WATER-SOURCE HEAT PUMP SYSTEMS 7300 SW 44TH STREET OKLAHOMA CITY, OK 73179 (800)-299-9747 • FAX (405)-745-6058 CLIMATEMASTER.COM
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Table of Contents 3
Commercial HVAC The changing face of commercial heating and cooling requirements and solutions.
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The two Water-Source solutions What is water-source and geothermal heating and cooling?
11 the climatemaster advantage What makes ClimateMaster the global leader in water-source heat pumps? 16 The Climatemaster family of products (Foldout) The largest and most diverse family of water-source products of any manufacturer, anywhere on the planet. 20 Tranquility 27® Two-Stage (TT) Series Two to Six Ton Two-Stage EarthPure® (HFC-410A) Horizontal, Vertical, and Downflow Units. Unit Features and Benefits, Dimensions, Physical Data, and AHRI/ISO 13256-1 Performance Data. 22 Tranquility 20 Single-stage (TS) Series One-Half to Six Ton Single-Stage EarthPure® (HFC-410A) Horizontal, Vertical, and Downflow Units. Unit Features and Benefits, Dimensions, Physical Data, and AHRI/ISO 13256-1 Performance Data.
24 Tranquility high efficiency (Tr) Series One-Half to Five Ton EarthPure® (HFC-410A) Horizontal and Vertical Units. Unit Features and Benefits, Dimensions, Physical Data, and AHRI/ISO 13256-1 Performance Data. 26 tranquility 16 COMPACT (tc) Series One-Half to Five Ton EarthPure® (HFC-410A) Compact Units Horizontal and Vertical Units. Unit Features and Benefits, Dimensions, Physical Data, and AHRI/ISO 13256-1 Performance Data. 28 TRANQUILITY Vertical Stack (TRM) Series Three-Quarter to Three Ton EarthPure ® (HFC-410A) Vertical Hi-Rise Stack Units. Unit Features and Benefits, Dimensions, Physical Data, and AHRI/ISO 13256-1 Performance Data. 30 TRANQUILITY Console (TRC) SERIES Three-Quarter to One and One-Half Ton EarthPure® (HFC-410A) Console Units. Unit Features and Benefits, Dimensions, Physical Data, and AHRI/ISO 13256-1 Performance Data.
32 TRANQUILITY compact (TcH) SERIES Six to Ten Ton EarthPure® (HFC-410A) Horizontal Units. Unit Features and Benefits, Dimensions, Physical Data, and AHRI/ISO 13256-1 Performance Data. 34 TRANQUILITY LARGE (TL) SERIES Seven to Twenty-Five Ton EarthPure® (HFC-410A) Vertical Units. Unit Features and Benefits, Dimensions, Physical Data, and AHRI/ISO 13256-1 Performance Data. 36 TRANQUILITY Water-to-water (TMW) Series Three to Twenty-Eight Ton EarthPure® (HFC-410A) Water-to-Water Units. Unit Features and Benefits, Dimensions, Physical Data, and AHRI/ISO 13256-2 Performance Data. 38 Rooftop (tRE) Series Three to Twenty Ton EarthPure® (HFC-410A) Rooftop Units. Unit Features and Benefits, Dimensions, Physical Data, and AHRI/ISO 13256-1 Performance Data. 40 Rx (ERV) module Rooftop Energy Recovery Units. Unit Features and Benefits, Dimensions, Physical Data, and AHRI-1060 Performance. 42 Dedicated Outdoor air (TO) Series Three to One Hundred Ton EarthPure® (HFC-410A) Horizontal and Vertical Units. Unit Features and Benefits, Dimensions.
4
Commercial HVAC The ever-changing environment of commercial construction offers exciting breakthroughs in technology and materials, but it is not without some heartburn. Today, owners, architects, and contractors face many challenges in the design and construction of their projects. Challenges such as usable space, indoor air quality, energy efficiency, maintenance costs, building longevity, and the LEED® program all come to the forefront of the design process. When considering the solutions to these challenges, the type of HVAC system chosen directly affects each one.
Usable Space It has been said that the reason real estate grows in value is because no one is making any more. As cities continue to grow and spread out, the value of maximizing usable space becomes increasingly important. When selecting an HVAC system, you positively or negatively impact the usable space on a project. As an example, VAV (Variable Air Volume) systems utilize complicated ductwork systems along with extensive equipment rooms to deliver conditioned air into the building space. Additionally, VAV duct systems many times require more ceiling height which increases floor-tofloor space thus increasing building costs. By comparison, ClimateMaster Water-Source and Geothermal Heat Pump systems require little to no equipment room space and use a very simple, compact, and independent ductwork system.
Indoor Air quality As important as the actual temperature of a building space is, the quality of air within that space is equally important. The American Society of Heating, Refrigerating, and Air Conditioning Engineers (ASHRAE) has implemented Standard 62, which requires significantly higher amounts of fresh outdoor air for buildings. The challenge now becomes how to properly introduce, condition, and deliver this fresh air into the building space. Traditional options like two- and four-pipe Fan Coil systems must be up-sized significantly to handle the additional conditioning load. This means larger, more expensive units, larger, more expensive piping, and larger, more expensive boilers and chillers. In comparison, ClimateMaster systems offer a variety of options that can actually lower the overall system size, introduce 100% outdoor air, and lower system usage cost.
energy efficiency Today’s offices equipped with computers, copiers and other office tools can dramatically affect the heating and cooling load of a given space. When considering heating and cooling loads, rising energy costs demand an HVAC system that is efficient while building designs require a system that is also flexible. ClimateMaster has a solution for practically any application, and does so with some of the most energy efficient HVAC systems available on the market today. In fact, all of ClimateMaster’s products either meet or exceed the new federal mandated efficiency minimums.
