The document provides information about Blueway's swimming pool chiller and heat pump units. It discusses how the units can both heat and cool swimming pool water, making outdoor swimming possible year-round by using heat pump technology. The units use refrigerants and a cycle of compression, condensation, expansion, and evaporation to transfer heat between the outdoor air and pool water. This allows them to be more energy efficient than traditional heating methods. Technical specifications are provided for the residential side discharge models.
Central heating systems come in various types but all aim to distribute heated water or steam to heat radiators and emitters in a building. Common central heating systems include traditional boiler and radiator systems, condensing boilers, system boilers, and underfloor heating. Proper installation and maintenance following the building regulations is important for safety and efficiency.
The document provides information on HiCOP heat pump products, including their showcase products, qualification certificates, working principle, heating price performance ratio compared to other systems, use of high-efficiency heat pump technology, and air to water heat pump models. Key details include the heat pump's high COP of up to 4, ability to heat water to 60°C, use of renowned compressor and fan brands for quiet operation, and working in environments as cold as -10°C.
Innovative projects in the refrigeration and Air Conditioning sector UNEP OzonAction
This document summarizes presentations from a regional workshop on low-GWP and energy efficient HCFC replacement technologies in the refrigeration and air conditioning sector. It provides examples of projects from GTZ Proklima in Europe and Asia that demonstrate alternative refrigerant options to HCFCs. Case studies described include a Gree air conditioning unit in China that uses propane instead of HFC-410A, and Johnson Controls chillers that use ammonia or hydrocarbons in Europe with lower energy use and charges than previous HFC systems. The document outlines the objectives, innovations, conclusions and energy savings of these demonstration projects of low-charge ammonia and hydrocarbon refrigerant systems.
This document provides an overview of boilers, including their key components and working principles. It discusses how boilers work to heat water and produce steam using controlled combustion. The key components that allow this include the burner, combustion chamber, heat exchanger, and controls. Boilers have various applications in heating buildings and providing steam for industrial processes. The document outlines the typical components of boilers like the firebox, supply and return lines, and circulator pumps. It also describes components like economizers and superheaters that improve boiler efficiency.
BS 1- Installation of hot water supply for hotelMonnie Bao Jia
This document provides information on installing a hot water supply system for a hotel. It discusses three common types of hot water systems - tankless, storage, and solar. The installation process involves choosing a system type, selecting piping materials like copper or PEX, and installing storage tanks and zoning valves. Proper maintenance includes temperature monitoring, calorifier inspections, chlorine testing, and water sampling. Potential problems with hot water systems include airlocks, leakage, insufficient supply, and noise; solutions involve ensuring proper ventilation, checking for cracks, installing larger tanks, and using rubber insulation.
Indoor swimming pool environmental control system-BLUEWAYRoger Luo
Blueway Indoor Swimming Pool Environment Control Systems provide effective control of damaging moisture common within indoor pool facilities. They maintain a delicate balance of humidity control and manage air and water temperatures for maximum comfort at the lowest cost. This series uses heat pump technology to dehumidify the space and recycle the waste energy to heat both the air and pool water.
They are available in many sizes and a variety of configurations for large indoor pools found in hotels, schools, sanatoriums, aquatic centers and water parks.
Central Heating Installation & Repair ServicesGurdi Johal
Central heating installation Services from A1 Gas Force you can be certain that your new system will be up and running when you need it and will provide all the benefits in efficiency savings you’d expect from a new system.
Central heating systems come in various types but all aim to distribute heated water or steam to heat radiators and emitters in a building. Common central heating systems include traditional boiler and radiator systems, condensing boilers, system boilers, and underfloor heating. Proper installation and maintenance following the building regulations is important for safety and efficiency.
The document provides information on HiCOP heat pump products, including their showcase products, qualification certificates, working principle, heating price performance ratio compared to other systems, use of high-efficiency heat pump technology, and air to water heat pump models. Key details include the heat pump's high COP of up to 4, ability to heat water to 60°C, use of renowned compressor and fan brands for quiet operation, and working in environments as cold as -10°C.
Innovative projects in the refrigeration and Air Conditioning sector UNEP OzonAction
This document summarizes presentations from a regional workshop on low-GWP and energy efficient HCFC replacement technologies in the refrigeration and air conditioning sector. It provides examples of projects from GTZ Proklima in Europe and Asia that demonstrate alternative refrigerant options to HCFCs. Case studies described include a Gree air conditioning unit in China that uses propane instead of HFC-410A, and Johnson Controls chillers that use ammonia or hydrocarbons in Europe with lower energy use and charges than previous HFC systems. The document outlines the objectives, innovations, conclusions and energy savings of these demonstration projects of low-charge ammonia and hydrocarbon refrigerant systems.
This document provides an overview of boilers, including their key components and working principles. It discusses how boilers work to heat water and produce steam using controlled combustion. The key components that allow this include the burner, combustion chamber, heat exchanger, and controls. Boilers have various applications in heating buildings and providing steam for industrial processes. The document outlines the typical components of boilers like the firebox, supply and return lines, and circulator pumps. It also describes components like economizers and superheaters that improve boiler efficiency.
BS 1- Installation of hot water supply for hotelMonnie Bao Jia
This document provides information on installing a hot water supply system for a hotel. It discusses three common types of hot water systems - tankless, storage, and solar. The installation process involves choosing a system type, selecting piping materials like copper or PEX, and installing storage tanks and zoning valves. Proper maintenance includes temperature monitoring, calorifier inspections, chlorine testing, and water sampling. Potential problems with hot water systems include airlocks, leakage, insufficient supply, and noise; solutions involve ensuring proper ventilation, checking for cracks, installing larger tanks, and using rubber insulation.
Indoor swimming pool environmental control system-BLUEWAYRoger Luo
Blueway Indoor Swimming Pool Environment Control Systems provide effective control of damaging moisture common within indoor pool facilities. They maintain a delicate balance of humidity control and manage air and water temperatures for maximum comfort at the lowest cost. This series uses heat pump technology to dehumidify the space and recycle the waste energy to heat both the air and pool water.
They are available in many sizes and a variety of configurations for large indoor pools found in hotels, schools, sanatoriums, aquatic centers and water parks.
Central Heating Installation & Repair ServicesGurdi Johal
Central heating installation Services from A1 Gas Force you can be certain that your new system will be up and running when you need it and will provide all the benefits in efficiency savings you’d expect from a new system.
A solar pool heating system uses solar energy to warm pool water in a simple process. Cold water is pumped from the pool through solar collectors where it is warmed by the sun's heat, then returned to the pool to provide warm water for extended swimming. Solar pool heating is very cost effective compared to other pool heating methods due to its low operating costs, with most systems requiring only a motorized valve and pump. Properly selecting collectors, such as unglazed flat plate collectors for outdoor pools, can maximize the system's efficiency in converting solar energy to heat.
Fully pumped systems circulate heated water around hot water and heating circuits using a pump. This allows for better control through a cylinder thermostat, room thermostat, and programmer. Heat-up times are quicker, making the system more economical. Older pumped central heating systems do not include hot water but serve heat emitters around the property using a timer, boiler thermostat, and possibly room thermostat. A fully pumped mid-position valve Y plan system uses a three-port valve to control flow to the hot water cylinder and heating circuit. A fully pumped two, two-port valve S plan system uses separate zone valves to control hot water and heating circuits independently.
Heat emitters come in various styles like panel radiators, kickspace heaters, fan convectors, and underfloor heating. Panel radiators are the most common type and work through both convection and radiation to heat rooms. Underfloor heating works differently by using pipes under screed to warm the floor, which then warms the room with even heat over the floor area. Proper sizing and installation of heat emitters depends on factors like costs, comfort, controls, and regulations. Radiator valves and thermostatic radiator valves allow control of individual radiators.
Types of heat emitters used in underfloor heating systemscatherinelindsay
The document discusses different types of heat emitters used in central heating systems, including panel radiators, column radiators, towel rails, fan convectors, kick-space heaters, skirting convectors, and underfloor heating. It provides details on the construction and installation of each type. Underfloor heating is described as becoming more popular, with pipes installed at specific centers below flooring and connected to a central manifold for temperature control in each room. The document also covers commissioning, testing, and fault finding procedures for central heating systems.
SOLAR POWER VAPOUR ABSORPTION REFRIGERATION SYSTEMaj12345ay
USE OF SOLAR POWER IN REFRIGERATION SYSTEM
The power incident from the sun to the earth has very much amount of energy that the present consumption rate of all the commercial and general uses. We utilize only 0.1% of total incident sun energy on the surface of earth. Thus solar energy can fulfill our present as well as future needs of energy. That is a reason it called renewable sources of energy. It is also environmental clean source of energy and available at whole part of world where people live. Using of solar energy in the field of refrigeration and air conditioning system it become very economical.
In our project we provide solar heat in generator for heating purpose of vapor compression refrigeration system.
For past few decades, energy has played a prominent role in the development of technology and economy. Energy has now become inevitable factor for production as well. The objective of this project is to develop an environment friendly vapour absorption system. Vapour absorption system uses heat energy, instead of mechanical energy as in vapour compression system, in order to change the condition of refrigerant required for the operation of the cycle. R 717(NH3) and water are used as working fluids in this system. The basic idea of this project is derived from the solar heating panel to obtain heat energy, instead of using any conventional source of heat energy. In this project various observations are done by varying operating conditions related to heat source, condenser, absorber and evaporator temperatures. The drawback of this system is that, it remains idle in the cloudy weather conditions.
COMPONENTS USED IN SOLAR POWERED AQUA-AMMONIA VAPOUR ABSORPTION SYSTEM
• ABSORBER
• PUMP
• HEAT EXCHANGER
• GENERATOR
• SOLAR PANEL
• CONDENSER
• EXPANSION VALVE
• EVAPORATOR
• DC BATTERY
• FAN
This document discusses the installation process of a centralized hot water supply system for a hotel. Key considerations for installation include choosing between a centralized or localized system, with centralized being more suitable for hotels due to high water consumption. System components like boilers must be appropriately sized based on water needs. Regulations regarding material and safety standards for hot water tanks and vessels must also be followed. The positioning of system components and piping layout are important to minimize heat loss and maximize efficiency. Indirect hot water cylinders are recommended for systems combining domestic water and space heating.
