HEATING, VENTILATION,AIR CONDITIONING HVAC Course Heating, ventilation, and air conditioning (HVAC) is an indoor and vehicular environmental comforting technology. The technology aims to provide thermal comfort and high indoor air quality. The techniques of ventilating a building is further divided into a few types as mechanical, forced, and natural ventilation that will provide optimal temperature throughout the day and night. HVAC does the above function, through three different and integrated parts such as heating, ventilation, and air-conditioning at required points or wherever necessary from Oct 26th

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Shorthand Training Course in Muzaffarabad Rawalakot,Shorthand Training Course in Rawalpindi Islamabad Pakistan,international college of technical education in rawalpindi islamabad pakistan,best shorthand training institute in rawalpindi islamabad pakistan,professional shorthand stenographer stenotypist advanced course in rawalpindi islamabad shamsabad pakistan,lowest fee shorthand typing course in rawalpindi islamabad pakistan,admission open for boys and girls new session start 15 september 2020 certification acceptable in government job and worldwide Uk usa uae dubai saudia muscat oman kqatar kuwait china,International College of Technical Education.Head Office : Office # 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 0311-5193625, 0092-335-4176949,What is Shorthand? Shorthand a method of rapid writing by means of abbreviations and symbols, used especially for taking dictation. The major systems of shorthand currently in use are those devised in 1837 by Sir Isaac Pitman and (in the US) in 1888 by John R. Gregg (1867–1948).Modern abbreviated longhand systems Speedwriting shorthand uses the letters of the alphabet and the known punctuation marks to represent sounds. For example, the sound of ch is written with a capital C; the word each is thus written eC.What is a good shorthand speed? 60-80 words per minute Shorthand is a totally different way of writing that enables the student to progress, often to very high speeds, if they so desire. Anyone who embarks on learning shorthand should always aim for a speed of at least 60-80 words per minute, as this is adequate for most business purposes today.Is it worth it to learn shorthand? Shorthand is definitely worth learning in some capacity. It means you don't have to rely on technology, and writing down information is a good way to improve your own memory. There are loads of resources available to learn it, so it might be worth a try.Is shorthand easy to learn? It is easy to learn and write.The average speed most people write is around 20 words per minute. Your speed when using the Ford Improved Shorthand method depends on you ability, but 40 words per minute is pretty good and faster than many people type and claims of 150 words are not uncommon.Can we learn shorthand at home? Plan to devote two hours every day to learning stenography at home. This would be the same amount of time as a student taking the class at school, one hour of class time and one hour of practice at home. It will take about 10 months to learn Gregg Shorthand if two hours every day is devoted to study and practice.Is shorthand faster than typing? If you want the answer in one word, it's NO. It is technically not possible to type faster than machine shorthand. But you should know the difference between steno-type and touch typing.Who invented shorthand? Sir Isaac Pitman Invented by Sir Isaac Pitman, an English educator, the Pitman shorthand method was first published in 1837 as Stenographic Sound Hand. Pitman's system classifies the sounds of a language into basic groups and makes use of simple abbreviations for rapidity.What does a triangle mean in shorthand? The Greek letter Delta, a triangle, is a shorthand symbol for the Defendant. This is the section symbol and is also known as the "double S". It refers to a section of a document, such as statutes, within case law documents.Study the Teeline alphabet. The alphabet uses curves and strokes to represent letters in the English alphabet. It does not use phonics like other shorthand methods. Instead, it uses different symbols to represent certain letters. Most of the letters are represented by a curve or stroke that is in the English letter, such as a pointed upside down “v” shape for “A.”Keep only the essential vowels and consonants in words. In Teeline shorthand, you leave out silent consonants, double consonants, and vowels that are unnecessary. You keep only vowels at the beginning of a word and at the very end of a word.For example, the word “LAMB” will be written as “LM.” “COMMA” will be written as “CMA,” “ABOUT” is written as “ABT,” and “LIGHT” is written as “LT.” If you were writing a sentence in Teeline like, “You should always remember to take notes in class,” it would be written as, “U shld alwys rmbr t tk nts in cls.” Write vowels smaller than consonants. In Teeline shorthand, the vowels appear a bit smaller than the consonants on the page. This makes it easier for you to distinguish the vowels from the consonants.For example, if you were writing the word “COMMA” in Teeline shorthand, you would write the “C” and the “M” in a regular size and the “A” in a smaller size.Join consonants together. Try to write consonants in one to two strokes without lifting your pen. Keep the first letter clear and then add on the next letter so they form one symbol. This will make your shorthand much faster.For example, you may join “b” with “d” by starting with the symbol for “b” and adding a horizontal line on the “b” to note the “d.” Include abbreviations for common words like “a,” “the,” “of,” and “to.” The abbreviation for “a” and “an” is one dot above the bottom line of the paper. The abbreviation for “the” is one dot on the bottom line of the paper. “Of” is represented by a small slash starting on the lefthand side that sits above the bottom line. “To” is represented by a small slash starting on the lefthand side that touches the bottom line. www.icollegete.com www.courses.com.pk International College of Technical Education. Head Office : Office # 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 0311-5193625, 0092-335-4176949 Shorthand Training Course in Muzaffarabad Rawalakot.