Maintenance costs Complex systems such as two- and four-pipe fan coils and VAV systems require advanced maintenance and the trained personnel to
perform it. Large equipment rooms filled with chillers, air handlers, or large-scale boilers require personnel for monitoring and maintenance, which consume building space and leasing profits. The effect to the bottom line becomes significant when considering the potential of a complete system failure along with costly parts and equipment replacement. However, water-source and geothermal heat pumps require very little monitoring and maintenance - aside from routine filter changes. With factory installed DDC controls, the entire building can be accessed via any webenabled computer for monitoring and set point control. No muss, no fuss, no worries.
Building longevity New innovations offer longer life expectancies for today’s buildings. You should expect the same from the HVAC systems being placed inside these buildings. However, when it comes to longevity, not all systems are created equal. Complex chillers and air handling systems often have a large number of moving parts that will wear out over time. Water-source and geothermal heat pumps offer the advantage of very few moving parts. Fewer moving parts lower the occurrence of parts replacement and extend equipment life. This simplicity of design allows ClimateMaster systems to provide average life spans of 20 years or more. In fact, there are a number of ClimateMaster units that are still performing after 50 years - providing the continual comfort our customers have come to expect.
5 Many Choices, One Solution
Rooftop Rooftop systems are similar to VAV systems in that they use a central ductwork system to distribute conditioned air into the building space. However, instead of one central unit, the system is comprised of multiple units which can be tasked for different conditioning requirements. Rooftop systems usually require additional structural reenforcement as well as cranes or other lifting equipment to place the units. Control in a particular zone is limited to what the system is currently set to (i.e. cooling or heating). Rooftop installation costs are low to moderate, but operating costs are typically 50% higher than watersource heat pumps. Additionally, the systems are exposed to the elements and are subject to damage and vandalism.
When choosing a HVAC system for a project, there are four basic types from which to choose.
fan coils
Fan coil systems are comprised of water-to-air coil air handlers connected via a two- or four-pipe insulated water loop. Fan coils require complex chillers and boilers to provide water loop fluid in a particular temperature range (i.e. chilled water for cooling and hot water for heating). Two-pipe fan coils have a major disadvantage as control is substantially limited to whatever mode the system is currently set at (i.e. cooling or heating). A four-pipe version can be installed that requires both chilled and heated water to be available at the same time. Four-pipe systems also require twice the piping and twice the circulation equipment of a two-pipe system, which makes a four-pipe system one of the System Comparison most expensive systems to install.
Water-source and geothermal heat pump systems are comprised of individual packaged units that transfer heat via a single- or two-pipe water loop. Each unit can be used in either heating or cooling mode year-round and loop temperature is maintained via a boiler/tower combination or earthcoupled loop. Each zone has complete control of its heating/cooling mode and each unit is independent from the others. This means if one unit goes down, the whole system is not affected. Controls can be as simple as one unit, one thermostat. Water-source and geothermal heat pump systems are the most energy, cost, and space efficient of any system in the industry.
System
Ease of Design
Ease of Installation
Installation Space
Installation Cost
Maintenance Requirements
Maintenance Costs
Future System Expansion
Sound Levels
Operating Costs
Total Zone Failure Chance
Individual Tenant Control
Options
Additional Auxiliary Equipment Needed
Structure Modification Needs
System Longevity
Two-Pipe Fan Coils
Low
Low
High
Med
High
High
Low
Low
Med
High
Low
Low
High
High
Med
Four-Pipe Fan Coils
Low
Low
High
High
High
High
Low
Low
High
High
Low
Low
High
High
Med
PTAC / PTHP
Low
Low
Low
Low
High
High
Med
High
High
Low
Med
Low
Med
High
Low
VAV
Low
Low
High
Med
High
High
Low
Med
Med
High
Low
Low
High
High
Med
Rooftop
Low
Low
High
Low
Med
High
Low
Med
Med
High
Low
Low
Med
High
Med
Water-Source Heat Pumps
High
High
Low
Low
Low
Low
High
Low
Low
Low
High
High
Low
Low
High
Geothermal Heat Pumps
High
High
Low
Low
Low
Low
High
Low
Low
Low
High
High
Low
Low
High
Variable air volume (VAV) Variable Air Volume, or VAV, is one of the most common types of HVAC systems used in large commercial buildings today. A typical system is usually comprised of a large air handler, central ductwork system, and a relatively large equipment room. Conditioned air is distributed throughout the building via a central ductwork system and is regulated via dampers in each space. VAV systems typically have a higher first cost than water-source heat pumps, and may have similar operating costs, resulting in overall increased life cycle costs.