This document contains information about various pool heating and cooling equipment, including:
1. An air/water heating/cooling pump that can extend the swim season and keep pool water comfortable year-round.
2. A G2 heat exchanger with a titanium tube bundle and stainless steel shell for efficient heat transfer between primary and secondary water circuits.
3. An Evolution electric pool heater that is fully equipped and easy to install for heating chlorinated pools.
The installation of hot water supply for hotelimwenhao
This document discusses various hot water supply systems. It describes localised and centralised systems and covers types such as direct and indirect systems. Direct systems heat water directly in a storage cylinder while indirect systems use a heat exchanger. The document also compares advantages and disadvantages of different system types such as vented versus unvented storage, and conventional versus tankless water heaters. Potential issues like air locks, noises, poor water flow and insufficient hot water are examined along with solutions.
Installation of hot water supply for hotel (recovered)tfkc1212
This document provides information on installing a hot water supply system for a hotel. It discusses three types of hot water systems - tankless, storage, and solar. The installation process involves choosing a system type, selecting piping materials like copper or PEX, and installing storage tanks and zoning valves. Proper maintenance includes temperature monitoring, calorifier inspection, chlorine testing, and water sampling. Potential problems with hot water systems include airlocks, leakage, insufficient supply, and noise; solutions involve ensuring proper ventilation, checking for leaks, installing larger tanks, and using rubber insulation.
Thermo Tech Engineering (TTE) is involved in manufacturing of industrial utility equipments and general fabrication. We offer complete waste heat recovery equipment Custom design fabrication installation and commissioning.
The Econet system from Flakt Woods integrates heating, cooling, and heat recovery into a common circuit to provide a more efficient and compact air handling unit. It achieves high energy recovery rates of 65-75% and reduces energy usage by optimizing the entire energy chain from production to consumption. Econet allows the use of alternative energy sources for heating and cooling like waste heat or lower temperature water. Over 1,000 Econet systems have been installed worldwide in a variety of building types, demonstrating its energy saving capabilities.
The document summarizes a hot water supply system report created by a group of students. It describes the centralized hot water system at Taylor's University which uses heat pumps and an electric storage water heater to heat cold water from cisterns. Issues addressed include maintenance procedures, potential problems like heat pump or pipe failures, and recommendations for future improvements such as adding solar water heating panels or a heat recovery system.
This document discusses different types of hot water supply systems for buildings. It describes localised systems which heat water at single points of use, and centralized systems which heat water at a central location and distribute it. Key factors for choosing a system include the building's water consumption, peak demands, and intended use. The document also examines various technologies for both localised (instantaneous, storage) and centralized (direct, indirect) hot water heating systems. Considerations for installing hot water systems in high-rise buildings are discussed.
The document discusses the requirements for installing domestic hot water plumbing systems. It covers topics like head height between the cold water storage cistern and hot water cylinder, pipe sizing and positioning, installation of valves, vent pipes, thermostats and other components. Proper installation is important for efficient system operation and preventing issues like heat loss or scalding. Factors like property size, storage needs, usage and costs should be considered when choosing a hot water system type.
the presentation describes in details about the feed water and condensate heaters used in Thermal Power Stations or elsewhere. The performance parameters of the heaters are also described in details.
SWIMMING POOL HEATER SUPPLIERS IN DUBAI BUYING GUIDE & HEATER INSTALLATION METHOD
Regardless of your type of weather, a swimming pool heater makes it possible to expand your swimming season and enjoy the warmer water in the pool. Usually, the pool/jacuzzi heater is installed after the pump and filter system are in place—the pump pushes the water through the filter and then on to the astral pool heater before returning the water to the pool.
http://ilpools.ae/swimming-pool-heater-suppliers-in-dubai/
Boilers used in domestic central heating systemscatherinelindsay
The document discusses different types of boilers used in domestic central heating systems. There are four main fuel sources: solid fuel, gas, oil, and renewable energy. Gas boilers are the most popular and can be categorized as traditional non-condensing boilers, cast-iron heat exchangers, low-water-content heat exchangers, combination boilers, condensing boilers, condensing system boilers, and condensing combination boilers. Condensing boilers increase efficiency by allowing flue gases to cool and condense latent heat. Boilers require either an open flue or room-sealed balanced flue to safely vent combustion products outside.
This document discusses boiler instrumentation and control. It begins with an introduction to boilers, their classification into fire tube and water tube boilers, and an overview of boiler instrumentation and control systems. It then describes the key components of boiler instrumentation including flow meters, furnace TV systems. It provides diagrams of fire tube and water tube boiler designs. It details the major control loops for combustion control and feedwater control and concludes with advantages and disadvantages of boiler control systems.
This document provides an overview of hot water supply systems, including electrical and solar heating systems. It discusses the types of hot water systems, focusing on electrical tank-less and storage water heaters as well as solar water heating systems. The key advantages and disadvantages of each system are outlined. Solar water heating is highlighted as a clean energy alternative that is well-suited for Malaysia's climate.
This document discusses boiler control using a Distributed Control System (DCS). It provides an overview of boiler components like the steam drum, furnace, superheater, air preheater and economizer. It includes a Piping and Instrumentation Diagram (P&ID) of the boiler control system and lists I/O devices and control loops. It also presents a project implementation flowchart outlining steps for creating the DCS project like defining nodes, control loops, interlocks and operator displays.
BLUEWAY Air cooled water chiller BrochureRoger Luo
Blueway manufactures residential air cooled water chillers and heat pumps that are designed for hot Gulf regions. The units can operate as both chillers and heat pumps to provide chilled or heated water to roof top tanks year-round for uses like showering and cleaning. They use an eco-friendly refrigerant and have a digital controller. Key components include efficient compressors, brazed plate heat exchangers for heat transfer, and condenser coils designed for high ambient temperatures. The units are suitable for tank capacities of 100-700 gallons and have safety protections, adjustable temperature settings, and produce both chilled and heated water efficiently.
A solar pool heating system uses solar energy to warm pool water in a simple process. Cold water is pumped from the pool through solar collectors where it is warmed by the sun's heat, then returned to the pool to provide warm water for extended swimming. Solar pool heating is very cost effective compared to other pool heating methods due to its low operating costs, with most systems requiring only a motorized valve and pump. Properly selecting collectors, such as unglazed flat plate collectors for outdoor pools, can maximize the system's efficiency in converting solar energy to heat.
Fully pumped systems circulate heated water around hot water and heating circuits using a pump. This allows for better control through a cylinder thermostat, room thermostat, and programmer. Heat-up times are quicker, making the system more economical. Older pumped central heating systems do not include hot water but serve heat emitters around the property using a timer, boiler thermostat, and possibly room thermostat. A fully pumped mid-position valve Y plan system uses a three-port valve to control flow to the hot water cylinder and heating circuit. A fully pumped two, two-port valve S plan system uses separate zone valves to control hot water and heating circuits independently.
Heat emitters come in various styles like panel radiators, kickspace heaters, fan convectors, and underfloor heating. Panel radiators are the most common type and work through both convection and radiation to heat rooms. Underfloor heating works differently by using pipes under screed to warm the floor, which then warms the room with even heat over the floor area. Proper sizing and installation of heat emitters depends on factors like costs, comfort, controls, and regulations. Radiator valves and thermostatic radiator valves allow control of individual radiators.
Types of heat emitters used in underfloor heating systemscatherinelindsay
The document discusses different types of heat emitters used in central heating systems, including panel radiators, column radiators, towel rails, fan convectors, kick-space heaters, skirting convectors, and underfloor heating. It provides details on the construction and installation of each type. Underfloor heating is described as becoming more popular, with pipes installed at specific centers below flooring and connected to a central manifold for temperature control in each room. The document also covers commissioning, testing, and fault finding procedures for central heating systems.
SOLAR POWER VAPOUR ABSORPTION REFRIGERATION SYSTEMaj12345ay
USE OF SOLAR POWER IN REFRIGERATION SYSTEM
The power incident from the sun to the earth has very much amount of energy that the present consumption rate of all the commercial and general uses. We utilize only 0.1% of total incident sun energy on the surface of earth. Thus solar energy can fulfill our present as well as future needs of energy. That is a reason it called renewable sources of energy. It is also environmental clean source of energy and available at whole part of world where people live. Using of solar energy in the field of refrigeration and air conditioning system it become very economical.
In our project we provide solar heat in generator for heating purpose of vapor compression refrigeration system.
For past few decades, energy has played a prominent role in the development of technology and economy. Energy has now become inevitable factor for production as well. The objective of this project is to develop an environment friendly vapour absorption system. Vapour absorption system uses heat energy, instead of mechanical energy as in vapour compression system, in order to change the condition of refrigerant required for the operation of the cycle. R 717(NH3) and water are used as working fluids in this system. The basic idea of this project is derived from the solar heating panel to obtain heat energy, instead of using any conventional source of heat energy. In this project various observations are done by varying operating conditions related to heat source, condenser, absorber and evaporator temperatures. The drawback of this system is that, it remains idle in the cloudy weather conditions.
COMPONENTS USED IN SOLAR POWERED AQUA-AMMONIA VAPOUR ABSORPTION SYSTEM
• ABSORBER
• PUMP
• HEAT EXCHANGER
• GENERATOR
• SOLAR PANEL
• CONDENSER
• EXPANSION VALVE
• EVAPORATOR
• DC BATTERY
• FAN
This document discusses the installation process of a centralized hot water supply system for a hotel. Key considerations for installation include choosing between a centralized or localized system, with centralized being more suitable for hotels due to high water consumption. System components like boilers must be appropriately sized based on water needs. Regulations regarding material and safety standards for hot water tanks and vessels must also be followed. The positioning of system components and piping layout are important to minimize heat loss and maximize efficiency. Indirect hot water cylinders are recommended for systems combining domestic water and space heating.
This document contains information about various pool heating and cooling equipment, including:
1. An air/water heating/cooling pump that can extend the swim season and keep pool water comfortable year-round.
2. A G2 heat exchanger with a titanium tube bundle and stainless steel shell for efficient heat transfer between primary and secondary water circuits.