Shorthand Training Course in Kahuta Rawalpindi,Shorthand Training Course in Rawalpindi Islamabad Pakistan,international college of technical education in rawalpindi islamabad pakistan,best shorthand training institute in rawalpindi islamabad pakistan,professional shorthand stenographer stenotypist advanced course in rawalpindi islamabad shamsabad pakistan,lowest fee shorthand typing course in rawalpindi islamabad pakistan,admission open for boys and girls new session start 15 september 2020 certification acceptable in government job and worldwide Uk usa uae dubai saudia muscat oman kqatar kuwait china,International College of Technical Education.Head Office: Office # 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 0311-5193625, 0092-335-4176949,What is Shorthand? Shorthand a method of rapid writing by means of abbreviations and symbols, used especially for taking dictation. The major systems of shorthand currently in use are those devised in 1837 by Sir Isaac Pitman and (in the US) in 1888 by John R. Gregg (1867–1948).Modern abbreviated longhand systems Speedwriting shorthand uses the letters of the alphabet and the known punctuation marks to represent sounds. For example, the sound of ch is written with a capital C; the word each is thus written eC.What is a good shorthand speed? 60-80 words per minute Shorthand is a totally different way of writing that enables the student to progress, often to very high speeds, if they so desire. Anyone who embarks on learning shorthand should always aim for a speed of at least 60-80 words per minute, as this is adequate for most business purposes today.Is it worth it to learn shorthand? Shorthand is definitely worth learning in some capacity. It means you don't have to rely on technology, and writing down information is a good way to improve your own memory. There are loads of resources available to learn it, so it might be worth a try.Is shorthand easy to learn? It is easy to learn and write.The average speed most people write is around 20 words per minute. Your speed when using the Ford Improved Shorthand method depends on you ability, but 40 words per minute is pretty good and faster than many people type and claims of 150 words are not uncommon.Can we learn shorthand at home? Plan to devote two hours every day to learning stenography at home. This would be the same amount of time as a student taking the class at school, one hour of class time and one hour of practice at home. It will take about 10 months to learn Gregg Shorthand if two hours every day is devoted to study and practice.Is shorthand faster than typing? If you want the answer in one word, it's NO. It is technically not possible to type faster than machine shorthand. But you should know the difference between steno-type and touch typing.Who invented shorthand? Sir Isaac Pitman Invented by Sir Isaac Pitman, an English educator, the Pitman shorthand method was first published in 1837 as Stenographic Sound Hand. Pitman's system classifies the sounds of a language into basic groups and makes use of simple abbreviations for rapidity.What does a triangle mean in shorthand? The Greek letter Delta, a triangle, is a shorthand symbol for the Defendant. This is the section symbol and is also known as the "double S". It refers to a section of a document, such as statutes, within case law documents.Study the Teeline alphabet. The alphabet uses curves and strokes to represent letters in the English alphabet. It does not use phonics like other shorthand methods. Instead, it uses different symbols to represent certain letters. Most of the letters are represented by a curve or stroke that is in the English letter, such as a pointed upside down “v” shape for “A.”Keep only the essential vowels and consonants in words. In Teeline shorthand, you leave out silent consonants, double consonants, and vowels that are unnecessary. You keep only vowels at the beginning of a word and at the very end of a word.For example, the word “LAMB” will be written as “LM.” “COMMA” will be written as “CMA,” “ABOUT” is written as “ABT,” and “LIGHT” is written as “LT.” If you were writing a sentence in Teeline like, “You should always remember to take notes in class,” it would be written as, “U shld alwys rmbr t tk nts in cls.” Write vowels smaller than consonants. In Teeline shorthand, the vowels appear a bit smaller than the consonants on the page. This makes it easier for you to distinguish the vowels from the consonants.For example, if you were writing the word “COMMA” in Teeline shorthand, you would write the “C” and the “M” in a regular size and the “A” in a smaller size.Join consonants together. Try to write consonants in one to two strokes without lifting your pen. Keep the first letter clear and then add on the next letter so they form one symbol. This will make your shorthand much faster.For example, you may join “b” with “d” by starting with the symbol for “b” and adding a horizontal line on the “b” to note the “d.” Include abbreviations for common words like “a,” “the,” “of,” and “to.” The abbreviation for “a” and “an” is one dot above the bottom line of the paper. The abbreviation for “the” is one dot on the bottom line of the paper. “Of” is represented by a small slash starting on the lefthand side that sits above the bottom line. “To” is represented by a small slash starting on the lefthand side that touches the bottom line. www.icollegete.com www.courses.com.pk International College of Technical Education. Head Office: Office # 27, Second Floor, Maryam Shadi Hall Plaza (Airies Plaza), Shamsabad, Murree Road, Rawalpindi, Pakistan 0311-5193625, 0092-335-4176949 Shorthand Training Course in Kahuta Rawalpindi. from Jun 25th