Water-Source and geothermal heat pumps
Solution 1 Water-Source heat pumps Water-Loop heat pump systems combine watersource heat pumps on a common piping loop with a heat rejector and boiler, which are used to maintain the circulating water temperature within a controlled range, typically from 60°F to 95°F [15°C to 35°C]. The most common heat rejectors are open cooling towers with isolating heat exchangers, closed-circuit evaporative coolers, or dry coolers. Boilers are usually gas, oil, or electric. Each zone heat pump utilizes the water loop to provide heating or cooling at any time, during or after hours, regardless of the operating mode of the other heat pumps. This is accomplished without duplicate heat and cool distribution systems, without the double waste inherent in reheat modes, and without concurrent operation of the cooling source and boiler, unlike most HVAC systems that provide the same capabilities. Water-loop heat pump systems also operate very efficiently at part-load conditions, such as when a small portion of the building remains occupied after hours. Only the required zone heat pumps are used, unlike systems that must keep a large central plant in operation at an inefficient scaledback capacity in order to serve a small portion of the load. A typical building has a perimeter with outside exposure that is directly affected by variable outdoor weather conditions and a core without outside exposure that is almost unaffected by the weather. In order to understand the energy sharing benefits of a water-source heat pump system, the interaction of the loads in the core and perimeter zones must be analyzed for occupied
7 periods (internal gains present) and unoccupied periods (temperature setback/setup and little or no internal gains) throughout the year. For illustration, the following are the main energy consuming operating modes of an office building in a temperate climate.
Summer OccupieD All zones require cooling and are rejecting heat into the water loop. The heat rejector maintains the maximum water loop temperature according to a predetermined setpoint (fixed or outdoor reset). The boiler is off.
Winter OccupieD Most core zones will require cooling because of the internal heat gains discussed previously. Most perimeter zones will require heating. Because heat is being simultaneously rejected into and extracted from the water loop, both the boiler and the heat rejector remain off much of the time. The inherent sharing of energy within the water loop minimizes boiler and heat rejector operation and provides maximum system efficiency.
Winter Warm-UP During recovery from night setback, most zones will require heating and will be extracting heat from the water loop. The boiler maintains the minimum water loop temperature according to a predetermined setpoint. The heat rejector is off. The warm-up period is typically one hour or less per day.
Solution 1 Example As an example of how water-source heat pumps can handle a variety of different applications, the building shown to the right is a fictional bronze statue foundry company in the midwest portion of the United States. The first floor comprises their production floor and office space. The second floor of the building is reserved for future use. The cooling tower and boiler work as needed to maintain an average loop temperature between 60 to 95°F [15 to 35°C]. Water-source heat pumps can efficiently operate in either heating or cooling mode under these conditions. This gives individual and specialized zone control for maximum comfort and the ability to change operation modes as needed. A mixture of units in heating mode and units in cooling mode create a constant temperature in the water loop. In Balanced Mode, there is no need for heat injection or rejection via the boiler or cooling tower. The heat is simply moved from one zone to another.
Warm Weather (High Cooling Demand) TCH024 TCH120
TCH120
TCH024
Conference Room
TCH024 Office
TCH048
Restroom
Cubicles
TCH048
TCH024 Breakroom
Cubicles
Computer Room Mechanical Room
A Water-Source example
TCH048
Production Floor
Cooling Tower
Boiler
TL V168 TCH012
Office
TCH012
TCH012
Office
Office
TCH012
Office
TCH012
Office
TCH012
Office
Lobby
Cool Weather (High Heating Demand) TCH024 TCH120
TCH120
TCH024
Conference Room
TCH024 Office
TCH048
Restroom
Cubicles
TCH048
TCH024 Breakroom
Cubicles
Computer Room Mechanical Room
8
TCH048
Production Floor TL V168 TCH012
Office Lobby
TCH012
Office
TCH012
Office
TCH012
Office
TCH012
Office
TCH012
Office
Cooling Tower
Boiler
Solution 2
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Geothermal systems These “Boilerless/Towerless” heat pump systems use the natural thermal properties of the Earth to dissipate or capture heat for the water loop. Geothermal heat pumps operate in an identical fashion to water-source heat pump units. However, without the need for a boiler or cooling tower, they save substantial energy costs and space. The water loop system is underground and the units are inside the building. Thus, the environmentally friendly geothermal system preserves the architectural design of a building naturally.
Geothermal Earth loops Geothermal Earth Loops come in several different configurations depending on space availability and soil properties. Chances are at some point you have either stood over, or walked across a geothermal loop field. Loop fields can be located under parking lots, landscaped areas, or any number of other locations. All earth loops use high-density polyethylene pipe to circulate either water or an antifreeze mixture. All joints and connection fittings are thermally fused to prevent leaks and most piping comes with a 25 year or longer warranty.
Vertical loops
lake Loops
Vertical loops utilize bore holes drilled to an average depth of 250 feet. Once the loop pipe is inserted into the bore, it is grouted using a Bentonite mixture for maximum thermal conductivity. When space is limited, vertical loops are the most common type of geothermal loop installed.
Lake loops utilize a “slinky” assembly of geothermal loop piping placed at the bottom of a pond, lake, or other large body of water. An extremely cost effective loop system, lake loops are an easy alternative if the option is available.
Well Systems Horizontal Loops Horizontal loops utilize trenches dug to an average depth of four to six feet. As one of the more cost effective loops to install, horizontal loops are commonly found in open fields, parks or under parking lots.
Most commonly known as “Open Loop”, well systems pump water out of a nearby body of water or water well, and then discharge the water into another body of water or water well. Well systems usually employ a plate heat exchanger inside the building to keep the building water loop separated from the well water. This prevents any contaminates from affecting unit performance and extends system life. Well systems are often the most efficient as the well water is always at the same temperature year-round.