3. An Evolution electric pool heater that is fully equipped and easy to install for heating chlorinated pools.
The installation of hot water supply for hotelimwenhao
This document discusses various hot water supply systems. It describes localised and centralised systems and covers types such as direct and indirect systems. Direct systems heat water directly in a storage cylinder while indirect systems use a heat exchanger. The document also compares advantages and disadvantages of different system types such as vented versus unvented storage, and conventional versus tankless water heaters. Potential issues like air locks, noises, poor water flow and insufficient hot water are examined along with solutions.
Installation of hot water supply for hotel (recovered)tfkc1212
This document provides information on installing a hot water supply system for a hotel. It discusses three types of hot water systems - tankless, storage, and solar. The installation process involves choosing a system type, selecting piping materials like copper or PEX, and installing storage tanks and zoning valves. Proper maintenance includes temperature monitoring, calorifier inspection, chlorine testing, and water sampling. Potential problems with hot water systems include airlocks, leakage, insufficient supply, and noise; solutions involve ensuring proper ventilation, checking for leaks, installing larger tanks, and using rubber insulation.
Thermo Tech Engineering (TTE) is involved in manufacturing of industrial utility equipments and general fabrication. We offer complete waste heat recovery equipment Custom design fabrication installation and commissioning.
The Econet system from Flakt Woods integrates heating, cooling, and heat recovery into a common circuit to provide a more efficient and compact air handling unit. It achieves high energy recovery rates of 65-75% and reduces energy usage by optimizing the entire energy chain from production to consumption. Econet allows the use of alternative energy sources for heating and cooling like waste heat or lower temperature water. Over 1,000 Econet systems have been installed worldwide in a variety of building types, demonstrating its energy saving capabilities.
The document summarizes a hot water supply system report created by a group of students. It describes the centralized hot water system at Taylor's University which uses heat pumps and an electric storage water heater to heat cold water from cisterns. Issues addressed include maintenance procedures, potential problems like heat pump or pipe failures, and recommendations for future improvements such as adding solar water heating panels or a heat recovery system.
This document discusses different types of hot water supply systems for buildings. It describes localised systems which heat water at single points of use, and centralized systems which heat water at a central location and distribute it. Key factors for choosing a system include the building's water consumption, peak demands, and intended use. The document also examines various technologies for both localised (instantaneous, storage) and centralized (direct, indirect) hot water heating systems. Considerations for installing hot water systems in high-rise buildings are discussed.
The document discusses the requirements for installing domestic hot water plumbing systems. It covers topics like head height between the cold water storage cistern and hot water cylinder, pipe sizing and positioning, installation of valves, vent pipes, thermostats and other components. Proper installation is important for efficient system operation and preventing issues like heat loss or scalding. Factors like property size, storage needs, usage and costs should be considered when choosing a hot water system type.
the presentation describes in details about the feed water and condensate heaters used in Thermal Power Stations or elsewhere. The performance parameters of the heaters are also described in details.
SWIMMING POOL HEATER SUPPLIERS IN DUBAI BUYING GUIDE & HEATER INSTALLATION METHOD
Regardless of your type of weather, a swimming pool heater makes it possible to expand your swimming season and enjoy the warmer water in the pool. Usually, the pool/jacuzzi heater is installed after the pump and filter system are in place—the pump pushes the water through the filter and then on to the astral pool heater before returning the water to the pool.
http://ilpools.ae/swimming-pool-heater-suppliers-in-dubai/
Boilers used in domestic central heating systemscatherinelindsay
The document discusses different types of boilers used in domestic central heating systems. There are four main fuel sources: solid fuel, gas, oil, and renewable energy. Gas boilers are the most popular and can be categorized as traditional non-condensing boilers, cast-iron heat exchangers, low-water-content heat exchangers, combination boilers, condensing boilers, condensing system boilers, and condensing combination boilers. Condensing boilers increase efficiency by allowing flue gases to cool and condense latent heat. Boilers require either an open flue or room-sealed balanced flue to safely vent combustion products outside.
This document discusses boiler instrumentation and control. It begins with an introduction to boilers, their classification into fire tube and water tube boilers, and an overview of boiler instrumentation and control systems. It then describes the key components of boiler instrumentation including flow meters, furnace TV systems. It provides diagrams of fire tube and water tube boiler designs. It details the major control loops for combustion control and feedwater control and concludes with advantages and disadvantages of boiler control systems.
This document provides an overview of hot water supply systems, including electrical and solar heating systems. It discusses the types of hot water systems, focusing on electrical tank-less and storage water heaters as well as solar water heating systems. The key advantages and disadvantages of each system are outlined. Solar water heating is highlighted as a clean energy alternative that is well-suited for Malaysia's climate.
This document discusses boiler control using a Distributed Control System (DCS). It provides an overview of boiler components like the steam drum, furnace, superheater, air preheater and economizer. It includes a Piping and Instrumentation Diagram (P&ID) of the boiler control system and lists I/O devices and control loops. It also presents a project implementation flowchart outlining steps for creating the DCS project like defining nodes, control loops, interlocks and operator displays.
BLUEWAY Air cooled water chiller BrochureRoger Luo
Blueway manufactures residential air cooled water chillers and heat pumps that are designed for hot Gulf regions. The units can operate as both chillers and heat pumps to provide chilled or heated water to roof top tanks year-round for uses like showering and cleaning. They use an eco-friendly refrigerant and have a digital controller. Key components include efficient compressors, brazed plate heat exchangers for heat transfer, and condenser coils designed for high ambient temperatures. The units are suitable for tank capacities of 100-700 gallons and have safety protections, adjustable temperature settings, and produce both chilled and heated water efficiently.
Emmvee’s heat pump-based Solar Water Heater is a necessity in all modern residences and buildings equipped with modern jet shower, rain shower, jacuzzi etc. The heat pump based Solar Water Heater has an advantage of providing bulk hot water at the desired temperature as and when required.
Heat Pump Water Heater is a new generation solar water heater that is sure to have a long-lasting impression on you thanks to its modern features and reliability over its lifetime. The Impressive Coefficient of Performance from this solar water heater sets it apart from the rest of the products.
This document provides information about Century Products, including their offices in Seoul and head office in Asan, Korea. It lists their product lines such as chiller units, air handling units, and nuclear HVAC systems. The bulk of the document discusses specifications for Century's high efficiency direct-fired double effect absorption chiller and heater models ranging from 100 to 1000 tons, including performance data, dimensions, electrical requirements, and more. It provides detailed information on the operating principles and features of their absorption chiller technology.
The document describes an air source heat pump water heating system (ASHPWH) that uses ambient air to generate approximately 75% of the heat needed to produce hot water, with the remaining 25% coming from electricity. It provides 24/7 hot water and significant savings over traditional electric, gas, diesel or wood water heating methods. The ASHPWH system works through a cycle of absorbing heat from the air using an evaporator, compressing the refrigerant to increase temperature and pressure, transferring heat to water via a condenser, and repeating. Models are available for various applications from small residential to large commercial and industrial use.
"Replacement of vapor compression system of domestic refrigerator by an eject...IRJET Journal
This document summarizes research on replacing vapor compression refrigeration systems with ejector refrigeration systems. It discusses how ejector refrigeration systems use low-grade waste heat as the power source, have fewer moving parts than compressors, and can help reduce greenhouse gas emissions. The document provides details on the design and testing of ejector refrigeration systems using various working fluids. It analyzes the performance of these systems and the impact of parameters like heat source temperature, refrigerant type, and ejector design on the system coefficient of performance.
1. basic solar thermal training v3 robert cooleymoeshahram
This document provides an overview of Module 1 of an installer training course on basic solar thermal technologies. The module covers introductions to solar hot water, the components of SHW systems including different collector types, and types of SHW systems. It also outlines the steps to becoming a HelioPartner installer, including training, certification, insurance, and successful system installation. The goal is to train installers to effectively promote, install, and support Heliodyne solar hot water products.
This document provides information on steam boilers, including:
- Steam boilers work by burning fuel to heat water and produce steam for external use. They come in different types defined by construction, portability, and pressure.
- Common boiler types include hot water, electric, gas, and oil boilers. Gas and oil boilers are used for industrial purposes, while hot water boilers are used for heating. Electric boilers are eco-friendly but more expensive.
- Proper boiler inspection and maintenance is important for safety. Inspections check the firebox, tubes, deposits, and thickness. Hydrostatic testing fills the boiler to check for leaks. Regular maintenance prevents corrosion and deposits.
This document provides information about Climate Wizard, an air conditioning system that uses indirect evaporative cooling to provide cooling with greatly reduced energy consumption compared to traditional refrigerant-based systems. It then describes several example applications of Climate Wizard in both commercial and residential buildings, where it was used for stand-alone cooling, pre-cooling of outside air, and supplementary cooling to reduce loads on existing refrigerant cooling systems. Benefits highlighted include improved air quality, steady electrical demand, flexibility of design, lower installation costs, and reductions in energy use and operating costs.
This document discusses direct steam injection systems for process heating applications. It describes how Pick heaters work by injecting steam into liquids through small orifices, instantly heating the liquid with 100% energy transfer. Pick heaters offer benefits like precise temperature control, high turndown ratios, elimination of steam hammer, low noise and pressure drop, and compact size. The document provides information on constant flow and variable flow Pick heater models for different applications in food processing and general industrial use.
Dehumidifier for swimming pool and energy savingPramod Khedekar
This document discusses how to reduce energy consumption for indoor swimming pools through proper dehumidifier selection and use. It recommends selecting the smallest necessary dehumidifier capacity based on calculations, setting the humidity level higher than the lowest possible, and choosing a dehumidifier designed for high humidity loads like pools. Using a pool cover when not in use and properly sizing other pool equipment can also lower energy use.
This document describes a hot and cold water dispenser that utilizes waste heat from a refrigerator's condenser. It discusses replacing the air-cooled condenser with a water-cooled condenser that heats water. The water-cooled condenser is constructed with a galvanized iron tank and copper coil, and connects to the refrigerator's vapor compression system. During operation, the refrigerant condenses in the coil and transfers heat to the water, providing both cooled water from the refrigerator and heated water from the recovered waste heat of the condenser.
This document discusses waste heat recovery through the use of a reverse refrigeration cycle or organic Rankine cycle (ORC). It begins by outlining the problem of inefficient production processes that lose a significant amount of heat. The document then provides an overview of how a reverse refrigeration cycle works using a lower boiling point fluid to convert low-temperature waste heat into electricity. It discusses some key components of the cycle like the evaporator, turbine, condenser and pump. The document outlines the methodology that will be used to analyze implementing a reverse refrigeration cycle for waste heat recovery, including specifying the problem, evaluating heat sources, selecting a working fluid, calculating the ideal cycle, sizing heat exchangers, and calculating the real cycle
The Desuperheater Water Heater is actually installed before the oil separator and the condenser. The refrigerant gas travels through the series of different tubes in the Desuperheater device before it enters the condenser.
OSI Steel Pvt Ltd (OSI) was incorporated as a private limited company for steel trading. The company then entered into a 50:50 Joint venture with a Japanese Steel Trading House, for promoting Japanese Steel Mills to the Indian customers. In the year 2011 OSI was fortunate to become the direct Trading house for Hyundai Steel, Korea.
Thermo Tech Engineering (TTE) is involved in manufacturing of industrial utility equipments and general fabrication. We offer complete waste heat recovery equipment Custom design fabrication installation and commissioning.
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3. Why to Choose BLUEWAY SPCHs
About Blue Way
How Does It Work
Why Does It Save Energy
Reliable Quality Of Key Components
Highligts
Technical Specifications
Indoor Pool Environment Control System
P8~P10
P4~P7
P11
P12
P13~P14
P15
P16~P21
P22~P23
INDEX
03
4. About
The name of BLUEWAY was founded in Australia in 1993. It has earned a worldwide reputation in the
field of liquid heating and cooling systems (chillers & heat pumps) through about 20 years experience
in this industry. In 2007, Blueway established its subsidiary manufacturer in Shunde, Foshan of China,
utilizing the manufacturing advantages here and supply chillers and heat pumps worldwide.
Blueway
04
5. Product Range
Blueway is capable of manufacturing and supplying even the largest liquid heating and cooling
requirement for applications as diverse as:
• Domestic and commercial hot and chilled water for homes and buildings
• Industrial water heating and cooling
• Commercial and industrial dehumidification and air handling systems
• Other specialist requirements
Blueway produces Air/Water Heat Pumps including Swimming Pool Chiller & Heat Pumps, Indoor
Swimming Pool Environment Control Systems (Dehumidifying, Cooling, Heating & Air Purifying), Multi
Function Heat Pumps (House Heating, Cooling & Domestic Hot water), DC Inverter Heat Pumps, EVI
Heat Pumps for low ambient temperatures, Hot Water Heat Pumps, Ground Source Heat pumps, Water
Cooled Packaged Air Conditioners, etc. All its products are produced and tested in accordance with strict
international quality control systems and standards, thus are able to adapt different weather conditions
globally.
05
6. R&D Capacity
1) R&D Team
Blueway has a very strong R&D capacity and most
of its technical staffs are of refrigeration or mechanic
engineering background, some of them have 10-15
years experience in Air Conditioning and Heat Pump
industry. Its technical director is a certified engineer
by the Association of Energy Engineers of the United
States
2) Advanced Laboratory
Blueway’s Chiller and Heat Pump laboratory is
equipped with highly advanced and sophisticated
systems and instruments and is able to simulate
harsh weather conditions down to -20°C and up
to 60°C, thus can guarantee the reliability of its
products operating at extremely harsh weather
conditions. Its laboratory has been calibrated
by General Machinery & Electrical Products
Inspection Institute (GMPI).
Enjoy comfortable life with
06
7. Prestigious References
Blueway has exported its heat pump products to Australia, Europe, Middle East, South Africa and South America
and have obtained worldwide recognition. In China market, Blueway’s Indoor Pool Environment Control Heat Pump
Systems have been applied and installed in many prestigious 5 star hotel projects and famous natatoriums, like Inter
Continental Hotel & Resorts in Shenzhen, Sheraton Hotel in Taizhou and Shandong, Kempinski Hotel in Huizhou, the
Natatorium of Shenzhen Universiade 2011 etc.
Blueway will continue its endeavor and commitment to serve its worldwide partners by offering innovative and highly
efficient products and solutions.
Enjoy comfortable life with
Biforyo Hotel
Kempinski Hotel
Inter Continental Hotel
Sheraton Hotel
Jinji Lake Tourism Resorts
the Natatorium of Shenzhen Universiade
07
8. JUST IMAGINE WHAT A PLEASANT SWIM SHOULD BE
For a swim to be refreshing and animating, the pool water must be the right temperature for the swimmer,
regardless of the influence of seasonal weather, extremely hot or cold. Reliable swimming pool temperature
control is a key feature to enjoyable swimming.
WINTER HEATINGSUMMER COOLING
During summer, swimming pools are subjected
to massive solar gain. Coupled with high
ambient humidity which prevents pools from
cooling through evaporation, swimming pool
water will become uncomfortably hot unless
dynamically cooled.
During winter, swimming pools continually
evaporate water and radiate heat. The
combination of these factors causes heat loss
which must be replaced through a heater if
comfortable water temperatures are to be
maintained.
WHAT A CHALLENGE!
In some countries and regions, the ambient temperature is extremely high
and it can even go up to as much as 54℃ , which causes the swimming
pool water reach unbearable temperatures. Whether in winter or summer,
outdoor swimming and SPA seem to be too far dreams to reach in this
area.
08
9. IS THERE A SOLUTION ?
Heat pumps are proven
technology and widely accepted
in the world as the most economic
and effective method of heating
and cooling your swimming
pool. Unlike electric heaters and
boilers that can only provide pool
heating, Blueway Swimming
Pool Chiller & Heat Pumps
(SPCHs) will automatically either
heat or cool your pool without the
need for additional equipments.
As an added bonus, a Blueway
SPCH unit will produce up to five
times the energy it consumes,
dramatically reducing the energy
consumption of your swimming
pool.
Heating Solution Efficiency Comparison
0
Gas Boiler Oil Boiler
Free Energy
Efficiency%
Paid Energy
Heat Pump Electricity
50
100
150
200
250
300
350
400
450
500
550
09
10. BLUEWAY
SWIMMING POOL CHILLER & HEAT PUMPS (SPCHs)
BLUEWAY SPCHs are specially designed and engineered for water temperature control of swimming pool and spa in
the hot summer and cold winter.
The units work as chillers in summer and heat pumps in other seasons, offering the most energy efficient pool & spa
chilling and heating. Compared to gas, oil, or electric heaters, operation cost of swimming pool water chiller & heat
pumps is up to 60%~80% less, saving your expenses in energy costs each year.
Connection
Application
WHETHER HOT OR COLD WHEATHER, OUTDOOR SWIMMING AND SPA
ARE NO LONGER UNREACHABLE DREAMS!
---ENJOY COMFORTABLE SWIMMING AND SPA WITH BLUEWAY SPCHs,
REGARDLESS AMBIENT TEMPERATURE AND LOCATION
Blueway SPCH units are not only highly efficient, but also easy and safe
to operate, providing the maximum comfort the whole year through.
1. Swimming Pool
2. Chlorinator
3. Pump
4. Sand Filter
5.Swimming Pool Chiller & Heat Pump
Swimming Pool Chiller & Heat Pump
Sand Filter Tank
Pump
Swimming Pool
Chlorinestill
Swimming Pool Supply Pipe
Swimming Pool Return Pipe
10
11. HOW DOES A SPCH UNIT WORK?
AS A CHILLER
AS A HEAT PUMP
1
Ambient
Air In
2
3
4
Cold Air Out
STAGE ONE
The temperature of the hot gaseous refrigerant
discharged from the compressor is much higher than the
outside ambient air temperature. When the outside air
passes across the condenser coil, the gaseous refrigerant
transfers its heat to the air and condenses into liquid.
STAGE ONE
The heat transfer medium (the refrigerant) is colder than
the outside air. As the outside air passes across the
evaporator coil, the liquid refrigerant absorbs heat from
the air and evaporates.
STAGE TWO
The liquid refrigerant passes through the expansion valve,
reducing its pressure and temperature.
STAGE TWO
The gaseous refrigerant then passes to the compressor
and is compressed. When compressed, the pressure
is increased and the temperature of the vapor rises,
effectively concentrating the heat.
STAGE THREE
The low temperature refrigerant passes to the heat
exchanger evaporator, where the actual heat transfer
takes place: the refrigerant absorbs heat from the water
pumped into the heat exchanger and evaporates, whereby
the water temperature is reduced.
STAGE THREE
The hot gaseous refrigerant passes to the heat exchanger
condenser, where the actual heat transfer takes place: the
intensely hot gaseous refrigerant transfers its heat to the
water pumped into the heat exchanger and condenses
back into a liquid.
STAGE FOUR
The gas refrigerant is then sucked to the compressor and
compressed, increasing its pressure and temperature,
ready to start the whole cycle once again.
STAGE FOUR
The liquid refrigerant then passes through an expansion
valve, reducing its pressure and temperature, ready to
start the whole cycle once again.
1
1
2
2
3
3
4
4
Cool Water to Pool
Cool Water from Pool
Hot Water from Pool
Hot Water to Pool
Condenser
Coil
11
12. WHY DO
BLUEWAY
SWIMMING POOL CHILLER & HEAT PUMS
SAVE ENERGY?
A Blueway Swimming Pool Chiller & Heat Pump consumes much less electric power than a traditional
electric heater. The electric power it consumes is only to operate the compressor, fan and water pump. For
every 1kW electricity it consumes, the unit will generate up to 5kW heating capacity, which means 4kW
capacity are totally free.
1KW
Electrical
Power In
Low
Temperature
Cooling Output
High Temperature Heat Dumping to the Ambient Air
4KW
As A Chiller 3KW 1KW
Electrical
Power In
Hight
Temperature
Heat Output
Low Temperature Renewable Heat
Energy Recovered From the Enviroment
4KW
5KW
As A
Heat Pump
12
13. RELIABLE QUALITY OF KEY COMPONENTS
High Efficiency Marine-Grade
Titanium Heat Exchanger
Titanium has gained world recognition
in just about every industry for its
unbreakable corrosion resistance.