Solution 2 EXAMPLE A Geothermal example Using the same building model, the cooling tower and boiler are replaced with a geothermal vertical loop field. Identical in overall zone operation, the building benefits by having less overall equipment and reduced operation costs. Building aesthetics are also improved by eliminating outdoor equipment, and additional space is gained by eliminating the boiler and additional support equipment.
Warm Weather (High Cooling Demand)
TCH024 TCH120
TCH120
TCH024
Conference Room
TCH024 Office
TCH048
Restroom
Cubicles
TCH048
TCH024 Breakroom
Cubicles
Computer Room
TCH048
Production Floor
Storage
10
TL V168 TCH012
Office
TCH012
Office
TCH012
Office
TCH012
Office
TCH012
Office
TCH012
Office
Lobby
The cooling tower and boiler can be eliminated in the geothermal application freeing up space used for equipment for other use. Only a small amount of room is needed for loop circulation equipment.
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The ClimateMaster Advantage Who is ClimateMaster? Who is ClimateMaster? ClimateMaster emerged from the marriage of several water-source heat pump companies in a blending of strengths to form a focused organization. For over 50 years, we have been focused on enhancing business and home environments around the world. Our mission as the world’s largest and most progressive leader in the water-source and geothermal heat pump industry reveals our commitment to excellence - not only in the design and manufacture of our products, but in our people and services.
Made in the USA All of ClimateMaster’s 610,000 square feet in facilities operate in Oklahoma City, Oklahoma, which means ClimateMaster units and components are manufactured in the United States using American labor. While the trend nationally is to outsource labor outside the United States, ClimateMaster has made the commitment to remain proudly American made.
Climatemaster design From concept to product, ClimateMaster’s Integrated Product Development Team brings a fusion of knowledge and creativity that is unmatched in the industry today. Drawing from every aspect of our business: Engineering, Sales, Marketing, and Manufacturing, our Development Team has created some of the most advanced, efficient, and versatile products available.
Innovation, concept, needs Great products are born from necessity. Whether it is a need to reduce sound, fit in a smaller space, make easier to service, achieve better efficiencies, or due to changing technologies, or new
government regulations, ClimateMaster leads the industry in advancing the form, fit and function of water-source and geothermal heat pumps. Our Design Team continually strives for even the slightest improvement to our products. It is this continual drive for excellence that sets ClimateMaster apart from all other manufacturers.
Start to finish At ClimateMaster, every product development project begins with a comprehensive set of specifications. These specifications are a culmination of input from the market, a specific need, or a number of other factors. From these detailed specifications, prototypes are constructed and testing begins. After a rigorous testing period in ClimateMaster’s own state-ofthe-art lab facility, the data is compared to the project specifications. Once the Design Team is satisfied that all of the specs are met, the unit is sent to the Production Department for pilot runs. After the pilot runs are completed, unit literature is finalized and the product is released to the marketplace.
Climatemaster production Innovative products demand innovative manufacturing processes. ClimateMaster’s integrated production process combines every aspect of the manufacturing of our equipment into an organized, balanced, and controlled whole.
fabrication Every sheet-metal component of a ClimateMaster unit is produced in our Fabrication Department. Panels are precisely constructed of galvanized or stainless steel using computerized cutting, punching, and forming equipment. This precise fabrication means a tighter fit that makes for a more solid unit and reduced vibration, which equals reduced noise. On certain series, an polyester powder coating is then applied to increase corrosion resistance and enhance the look of the unit. The final step is the addition of fiberglass insulation to the inside as an additional layer of sound deadening. This insulation meets stringent NFPA regulations, and includes antibacterial material.
Assembly ClimateMaster’s 610,000 square foot facilities use the most stringent quality control standards in the industry. Each unit is assembled under the close supervision of our Integrated Process Control System or Procix. This multi-million dollar computer system watches each unit as it comes down the assembly line. In addition, our Quality Department is stationed on each line and performs random audits not only on the units, but also on component parts. All component parts must pass each and every quality checkpoint before a unit is packaged and shipped. These systems and processes are maximized due to the comprehensive and ongoing training every employee receives from the date they are hired.
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ISO 9001:2000 Certification International Organization for Standardization (ISO) ISO 9001:2000 is a network of the national Certified standards institutes of Quality: First & Always over 150 countries, on the basis of one member per country, with a Central Secretariat of Geneva, Switzerland, that coordinates the system. ISO is a nongovernmental organization that occupies a special position between the public and private sectors whose goal is to create, maintain, and improve standards worldwide. ISO standards contribute to making the development, manufacturing, and supply of products and services more efficient, safer, and cleaner. ISO certification demonstrates ClimateMaster’s commitment to quality and continuous improvement.
ClimateMaster’s Tranquility 27® Series has won multiple awards and is widely accepted as a leader in the industry. You know you are doing great things when a lot of people tell you so.