Blueway Swimming Pool Chillers &
Heat Pumps incorporate Titanium
Tube–in-Shell heat exchangers that
are not only highly efficient, but also
super corrosion resistant against
harsh pool water chemicals, thus
giving the following advantages:
High efficiency and super corrosion
resistant
High working pressure
Due to its perfect structure design, the PVC
shell can withstand high working pressure
up to 1.2 Mpa (normal working pressure for
a pool heat pump does not exceed 0.6Mpa),
and the bursting pressure upto 2.3Mpa.
Reliability and long lasting life span.
Over 130,000 times alternating pressure test
(0- 8 bar) to the titanium pipe coil indicates
that it can be used for over 15 years. The
max. working pressure for titanium pipe coil is
up to 52 bar.
Low maintenance
High Efficiency Rotary or Scroll
Compressor
B l u e w a y S P C H u n i t s u s e
high efficiency rotary or scroll
compressors which are widely used
in air conditioners and their reliable
performance has been proven due to
many years of operation in the global
market.
Famous brand rotary compressor
for domestic range
Copeland,Danfoss, Hitachi or other
famous brand scroll compressor for
commercial range
Evaporator / Condenser Coil
The evaporator coil/Condenser Coil
used is of fin and tube type. The fins
are hydrophilic treated aluminum fins
to resist corrosion, and the copper
tubes are inner-grooved type, which
increases the heat transfer in the
refrigerant side.
13
inner-grooved
copper tube
14. Expansion Device
1) Electric Expansion Valve (EEV) is used for
Domestic Range
2) Alco (Emerson) or Danfoss thermal expansion
valve (TEV) is used for Commercial Range
Intelligent Control
The units are supplied with micro processor based
digital controller with LCD display. The controller is
programmed to provide a maximum protection to
the heat pump system and accurate temperature
control. The control panel is completely factory
wired with all accessories and terminals included.
RELIABLE QUALITY OF KEY COMPONENTS
14
15. Features & Highlights
▲ Wide Capacity Range: 1.5-7 ton (Residential),
10-50 ton (Commercial)
▲ Using heat energy from ambient air and
reproduces more heat energy, saving 60%~80%
energy compared to traditional heaters.
▲ Providing heating in winter and chilling in
summer for spa and swimming pool in domestic
and commercial applications.
▲ No potential danger of any inflammable, gas
poisoning, explosion, fire, electrical shock which
are associated with other heating systems.
▲ A digital controller is incorporated to maintain the
desired water temperature.
▲ Long-life and corrosion resistant composite
cabinet stands up to severe climates and pool
chemicals.
▲ Famous brand rotary or scroll compressor
ensures outstanding performance, ultra energy
efficiency, durability and quiet operation.
▲ Titanium tube-in-shell heat exchanger resists
harsh pool chemicals and corrosion
▲ Self-diagnostic control panel monitors and
troubleshoots heat pump operations to ensure
safe and reliable operation.
▲ Intelligent digital controller with friendly user
interface and blue LED back light.
▲ Separate isolated electrical compartment
prevents internal corrosion and extends heat
pump life.
▲ The heat pump can operate at ambient air
temperature of -10℃ -54℃
Residential Range:
Commercial Range:
15
16. SWIMMING POOL CHILLER & HEAT PUMP
Residential Side Dischrage, 50Hz
Technical
Specifications
SPCH‐1.0S SPCH1.5S SPCH2.0S SPCH2.5S SPCH3.0S SPCH4.0S SPCH5.0S SPCH6.0S
KW/hour 5.1 7 9.2 12 14 19 25 31
V/Hz/Ph
W/hour 5100 7000 9200 12000 14000 19000 25000 31000
BTU/hour 17401 23884 31390 40944 47768 64828 85300 105772
Power
consumption
Watts 927 1250 1643 2182 2545 3519 4630 5741
COP W/W 5.5 5.6 5.6 5.5 5.5 5.4 5.4 5.4
Current A 4.2 5.7 7.5 9.9 11.6 16.0 8.3 10.3
Heating capacity W/hour 4335 5950 7820 10200 11900 16150 21250 26350
BTU/hour 14791 20301 26682 34802 40603 55104 72505 89906
Power
consumption
Watts 932 1311 1700 2267 2644 3511 4722 5856
COP W/W 4.65 4.5 4.6 4.5 4.5 4.6 4.5 4.5
Current A 4.2 6.0 7.7 10.3 12.0 16.0 8.4 10.5
W/hour 3300 4800 6500 8100 9650 12850 16500 19500
BTU/hour 11259.6 16377.6 22178 27637.2 32925.8 43844.2 56298 66534
Power
consumption
Watts 868 1200 1711 2160 2539 3473 4521 5417
EER W/W 3.8 4 3.8 3.75 3.8 3.7 3.65 3.6
Current A 3.9 5.5 7.8 9.8 11.5 15.8 8.1 9.7
Cooling capacity BTU/Hr 2805 4080 5525 6885 8202.5 10922.5 14025 16575
Power
consumption
Watts 923 1275 1817 2295 2698 3690 4803 5755
EER W/W 3.04 3.2 3.04 3 3.04 2.96 2.92 2.88
Current A 4.2 5.8 8.3 10.4 12.3 16.8 8.6 10.3
Controller ‐ ‐
Type
Qty Nos.
Refrigerant ‐
Type ‐
Qty Nos.
Construction
Material
‐
Max. working
pressure
Bar
Fan direction ‐
Airflow m³/h 1800 2000 2500 2500 2500 3300 5500 5500
Dia x Qty mm x Nos. 320*1 400*1 420*1 420*1 420*1 440*1 520*1 520*2
Material ‐
Output Power Watts 25 25 40 40 50 90 90 180
RPM ‐ 850 850 850 850 850 810 810 810
Qty Nos. 1 1 1 1 1 1 2 2
Type
Tube dia mm 9.52 9.52 9.52 9.52 9.52 9.52 9.52 9.52
Row ‐ 1 1 2 2 2 2 2 2
m³/h 2.2 3.0 4.0 5.2 6.0 8.2 10.7 13.3
KPa 10 12 12 15 15 16 16 16
Noise level ‐ dB(A) 48 48 50 50 50 53 55 55
Inlet Inch 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2''
Outlet Inch 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2''
Net mm 1010*370*614 1115*470*700 1115*470*1250
Shipping mm 1085*390*722 1205*525*725 1205*525*1280
Net Kg 34 52 55 70 91 106 111 115
Shipping Kg 39 60 63 78 97 114 120 125
Loading Qty 20'/40'/40'HQ Set(s) 102/210/210 102/210/210 102/210/210 96/198/198 57/93/93 38/62/62 38/62/62 19/31/62
Notes:
1. Conditions of "Heating (1)": Ambient air temperature DB/WB: 24°C/19°C, Inlet/Outlet water temperature:W26/28°C ;
2. Conditions of "Heating (2)": Ambient air temperature DB/WB: 15°C/12°C, Inlet/Outlet water temperature:W26/28°C ;
3. Conditions of "Cooling (1)": Ambient air temperature DB/WB: 35°C/24°C, Inlet/Outlet water temperature:W30/28°C ;
4. Conditions of "Cooling (2)": Ambient air temperature DB/WB: 46°C/24°C, Inlet/Outlet water temperature:W30/28°C ;
Blueway reserves that rights to modify the above specifications without notice.Please contact us for updated inforamtion.
Tube: tatanium; Shell: PVC
1.2
Motor
Coil
Fin‐tube
1
R410A
Titanium tube in PVC shell
1
Key
components
Fan
Heat
exchanger
(water side)
Compressor
930*350*550 1115*470*945
General data
Water pressure drop
Water
Connection
Dimmension
:
Weight
Rated water flow rate
1350*395*585 1205*525*975
Heating (2):
A15/12°C
W26/28°C
Side
plastic
Cooling
performance
data
Cooling (1):
A35/24°C
W30/28°C
Cooling capacity
Cooling (2):
A46/24°C
W30/28°C
Scroll
Micro processor based digital controller with LCD display
Rotary
Heating capacity
Swimming Pool Chiller & Heat Pump
Residential Side Dischrage, 50Hz
Model
Nominal heating capacity
Power Supply 380‐415/50/3220‐240/50/1
Heating (1):
A24/19°C
W26/28°C
Heating
performance
data
16
17. SWIMMING POOL CHILLER & HEAT PUMP
Residential Side Discharge, 60Hz
Technical
Specifications
SPCH‐1.0Sa SPCH1.5Sa SPCH2.0Sa SPCH2.5Sa SPCH3.0Sa SPCH4.0Sa SPCH5.0Sa SPCH6.0Sa
KW/hour 5.8 8.05 10.6 13.8 16.1 22 28.75 35.6
V/Hz/Ph
W/hour 5800 8050 10600 13800 16100 22000 28750 35650
BTU/hour 19790 27467 36167 47086 54933 75064 98095 121638
Power
consumption
Watts 1055 1438 1893 2509 2927 4074 5324 6602
COP W/W 5.5 5.6 5.6 5.5 5.5 5.4 5.4 5.4
Current A 4.8 6.5 8.6 11.4 13.3 18.5 9.5 11.8
Heating capacity W/hour 4930 6842.5 9010 11730 13685 18700 24437.5 30303
BTU/hour 16821 23347 30742 40023 46693 63804 83381 103392
Power
consumption
Watts 1060 1507 1959 2607 3041 4065 5431 6734
COP W/W 4.65 4.5 4.6 4.5 4.5 4.6 4.5 4.5
Current A 4.8 6.9 8.9 11.8 13.8 18.5 9.7 12.0
W/hour 3700 5550 7360 9200 11000 14700 18400 22000
BTU/hour 12624.4 18936.6 25112.32 31390.4 37532 50156.4 62780.8 75064
Power
consumption
Watts 974 1388 1937 2453 2895 3973 5041 6111
EER W/W 3.8 4 3.8 3.75 3.8 3.7 3.65 3.6
Current A 4.4 6.3 8.8 11.2 13.2 18.1 9.0 10.9
Cooling capacity BTU/Hr 3145 4717.5 6256 7820 9350 12495 15640 18700
Power
consumption
Watts 1035 1474 2058 2607 3076 4221 5356 6493
EER W/W 3.04 3.2 3.04 3 3.04 2.96 2.92 2.88
Current A 4.7 6.7 9.4 11.8 14.0 19.2 9.6 11.6
Controller ‐ ‐
Type
Qty Nos.
Refrigerant ‐
Type ‐
Qty Nos.
Construction
Material
‐
Max. working
pressure
Bar
Fan direction ‐
Airflow m³/h 1800 2000 2500 2500 2500 3300 5500 5500
Dia x Qty mm x Nos. 320*1 400*1 420*1 420*1 420*1 440*1 520*1 520*2
Material ‐
Output Power Watts 25 25 40 40 50 90 90 180
RPM ‐ 850 850 850 850 850 810 810 810
Qty Nos. 1 1 1 1 1 1 2 2
Type
Tube dia mm 9.52 9.52 9.52 9.52 9.52 9.52 9.52 9.52
Row ‐ 1 1 2 2 2 2 2 2
m³/h 2.5 3.5 4.6 5.9 6.9 9.5 12.4 15.3
KPa 10 12 12 15 15 16 16 16
Noise level ‐ dB(A) 48 48 50 50 50 53 55 55
Inlet Inch 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2''
Outlet Inch 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2''
Net mm 1010*370*614 1115*470*700 1115*470*1250
Shipping mm 1085*390*722 1205*525*725 1205*525*1280
Net Kg 34 52 55 70 91 106 111 115
Shipping Kg 39 60 63 78 97 114 120 125
Loading Qty 20'/40'/40'HQ Set(s) 102/210/210 102/210/210 102/210/210 96/198/198 57/93/93 38/62/62 38/62/62 19/31/62
Notes:
1. Conditions of "Heating (1)": Ambient air temperature DB/WB: 24°C/19°C, Inlet/Outlet water temperature:W26/28°C ;
2. Conditions of "Heating (2)": Ambient air temperature DB/WB: 15°C/12°C, Inlet/Outlet water temperature:W26/28°C ;
3. Conditions of "Cooling (1)": Ambient air temperature DB/WB: 35°C/24°C, Inlet/Outlet water temperature:W30/28°C ;
4. Conditions of "Cooling (2)": Ambient air temperature DB/WB: 46°C/24°C, Inlet/Outlet water temperature:W30/28°C ;
Blueway reserves that rights to modify the above specifications without notice.Please contact us for updated inforamtion.
Heating
performance
data
Heating (1):
A24/19°C
W26/28°C
General data
Water pressure drop
Water
Connection
Dimmension
:
Weight
Rated water flow rate
Swimming Pool Chiller & Heat Pump
Residential Side Discharge, 60Hz
Model
Nominal heating capacity
Power Supply
220/60/3
380‐415V/60/3
220‐240/60/1
930*350*550 1115*470*945
1.2
Heating capacity
1350*395*585 1205*525*975
1
R410A
Titanium tube in PVC shell
1
Fin‐tube
Side
plastic
Tube: tatanium; Shell: PVC
Cooling
performance
data
Key
components
Fan
Cooling (2):
A46/24°C
W30/28°C
Heat
exchanger
(water side)
Compressor
Motor
Coil
Cooling (1):
A35/24°C
W30/28°C
Scroll
Micro processor based digital controller with LCD display
Rotary
Heating (2):
A15/12°C
W26/28°C
Cooling capacity
17
18. SWIMMING POOL CHILLER & HEAT PUMP
Residential Verticle Dischrage, 50Hz
Technical
Specifications
SPCH‐1.0V SPCH1.5V SPCH2.0V SPCH2.5V SPCH3.0V SPCH4.0V SPCH5.0V SPCH6.0V
KW/hour 5.1 7 9.2 12 14 19 25 31
V/Hz/Ph
W/hour 5100 7000 9200 12000 14000 19000 25000 31000
BTU/hour 17401 23884 31390 40944 47768 64828 85300 105772
Power
consumption
Watts 927 1250 1643 2182 2545 3519 4630 5741
COP W/W 5.5 5.6 5.6 5.5 5.5 5.4 5.4 5.4
Current A 4.2 5.7 7.5 9.9 11.6 16.0 8.3 10.3
Heating capacity W/hour 4335 5950 7820 10200 11900 16150 21250 26350
BTU/hour 14791 20301 26682 34802 40603 55104 72505 89906
Power
consumption
Watts 932 1311 1700 2267 2644 3511 4722 5856
COP W/W 4.65 4.5 4.6 4.5 4.5 4.6 4.5 4.5
Current A 4.2 6.0 7.7 10.3 12.0 16.0 8.4 10.5
W/hour 3300 4800 6500 8100 10500 12850 16500 19500
BTU/hour 11260 16378 22178 27637 35826 43844 56298 66534
Power
consumption
Watts 868 1200 1711 2160 2763 3473 4521 5417
EER W/W 3.8 4 3.8 3.75 3.8 3.7 3.65 3.6
Current A 3.9 5.5 7.8 9.8 12.6 15.8 8.1 9.7
Cooling capacity BTU/Hr 2805 4080 5525 6885 8925 10922.5 14025 16575
Power
consumption
Watts 923 1275 1817 2295 2936 3690 4803 5755
EER W/W 3.04 3.2 3.04 3 3.04 2.96 2.92 2.88
Current A 4.2 5.8 8.3 10.4 13.3 16.8 8.6 10.3
Controller ‐ ‐
Type
Qty Nos.
Refrigerant ‐
Type ‐
Qty Nos.
Construction
Material
‐
Max. working
pressure
Bar
Fan direction ‐
Airflow m³/h 1800 2000 2500 2500 2500 3300 5500 5500
Dia x Qty mm x Nos. 400*1 400*1 420*1 420*1 420*1 440*1 520*1 520*2
Material ‐
Output Power Watts 25 25 40 40 50 90 90 180
RPM ‐ 850 850 850 850 850 810 810 810
Qty Nos. 1 1 1 1 1 1 1 1
Type
Tube dia mm 9.52 9.52 9.52 9.52 9.52 9.52 9.52 9.52
Row ‐ 1 1 2 2 2 2 2 2
m³/h 2.2 3.0 4.0 5.2 6.0 8.2 10.7 13.3
KPa 10 12 12 15 15 16 16 16
Noise level ‐ dB(A) 48 48 50 50 50 53 55 55
Inlet Inch 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2''
Outlet Inch 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2''
Net mm 745x694x950
Shipping mm 790x740x990
Net Kg 45 52 55 70 85 106 107 127
Shipping Kg 50 60 60 75 93 114 117 137
Loading Qty 20'/40'/40'HQ Set(s) 108/228/228 108/228/228 63/144/144 63/144/144 42/96/144 42/96/144 42/96/144 42/90/90
Notes:
1. Conditions of "Heating (1)": Ambient air temperature DB/WB: 24°C/19°C, Inlet/Outlet water temperature:W26/28°C ;
2. Conditions of "Heating (2)": Ambient air temperature DB/WB: 15°C/12°C, Inlet/Outlet water temperature:W26/28°C ;
3. Conditions of "Cooling (1)": Ambient air temperature DB/WB: 35°C/24°C, Inlet/Outlet water temperature:W30/28°C ;
4. Conditions of "Cooling (2)": Ambient air temperature DB/WB: 46°C/24°C, Inlet/Outlet water temperature:W30/28°C ;
Blueway reserves that rights to modify the above specifications without notice.Please contact us for updated inforamtion.
Coil
1.2
695x690x640
765x745x705
695x689x740
765x745x800
570x500x640
615x550x705
General data
Water pressure drop
Water
Connection
Dimmension
:
Weight
Rated water flow rate
Swimming Pool Chiller & Heat Pump
Residential Verticle Dischrage, 50Hz
Model
Nominal heating capacity
Power Supply 380‐415/50/3220‐240/50/1
Fin‐tube
Verticle
plastic
Tube: tatanium; Shell: PVC
Motor
Heating capacity
1
R410A
Titanium tube in PVC shell
1
Fan
Cooling (2):
A46/24°C
W30/28°C
Heat
exchanger
(water side)
Compressor
Heating (1):
A24/19°C
W26/28°C
Heating
performance
data
Scroll
Micro processor based digital controller with LCD display
Rotary
Heating (2):
A15/12°C
W26/28°C
Cooling
performance
data
Cooling (1):
A35/24°C
W30/28°C
Cooling capacity
Key
components
18
19. SWIMMING POOL CHILLER & HEAT PUMP
Residential Verticle Dischrage, 60Hz
Technical
Specifications
SPCH‐1.0V SPCH1.5V SPCH2.0V SPCH2.5V SPCH3.0V SPCH4.0V SPCH5.0V SPCH6.0V
KW/hour 5.8 8.05 10.6 13.8 16.1 22 28.75 35.6
V/Hz/Ph
W/hour 5800 8050 10600 13800 16100 22000 28750 35600
BTU/hour 19790 27467 36167 47086 54933 75064 98095 121467
Power
consumption
Watts 1055 1438 1893 2509 2927 4074 5324 6593
COP W/W 5.5 5.6 5.6 5.5 5.5 5.4 5.4 5.4
Current A 4.8 6.5 8.6 11.4 13.3 18.5 9.5 11.8
W/hour 4930 6842.5 9010 11730 13685 18700 24437.5 30260
BTU/hour 16821 23347 30742 40023 46693 63804 83381 103247
Power
consumption
Watts 1060 1507 1959 2607 3041 4065 5431 6724
COP W/W 4.65 4.5 4.6 4.5 4.5 4.6 4.5 4.5
Current A 4.8 6.9 8.9 11.8 13.8 18.5 9.7 12.0
W/hour 3700 5550 7360 9200 11000 14700 18400 22000
BTU/hour 12624 18937 25112 31390 37532 50156 62781 75064
Power
consumption
Watts 974 1388 1937 2453 2895 3973 5041 6111
EER W/W 3.8 4 3.8 3.75 3.8 3.7 3.65 3.6
Current A 4.4 6.3 8.8 11.2 13.2 18.1 9.0 10.9
Cooling capacity BTU/Hr 3145 4717.5 6256 7820 9350 12495 15640 18700
Power
consumption
Watts 1035 1474 2058 2607 3076 4221 5356 6493
EER W/W 3.04 3.2 3.04 3 3.04 2.96 2.92 2.88
Current A 4.7 6.7 9.4 11.8 14.0 19.2 9.6 11.6
Controller ‐ ‐
Type
Qty Nos.