Engineering Lab facilities ClimateMaster has one of the largest testing facilities of any water-source heat pump manufacturer including the reverberant, ISO 3741 Certified sound testing room in the industry. Innovation and product improvements are a mainstay of the ClimateMaster Engineering Lab. Our people are what make the difference in the development of superior products in a timely manner. Our certified facility has seven automated test cells capable of testing a wide variety of unit types under varying conditions. These cells are capable of producing data twenty-four hours a day, seven days a week. The development time of equipment is significantly reduced allowing ClimateMaster Engineers and Lab Technicians to spend more time on the actual development process. This team effort has allowed us to maintain a high degree of competence in our industry. Our test cells and test equipment are calibrated and certified periodically, per recognized industry standards, to insure the data is accurate and repeatable. In addition to testing new concept
Industry Affiliations and Associations ClimateMaster works closely with the International Standards Organization (ISO), the American Society of Heating, Refrigerating, and Air Conditioning Engineers (ASHRAE), and the Electrical Testing Laboratories (ETL), to insure that our equipment not only meets the highest performance standards, but meets the highest industry standards as well. ClimateMaster has celebrated many consecutive years of 100% success rate in AHRI’s performance certification program. An uncommon feat in the industry, this is a testament to the craftsmanship, design, and construction of every ClimateMaster unit. IFIED TO ARI A RT S C CE
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ClimateMaster leads the industry in product awards and certifications. From 100% Air-Conditioning, Heating and Refrigeration Institute (AHRI) performance ratings to industry awards for innovation, ClimateMaster applies cutting-edge technology to every product we design and manufacture.
A TO NE
To produce a quality unit, you have to start with quality components. ClimateMaster’s Purchasing Department is relentless in its search for the best components for our products - while securing these components at prices that keep costs low. Any new component must go through a grueling testing phase before it ever sees the production line. Working closely with vendors and their engineers, we continually find new ways to not only improve our units, but to ensure component quality as well. Sister companies like KOAX, who produce our coaxial heat exchangers, allow ClimateMaster to provide components specifically designed for our applications.
units, the lab continually audits production units throughout the year to insure quality performance and reliability.
NG WITH LYI MP O IR
Climatemaster AWARDS
IS
Component Parts
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Customer Service ClimateMaster has gone to great lengths to meet our customers’ business-to-business needs. ClimateMaster provides great products and our customer support is second to none. Our highly trained and experienced Customer Service Department is available to assist you. Visit our online Business Center or contact Tech Services for any information you may need.
14 climatemaster.com Our web site has become the central hub for all of our customers’ information needs. Current literature, specifications, presentations, and other resources are readily available in an intuitive, easy-tonavigate format. At the click of a mouse, our new online Business Center allows you to check the status of your orders, lookup sales history, manage contact information, and even order literature, accessories, and equipment. Combined with our unique EZ-ORDER software, we take all the effort and guesswork out of unit orders.
Engineering Design Specifications Advanced units need advanced specifications. ClimateMaster’s new Engineering Design specifications provide the most detailed information for your next project.
Literature At ClimateMaster, innovation never sleeps. As new advances are made, and new products are released, the need for accurate literature becomes critical. Every piece of technical literature that ClimateMaster produces is printed in our state-ofthe-art on-demand printing facility. What this means is that we print only the literature we need at the time we need it. This insures that only the most current and accurate data is in the field.
Shipping When you need that critical service part or piece of literature for your next presentation, you may rest assured that ClimateMaster has a shipping option for you. Networked with a variety of carriers, we provide fast and reliable shipping to anywhere in the world.
The Future of Climatemaster Our long history of innovation has paved the way for future endeavors with a solid platform of success. Growing markets in Europe and Asia demand a different way of not only manufacturing our products, but also successfully marketing them. Government regulations have phased out R-22 refrigerant at the beginning of 2010 paving the way for new HFC-410A, a much more environmentally friendly refrigerant. In looking ahead, we continually strive for better processes, better designs, and better innovations that will keep ClimateMaster as the global leader in water-source and geothermal heat pumps.
Advantage Exclusives Being a leader in innovation, ClimateMaster brings industry firsts, as well as industry exclusives, to our family of products.
Controls ClimateMaster offers two levels of solid-state digital controls; the CXM and DXM control board. CXM Our standard CXM control board comes programmed with ClimateMaster’s Unit Performance Sentinel (UPS) which monitors unit performance and notifies the owner of potential unit problems before a lockout occurs. Additionally, the CXM’s eight standard safeties protect the unit from damage. • Anti-Short Cycle • Low Voltage • High Voltage • High Refrigerant Pressure
• Low Refrigerant Pressure (Loss of Charge) • Air Coil Low Temperature • Water Coil Low Temperature • Condensate Overflow DXM Our enhanced controls option, the DXM control board offers all of the advantages of the CXM board but adds the following additional features: • Multi-Stage Operation • Night Setback with Override • Emergency Shutdown • Reheat Control • Boilerless Electric Heat DDC Controls Factory mounted LONWorks or Multi-ProtoCol (MPC) DDC controllers are an available option on all ClimateMaster products. These controllers give owners the ability to implement a variety of building automation systems such as BACnet, ModBus, and Johnson N2. Through a web enabled PC, individual units, unit zones, and entire building systems can be monitored and controlled with the click of a mouse. The systems provide unit status, set-point control, performance curves, and fault indications.
15 Configurations
Torsion-flex blowers
ClimaDry™ reheat
No other manufacturer provides as many size, performance, configuration, and cost options as the ClimateMaster family of products offers. From our smallest horizontal unit in the TCH-006, to our largest vertical in the TLV-300, to our Rooftop Series with available 100% make-up air (when mated with the Rx ERV), to the vertical stack, console, water-to-water, and two-stage Tranquility 27®, we have a unit to fit your application.
Blower motors, on select models, are mounted with a unique torsion-flex mounting system which not only allows for easy service, but also reduces vibration from the blower motor during operation.