Refrigerant ‐
Type ‐
Qty Nos.
Construction
Material
‐
Max. working
pressure
Bar
Fan direction ‐
Airflow m³/h 1800 2000 2500 2500 2500 3300 5500 5500
Dia x Qty mm x Nos. 400*1 400*1 420*1 420*1 420*1 440*1 520*1 520*2
Material ‐
Output Power Watts 25 25 40 40 50 90 90 180
RPM ‐ 850 850 850 850 850 810 810 810
Qty Nos. 1 1 1 1 1 1 1 1
Type
Tube dia mm 9.52 9.52 9.52 9.52 9.52 9.52 9.52 9.52
Row ‐ 1 1 2 2 2 2 2 2
m³/h 2.5 3.5 4.6 5.9 6.9 9.5 12.4 15.3
KPa 10 12 12 15 15 16 16 16
Noise level ‐ dB(A) 48 48 50 50 50 53 55 55
Inlet Inch 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2''
Outlet Inch 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2'' 1‐1/2''
Net mm 745x694x950
Shipping mm 790x740x990
Net Kg 45 52 55 70 85 106 107 127
Shipping Kg 50 60 60 75 93 114 117 137
Loading Qty 20'/40'/40'HQ Set(s) 108/228/228 108/228/228 63/144/144 63/144/144 42/96/144 42/96/144 42/96/144 42/90/90
Notes:
1. Conditions of "Heating (1)": Ambient air temperature DB/WB: 24°C/19°C, Inlet/Outlet water temperature:W26/28°C ;
2. Conditions of "Heating (2)": Ambient air temperature DB/WB: 15°C/12°C, Inlet/Outlet water temperature:W26/28°C ;
3. Conditions of "Cooling (1)": Ambient air temperature DB/WB: 35°C/24°C, Inlet/Outlet water temperature:W30/28°C ;
4. Conditions of "Cooling (2)": Ambient air temperature DB/WB: 46°C/24°C, Inlet/Outlet water temperature:W30/28°C ;
Blueway reserves that rights to modify the above specifications without notice.Please contact us for updated inforamtion.
Motor
Tube: tatanium; Shell: PVC
1.2
Fan
Verticle
plastic
Coil
Fin‐tube
570x500x640 695x690x640 695x689x740
615x550x705 765x745x705 765x745x800
Weight
General data
Rated water flow rate
Water pressure drop
Water
Connection
Dimmension
:
Key
components
Micro processor based digital controller with LCD display
Compressor
Rotary Scroll
1
R410A
Heat
exchanger
(water side)
Titanium tube in PVC shell
1
Cooling
performance
data
Cooling (1):
A35/24°C
W30/28°C
Cooling capacity
Cooling (2):
A46/24°C
W30/28°C
Heating
performance
data
Heating (1):
A24/19°C
W26/28°C
Heating capacity
Heating (2):
A15/12°C
W26/28°C
Heating capacity
Swimming Pool Chiller & Heat Pump
Residential Verticle Dischrage, 50Hz
Model
Nominal heating capacity
Power Supply 220‐240/60/1
220/60/3
380‐415V/60/3
19
20. SWIMMING POOL CHILLER & HEAT PUMP
Commercial Range, 50Hz
Technical
Specifications
SPCH10 SPCH12 SPCH15 SPCH20 SPCH25 SPCH30 SPCH40 SPCH50
KW/hour 45 55 65 90 120 145 190 220
V/Hz/Ph
KW/hour 45 55 65 90 120 145 190 220
BTU/hour 153540 187660 221780 307080 409440 494740 648280 750640
Power
consumption
KW/hour 8 10 12 17 22 26 35 40
COP W/W 5.6 5.6 5.5 5.4 5.5 5.6 5.4 5.5
Current A 14.4 17.6 21.1 29.8 39.0 46.3 62.9 71.5
KW/hour 38 47 55 77 102 123 162 187
BTU/hour 130509 159511 188513 261018 348024 420529 551038 638044
Power
consumption
KW 8 9 11 16 21 25 34 39
COP W/W 4.9 4.9 4.8 4.8 4.8 4.9 4.8 4.8
Current A 13.9 17.0 20.4 28.8 37.7 44.7 60.7 69.1
KW/hour 35 42 53 70 88 105 140 175
BTU/hour 119420 143304 179130 238840 298550 358260 477680 597100
Power
consumption
Watts 9 11 13 19 23 28 37 46
EER W/W 3.9 3.8 4 3.75 3.8 3.7 3.8 3.8
Current A 16.0 19.8 23.5 33.4 41.2 50.7 65.9 82.3
KW/hour 29.8 35.7 44.6 59.5 74.4 89.3 119.0 148.8
BTU/Hr 101507 121808 152261 203014 253768 304521 406028 507535
Power
consumption
KW 9 11 14 19 24 27 37 46
EER W/W 3.20 3.20 3.11 3.20 3.15 3.30 3.20 3.20
Current A 16.6 19.9 25.6 33.2 42.2 48.3 66.5 83
Controller ‐ ‐
Type
Qty Nos. 2 1 3 2 2 3 4 4
Refrigerant ‐
Type ‐
Construction
Material
‐
Max. working
pressure
Bar
Fan direction ‐
Airflow m³/h 13000 13000 20000 26000 32000 39000 60000 60000
Dia x Qty mm x Nos. 600×2 600×2 710×2 710×2 850×2 900×2 710×4 850×4
Material ‐
Output Power Watts 850*2 850*2 900*2 900*2 1100*2 1500*2 1100*4 1100*4
RPM ‐ 950 950 950 950 950 950 950 950
Qty Nos. 2 2 2 2 2 2 4 4
Type
Tube dia mm
Row ‐ 2 2 2 3 3 3 4 4
m³/h 19 24 28 39 52 62 82 95
KPa 18 18 18 18 25 30 30 30
Noise level ‐ dB(A) 56 56 56 56 62 62 65 65
Inlet Inch 2+1/2'' 2+1/2'' 2+1/2'' 2+1/2'' 2+1/2'' (2+1/2'')*2 (2+1/2'')*2 (2+1/2'')*2
Outlet Inch 2+1/2'' 2+1/2'' 2+1/2'' 2+1/2'' 2+1/2'' (2+1/2'')*2 (2+1/2'')*2 (2+1/2'')*2
Net mm 1420*760*1250 1700*1100*1820 2000*1100*2020 2300*1100*2020
Shipping mm 1480*820*1380 1760*1160*1950 2060*1160*2150 2360*1160*2150
Net Kg 380 385 500 570 600 1140 1180 1200
Shipping Kg 410 415 535 600 635 1180 1230 1250
Loading Qty 20'/40'/40'HQ Set(s) 14/28/28 14/28/28 7/14/14 2006‐12‐12 2005‐10‐10 4/8/8 4/8/8 4/8/8
Notes:
1. Conditions of "Heating (1)": Ambient air temperature DB/WB: 24°C/19°C, Inlet/Outlet water temperature:W26/28°C ;
2. Conditions of "Heating (2)": Ambient air temperature DB/WB: 15°C/12°C, Inlet/Outlet water temperature:W26/28°C ;
3. Conditions of "Cooling (1)": Ambient air temperature DB/WB: 35°C/24°C, Inlet/Outlet water temperature:W30/28°C ;
4. Conditions of "Cooling (2)": Ambient air temperature DB/WB: 46°C/24°C, Inlet/Outlet water temperature:W30/28°C ;
Blueway reserves that rights to modify the above specifications without notice..Please contact us for updated inforamtion.