Continuing to lead the industry in IAQ (Indoor Air Quality) solutions, select ClimateMaster units are available with an innovative method (patented) of reheating the air. The ClimaDry™ microprocessorcontrolled option will automatically provide 100% reheat by adjusting the amount of reheat capacity based upon supply air temperature. This new approach to reheat provides dehumidified, neutral temperature supply air, while eliminating the problem of overcooling the space when loop temperatures drop. All components are internal to the unit, saving space and keeping installation costs low. A simple humidistat or dehumidistat control activates the option.
Sound Prior to the adoption of the 260-2000 sound standard there had been no standard for the evaluation of water-source heat pump sound performance. Also, those manufacturers who did generate and publish their own sound data, did so in their own labs making it difficult to have the data independently certified and accurate comparisons were therefore, impossible. Now that a standard has been established, it is critical to compare the data correctly. If data from two manufacturers is compared using different test procedures, results are not comparable. ClimateMaster has tested its product line for both ducted discharge and free inlet air combined with case radiated tests. Comfort has never been so quiet with our intelligent sound design. Our products use a variety of technologies to maintain our lead as the quietest units in the industry.
dual level vibration isolation ClimateMaster units use an exclusive double isolation compressor mounting system. This dual level isolation deadens vibration and provides quiet operation.
Ultraquiet ClimateMaster’s optional additional sound suppression package enhances our already excellent sound performance through the use of dual density acoustical insulation and other strategically placed sound attenuating materials. No other manufacturer’s mute package comes close to matching the performance of the UltraQuiet package.
E-Coated air coils and Water coils All ClimateMaster water-source heating and cooling systems are available with an E-Coated aircoil option. E-Coated or Powder Coated water coils are standard on all products. This process provides years of protection against coil corrosion from airborne chemicals resulting from modern building material outgassing and most airborne environmental chemicals. In fact, ClimateMaster’s exclusive E-Coated air-coils enhance corrosion protection to nearly 20 times that of a traditional uncoated coil.* *Test based upon ASTM B117 Salt Spray test hours.
voltages ClimateMaster units are available in a wide variety of commercial voltages, providing maximum flexibility in building design. Available voltages are as follows: • 208-230/60/1 • 208-230/60/3 • 265/60/1 • 460/60/3 • 575/60/3 * Not all units are available with every voltage combination shown above.
Accessories ClimateMaster offers a complete line of accessories to complete any project, including hoses, thermostats, valves, pumps, fittings, controllers, sensors, filters and more.
T H E C L I M A T E M A S T E R F A M I LY O F P R O D U C T S
* Standard control for TO Series is DDC with modulating HGR. ** Standard water coil construction for TO Series is stainless steel. *** Standard on TT Series ‡ Standard on TMW Series † Extended Range = 35°F–95°F EWT a Sizes 024 and above b Sizes 036 - 120 c Vertical series only Vertical Dedicated Outdoor Air (TO)
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•
•
Horizontal Dedicated Outdoor Air (TO)
•
•
•
•
•
•
• •
†
•
†
•
•
•
• Internal Service Disconnect
Cupro-Nickel Coil
ClimaDry Reheat
Condensate Overflow Protection
ECM Fan***
Remote Reset at Thermostat
Internal Secondary Pump
Factory Installed Hanger Brackets (Horizontal Units)
E-Coated Air Coil
Scroll Compressors
Deluxe DXM Controller
Multiple Access Panels for Installation and Service Ease
DDC Controller
Field Convertible Discharge (Horizontal Units)
Desuperheater Coil
Dual Level Compressor Vibration Isolation
DownFlow Configuration
TXV
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Tranquility 20 Single-Stage (TS)
•
•
•
•
•
•
•
•
•
•
•
•
•
Tranquility High Efficiency (TR)
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•
•
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a
•
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Tranquility 16 Compact (TC)
•
•
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a
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Tranquility Vertical Stack (TRM)
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Tranquility Console (TRC)
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Tranquility Compact (TCH)
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Tranquility Large (TL)
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Tranquility Water-to-Water (TMW)
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Rooftop (TRE)
•
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• •
Two-Way Control Valve
Copper Water Coil**
•
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Auto-Flow Water Regulation
Standard Range
•
•
Extended Range (20 to 120ºF) ‡
Microprocessor CXM Controls*
•
a
UltraQuiet (Mute) Package
EarthPure® (HFC-410A) Refrigerant
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• High Static Blower
•
Rx Energy Recovery Ventilator (ERV) Tranquility 27® Two-Stage (TT)
Product Series
•
Standard Features
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•
• b
•
•
• •
c •
T H E C L I M A T E M A S T E R F A M I LY O F P R O D U C T S
Factory Installed Options
U N I T F E AT U R E S One-Half to Six Ton Single-Stage EarthPure® (HFC-410A) Horizontal, Vertical, and Downflow Units
Two to Six Ton Two-Stage EarthPure® (HFC-410A) Horizontal, Vertical, and Downflow Units
TRANQUILITY 20 SINGLE-STAGE (TS) SERIES
TRANQUILITY 27® TWO-STAGE (TT) SERIES
Six to Ten Ton Compact EarthPure® (HFC-410A) Horizontal Units
Three-Quarter to One-and-One Half Ton EarthPure® (HFC-410A) Console Units
TRANQUILITY COMPACT (TCh) SERIES
TRANQUILITY CONSOLE (TRC) SERIES
Rooftop Energy Recovery Units
Three to Twenty Ton Rooftop Units
Rx (ERV) MODULE
ROOFTOP (TRE) SERIES
TRANQUILITY HIGH EFFICIENCY (TR) SERIES
TRANQUILITY 16 COMPACT (TC) SERIES
One-Half to Five Ton EarthPure® (HFC-410A) Horizontal and Vertical Units
TRANQUILITY VERTICAL STACK (TRM) SERIES Three-Quarter to Three Ton EarthPure® (HFC-410A) Vertical Hi-Rise Stack Units
One-Half to Five Ton Compact EarthPure® (HFC-410A) Horizontal and Vertical Units
TRANQUILITY LARGE (TL) SERIES
TRANQUILITY MODULAR WATER-TO-WATER (TMW) SERIES
Seven to Twenty-Five Ton EarthPure® (HFC-410A) Vertical Units
Three to Twenty-Eight Ton EarthPure® (HFC-410A) Water-to-Water Units
TRANQUILITy (TOH) SERIES
TRANQUILITy (TOV) SERIES
Three to One Hundred Ton Horizontal Dedicated Outdoor Air Systems
Four to Thirty Ton Vertical Dedicated Outdoor Air Systems
20
the tranquility 27® two-stage (tt) series Easy to remove blower housing for quick service and ECM variable speed motor Foil faced insulation in the blower section and fiberglass insulation in the compressor section
Copeland UltraTech™ twostage compressor with dual compressor vibration isolation Easy service access from multiple sides
The Tranquility 27® Two-Stage (TT) Series blends the most advanced technology with the most advanced design to create some of the highest efficiency watersource heat pumps available today. The Tranquility 27® Two-Stage Series utilizes EarthPure® (HFC-410A) refrigerant along with the Copeland UltraTech™ two-stage compressor and ECM variable speed motor to bring unmatched performance and comfort.
Unit Features • Sizes 026 (2 ton, 7.0 kW) through 072 (6 ton, 21.1 kW) • Environmentally-friendly EarthPure® HFC-410A refrigerant • Unsurpassed efficiencies (far exceeds ASHRAE 90.1) • Copeland UltraTech two-stage compressor and variable speed ECM fan motor
• Galvanized steel construction and powder coat paint on all units • Unique double isolation compressor mounting for quiet operation • Discharge muffler standard on all sizes for superior sound attenuation • Microprocessor controls standard (optional DXM and/or DDC controls) • Field convertible discharge air arrangement for horizontal units • Bi-directional, balanced port expansion valve refrigerant metering device standard • Standard range or extended range operation • Water connections securely mounted flush to the cabinet corner post (no backup wrench required) • Eight safeties standard
Easy access control box contains advanced digital controls with Remote Service Sentinel (Optional Enhanced controls (DXM) & DDC Controllers)
Factory installed hanger brackets on horizontal units
Standard stainless steel insulated drain pan with condensate overflow protection
21 Performance and Specifications Full Load AHRI/ISO/ASHRAE 13256-1 Data (English (IP) Units & Metric (SI) Units) Water Loop Heat Pump Cooling 86°F [30°C] Model
Refrigerant
Ground Water Heat Pump
Heating 68°F [20°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Cooling 59°F [15°C]
Ground Loop Heat Pump
Heating 50°F [10°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Cooling 77°F [25°C]
Heating 32°F [0°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
TT-026
HFC-410A
25,300 [7.42]
15.9 [4.7]
30,800 [9.03]
5.3
28,900 [8.47]
24.5 [7.2]
25,700 [7.53]
4.8
26,600 [7.80]
18.5 [5.4]
19,800 [5.80]
4.0
TT-038
HFC-410A
36,200 [10.61]
15.6 [4.6]
44,800 [13.13]
5.3
41,200 [12.08]
23.0 [6.7]
36,700 [10.76]
4.7
38,200 [11.20]
18.2 [5.3]
29,000 [8.50]
4.0
TT-049
HFC-410A
48,400 [14.19]
15.7 [4.6]
59,900 [4.19]
5.2
54,600 [16.00]
22.5 [6.6]
48,300 [14.16]
4.7
50,600 [14.83]
17.9 [5.2]
37,500 [10.99]
4.0
TT-064
HFC-410A
61,500 [18.03]
15.0 [4.4]
72,300 [21.19]
5.0
68,600 [20.11]
22.0 [6.4]
59,600 [17.47]
4.4
64,800 [18.99]
17.5 [5.1]
48,000 [14.07]
3.9
TT-072
HFC-410A