General data
Water pressure drop
Water
Connection
Dimmension
:
Weight
Rated water flow rate
1420*760*1040
1480*820*1170
2600*1100*1960
2600*1160*2090
1.2
Tube: tatanium; Shell: PVC
Fan
Vertical
Coil
Alluminum alloy
Fine‐tube
9.52
Cooling (2):
A46/24°C
W30/28°C
Cooling capacity
Key
components
Micro processor based digital controller with LCD display
Motor
Compressor
R410A / R407C / R417A
Heat
exchanger
(water side)
Titanium tube‐in‐shell
Scroll
Heating (1):
A24/19°C
W26/28°C
Heating capacity
Heating (2):
A15/12°C
W26/28°C
Heating capacity
Cooling
performance
data
Cooling (1):
A35/24°C
W30/28°C
Cooling capacity
Swimming Pool Chiller & Heat Pump
Commercial Range, 50Hz
Model
380‐415/50/3
Nominal heating capacity
Power Supply
Heating
performance
data
14
20
21. SWIMMING POOL CHILLER & HEAT PUMP
Commercial Range, 60Hz
Technical
Specifications
SPCH10 SPCH12 SPCH15 SPCH20 SPCH25 SPCH30 SPCH40 SPCH50
KW/hour 52 65 75 105 135 165 220 250
V/Hz/Ph
KW/hour 52 65 75 105 135 165 220 250
BTU/hour 177424 221780 255900 358260 460620 562980 750640 853000
Power
consumption
KW/hour 9 12 14 19 25 29 41 45
COP W/W 5.6 5.6 5.5 5.4 5.5 5.6 5.4 5.5
Current A 16.6 20.7 24.4 34.8 43.9 52.7 72.8 81.3
KW/hour 44 55 64 89 115 140 187 213
BTU/hour 150810.4 188513 217515 304521 391527 478533 638044 725050
Power
consumption
KW 9 11 13 19 24 28 39 44
COP W/W 4.9 4.9 4.8 4.8 4.8 4.9 4.8 4.8
Current A 16.0 20.0 23.5 33.6 42.4 50.9 70.3 78.5
KW/hour 40 48 61 80 100 120 160 200
BTU/hour 136480 163776 208132 272960 341200 409440 545920 682400
Power
consumption
Watts 10 13 15 21 26 32 42 53
EER W/W 3.9 3.8 4 3.75 3.8 3.7 3.8 3.8
Current A 18.3 22.6 27.3 38.1 47.0 58.0 75.3 94.1
KW/hour 39.0 47.0 60.0 78.0 98.0 117.0 156.0 195.0
BTU/Hr 133068 160364 204720 266136 334376 399204 532272 665340
Power
consumption
KW 12 15 19 24 31 35 49 61
EER W/W 3.20 3.20 3.11 3.20 3.15 3.30 3.20 3.20
Current A 21.8 26.3 34.5 43.6 55.6 63.4 87.1 109
Controller ‐ ‐
Type
Qty Nos. 2 1 3 2 2 3 4 4
Refrigerant ‐
Type ‐
Construction
Material
‐
Max. working
pressure
Bar
Fan direction ‐
Airflow m³/h 13000 13000 20000 26000 32000 39000 60000 60000
Dia x Qty mm x Nos. 600×2 600×2 710×2 710×2 850×2 900×2 710×4 850×4
Material ‐
Output Power Watts 850*2 850*2 900*2 900*2 1100*2 1500*2 1100*4 1100*4
RPM ‐ 950 950 950 950 950 950 950 950
Qty Nos. 2 2 2 2 2 2 4 4
Type
Tube dia mm
Row ‐ 2 2 2 3 3 3 4 4
m³/h 22 28 32 45 58 71 95 107
KPa 18 18 18 18 25 30 30 30
Noise level ‐ dB(A) 56 56 56 56 62 62 65 65
Inlet Inch 2+1/2'' 2+1/2'' 2+1/2'' 2+1/2'' 2+1/2'' (2+1/2'')*2 (2+1/2'')*2 (2+1/2'')*2
Outlet Inch 2+1/2'' 2+1/2'' 2+1/2'' 2+1/2'' 2+1/2'' (2+1/2'')*2 (2+1/2'')*2 (2+1/2'')*2
Net mm 1420*760*1250 1700*1100*1820 2000*1100*2020 2300*1100*2020
Shipping mm 1480*820*1380 1760*1160*1950 2060*1160*2150 2360*1160*2150
Net Kg 380 385 500 570 600 1140 1180 1200
Shipping Kg 410 415 535 600 635 1180 1230 1250
Loading Qty 20'/40'/40'HQ Set(s) 14/28/28 14/28/28 7/14/14 2006‐12‐12 2005‐10‐10 4/8/8 4/8/8 4/8/8
Notes:
1. Conditions of "Heating (1)": Ambient air temperature DB/WB: 24°C/19°C, Inlet/Outlet water temperature:W26/28°C ;
2. Conditions of "Heating (2)": Ambient air temperature DB/WB: 15°C/12°C, Inlet/Outlet water temperature:W26/28°C ;
3. Conditions of "Cooling (1)": Ambient air temperature DB/WB: 35°C/24°C, Inlet/Outlet water temperature:W30/28°C ;
4. Conditions of "Cooling (2)": Ambient air temperature DB/WB: 46°C/24°C, Inlet/Outlet water temperature:W30/28°C ;
Blueway reserves that rights to modify the above specifications without notice..Please contact us for updated inforamtion.
Swimming Pool Chiller & Heat Pump
Commercial Range, 50Hz
Model
Nominal heating capacity
Power Supply 380‐415/60/3
Cooling
performance
data
Cooling (1):
A35/24°C
W30/28°C
Cooling capacity
Cooling (2):
A46/24°C
W30/28°C
Cooling capacity
Heating
performance
data
Heating (1):
A24/19°C
W26/28°C
Heating capacity
Heating (2):
A15/12°C
W26/28°C
Heating capacity
Vertical
Alluminum alloy
Motor
Coil
Fine‐tube
9.52
Key
components
Micro processor based digital controller with LCD display
Compressor
Scroll
R410A / R407C / R417A
Heat
exchanger
(water side)
Titanium tube‐in‐shell
Tube: tatanium; Shell: PVC
1.2
Fan
General data
Rated water flow rate
Water pressure drop
Water
Connection
Dimmension
:
2600*1100*1960
1480*820*1170 2600*1160*2090
Weight
1420*760*1040
15
21
22. Indoor Pool
Environment Control System
One System Delivers Everything You Need!
22
Model 15 20 25 30 40 50 60 80 100 120 160
V/P/Hz
Cooling kW/h 25 33 41 51 65 82 97 131 163 192 241
Heating kW/h 30 39 47 60 78 106 128 170 214 243 280
Kg/h 17 22 26 33 43 51 62 84 102 122 160
m² 68 88 104 132 172 204 248 336 408 488 640
m3
@300Pa
4000 5000 6000 7500 9000 11000 13000 16600 21000 25000 32000
Nos. 2 2 2 2 2 2 2 2 2 2 2
‐
Pa 100‐500 100‐500 100‐500 100‐500 100‐850 100‐850 100‐850 100‐850 100‐850 100‐850 100‐850
KW 1.5 1.5 2.2 2.2 3.5 4 5.5 6 7 7.5 11
Nos. 1 1 1 2 2 2 2 2 or 4 2 or 4 2 or 4 2 or 4
KW 5.5 7 8.5 5.4 7 8.5 11 7 or 13 8.5 or 11 or 22 13 or 25
‐
Mpa 1.2 1.2 1.2 1.2 1.2 1.2 1.2 1.2 1.2 1.2 1.2
℃ 40 40 40 40 40 40 40 40 40 40 40
m3 4.7 6.1 7.2 9.4 12.2 14.5 18.8 24.6 30.6 37.5 48
mm 32 32 38 50 50 63 63 75 75 90 100
Nos. 1 1 1 1 1 1 1 2 2 2 2
KW 30 39 47 60 78 96 118 150 184 223 278
m3 10000 12000 15000 20000 24000 30000 40000 48000 60000 80000 90000
Nos. 1 1 1 2 2 2 2 4 4 4 4
KW 0.82 0.82 1.65 0.82 0.82 0.82 0.82 0.82 0.82 1.1 1.1
W mm 706 1450 1450 1450 1800 1850 2110 1800 1850 2110 2500
D mm 686 705 705 705 705 1000 1100 1000 1000 1100 1200
H mm 940 1065 1065 1065 1065 1320 1350 1320 1320 1350 1350
W mm 3600 3800 3600 3800 4200 4600 4900 5400 5800 6600 7000
D mm 1370 1520 1570 1670 1670 1930 2160 2200 2200 2150 2200
H mm 1160 1160 1260 1360 1450 1520 1690 1840 2150 2200 2500
Kg 500 800 900 1200 1500 1650 1850 2200 2500 2700 3300
Notes:
2. The design and specifications are subject to change without notice.
Scroll
Qty
Dehumidification capacity
Rated Airflow
Blower
Compresso
r
Indoor
main unit
Dimension
Rated water
Water
Fan motor
BHP
Indoor Pool Environment Control System
Application pool surface
Air Cooled
Condenser
Power Suplly 380‐415/3/50 or 208‐2303/60
Qty
Type
Static pressure
Power input
Max.water
Outdoor
condenser
Qty
Rated capacity
Rated airflow
Nos. of fan
1. The above ratings are based AHRI standard 910‐2011 (Performance Rating of Indoor Pool Dehumidifiers):Outdoor ambient DB 35
℃, Pool water temp. 27℃, Chiller water temp. 7℃;
Output
Water Heat
Exchanger
Condenser
Type Titanium Tube in PVC Shell
Indoor Main Unit Weight
Centrifugal
Type
Power input
Rated working
23. Blueway Indoor Pool Environment Control Systems provide effective control of damaging moisture
common within indoor pool facilities. They maintain a delicate balance of humidity control and manage
air and water temperatures for maximum comfort at the lowest cost. This series uses heat pump
technology to dehumidify the space and recycle the waste energy to heat both the air and pool water.
They are available in many sizes and a variety of configurations for large indoor pools found in hotels,
schools, natatoriums, aquatic centers and water parks.
Built for the Corrosive Pool Environment
Blueway dehumidifiers have many special design
features to minimize maintenance and extend
the life of the unit. All critical components are
located out of the corrosive air stream, and coils
are constructed from all copper and coated
aluminum fins for long life. Blueway uses full-
size air/water condensers for maximum pool and
air heating or cooling. It utilizes a sophisticated
PLC (Programmable Logic Controller) that offers
highly efficient control strategies for more efficient
intelligent pool operation. All units are constructed
of heavy-gauge steel with side and roof panels
galvanized and epoxy powder coated to resist
corrosion. Panel insulation provides additional
energy efficiency along with sound control for
indoor and outdoor installations.
High Efficiency and Environmentally Friendly
All models use environmentally-friendly R417A
or R410A refrigerant and deliver excellent
performance characteristics. Staged compressor
cycling ensures minimum compressor operation
for any given load for greater efficiency, and also
maintains a high quality environment. The systems
can be configured to return condensate back to
the pool, saving the equivalent of the entire pool’s
volume over one year. For improved air quality,
plasma filters can be added.
R u g g e d F e a t u r e s d e l i v e r s U n r i v a l e d
Performance
Scroll compressor, efficient and quiet operation
Coated evaporator and reheat condenser
coils, long life
Titanium Tube-in–Shell water heat exchanger
Powder coated cabinet, corrosion resistant
PLC controller with user friendly interface
Remote monitoring by phone or internet
Self diagnosis
Recycled Energy Lessens the Need for Fossil
Fuel Heating
Indoor pools demand large quantities of heat to
maintain space and water comfort conditions.
Rather than relying on fossil fuel as the primary
heat source, Blueway units utilize waste heat
generated during dehumidification to heat the
space and pool water. Blueway units return
much more energy than they use with average
recorded savings ranging from 40% to 60% over
conventional outside air dilution systems. For
every kilowatt of electrical power used to operate
a Blueway system, five kilowatts of heat are
delivered to the natatorium air and water.
Indoor Pool
Environment Control System
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