68,700 [20.14]
14.2 [4.2]
88,600 [25.97]
4.9
77,100 [22.60]
19.9 [5.8]
70,200 [20.57]
4.3
71,600 [20.99]
16.2 [4.7]
54,100 [15.86]
3.6
Part Load AHRI/ISO/ASHRAE 13256-1 Data (English (IP) Units & Metric (SI) Units) Water Loop Heat Pump Cooling 86°F [30°C] Model
Refrigerant
Ground Water Heat Pump
Heating 68°F [20°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
Cooling 59°F [15°C]
Ground Loop Heat Pump
Heating 50°F [10°C]
Capacity
EER
Capacity
COP
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
Cooling 77°F [25°C]
Heating 32°F [0°C]
Capacity
EER
Capacity
COP
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
4.6
TT-026
HFC-410A
19,400 [5.69]
18.3 [5.4]
22,400 [6.57]
6.1
22,200 [6.51]
30.8 [9.0]
18,600 [5.45]
5.1
21,300 [6.24]
26.0 [7.6]
16,500 [4.83]
TT-038
HFC-410A
26,200 [7.68]
18.5 [5.4]
30,800 [9.03]
6.3
30,200 [8.85]
31.5 [9.2]
24,800 [7.27]
5.1
28,900 [8.47]
27.0 [7.9]
22,100 [6.48]
4.5
TT-049
HFC-410A
36,100 [10.58]
18.0 [5.3]
44,300 [12.98]
6.2
40,700 [11.93]
28.7 [8.4]
35,400 [10.38]
5.1
39,600 [11.61]
24.9 [7.3]
31,200 [9.14]
4.6
TT-064
HFC-410A
44,900 [13.16]
17.6 [5.2]
51,100 [14.98]
5.7
51,900 [15.21]
29.7 [8.7]
49,800 [12.25]
4.7
49,800 [14.60]
25.3 [7.4]
37,500 [10.99]
4.3
TT-072
HFC-410A
52,800 [15.48]
16.0 [4.7]
65,200 [19.11]
5.1
59,800 [17.53]
24.5 [7.2]
51,700 [15.15]
4.3
57,700 [16.91]
21.4 [6.3]
45,400 [13.31]
3.9
Cooling capacities based upon 80.6°F [27°C] DB, 66.2°F [19°C] WB entering air temperature. Heating capacities based upon 68°F [20°C] DB, 59°F [15°C] WB entering air temperature. All ratings based upon operation at the lower voltage of dual voltage rated models.
Dimensional Data Vertical Upflow Model
Voltage Options
Overall Cabinet W
D
H
Horizontal Model
Model
Volts
Hz
Phase
026
208/230
60
1
19.3 48.9
038 - 064
208/230 208/230 460
60 60 60
1 3 3
072
208/230
60
1
Overall Cabinet W
D
H
22.4 56.8
62.2 158.0
026
in. cm
22.4 56.8
25.6 65.1
48.5 123.2
026
in. cm
038
in. cm
25.4 64.5
30.6 77.8
50.5 128.3
038
in. cm
25.4 64.5
71.2 180.8
21.3 54.0
049
in. cm
25.4 64.5
30.6 77.8
54.5 138.4
049
in. cm
25.4 64.5
76.2 193.5
21.3 54.0
064
in. cm
25.4 64.5
30.6 77.8
58.5 148.6
064
in. cm
25.4 64.5
81.2 206.2
21.3 54.0
072
in. cm
25.4 64.5
30.6 77.8
58.5 148.6
072
in. cm
25.4 64.5
81.2 206.2
21.3 54.0
Note: Add 4” [10.16cm] to height for vertical downflow models.
22
the tranquility 20 Single-stage (tS) Series Easy to remove blower housing for quick service and optional ECM variable speed motor Foil faced insulation in the blower section and fiberglass insulation in the compressor section Dual compressor vibration isolation for quiet operation Easy service access from multiple sides
The Tranquility 20 Single-Stage (TS) Series builds on ClimateMaster’s commitment to utilizing the most advanced technology and design to create one of the most efficient single-stage water-source heat pump available today. The Tranquility 20 SingleStage Series combines EarthPure® (HFC-410A) refrigerant with the Copeland Scroll compressor (rotary in 018 and smaller) and either an ECM variable speed or PSC multi-speed fan motor to create unmatched performance and flexibility.
Unit Features • Sizes 006 (1/2 ton, 1.8 kW) through 070 (6 ton, 21.1 kW) • Environmentally-friendly EarthPure® (HFC-410A) refrigerant • Unsurpassed efficiencies (far exceeds ASHRAE 90.1) • Copeland Scroll compressor (size 018 and above) • Multi-speed PSC fan motor (optional variable speed ECM motor on size 018 and above)
• Galvanized steel construction and powder coat paint on all units • Unique double isolation compressor mounting for quiet operation • Discharge muffler standard (except rotary compressors) for superior sound attenuation • Microprocessor controls standard (optional DXM and/or DDC controls) • Field convertible discharge air arrangement for horizontal units • Bi-directional, balanced port expansion valve refrigerant metering device standard • Standard range or extended range operation • Water connections securely mounted flush to the cabinet corner post (no backup wrench required) • Eight safeties standard
Easy access control box contains advanced digital controls with Remote Service Sentinel (Optional Enhanced controls (DXM) & DDC Controllers)
Factory installed hanger brackets on horizontal units
Standard stainless steel insulated drain pan with condensate overflow protection
23 Performance and Specifications AHRI/ISO/ASHRAE 13256-1 Data (English (IP) Units & Metric (SI) Units) Water Loop Heat Pump Cooling 86°F [30°C] Model*
Refrigerant
Ground Water Heat Pump
Heating 68°F [20°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
Cooling 59°F [15°C]
COP
Ground Loop Heat Pump
Heating 50°F [10°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Cooling 77°F [25°C]
Heating 32°F [0°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
TS-006 PSC
HFC-410A
6,300 [1.85]
15.7 [4.6]
8,000 [2.34]
5.4
7,400 [2.17]
25.5 [7.5]
6,300 [1.85]
4.4
6,700 [1.96]
18.5 [5.4]
4,800 [1.41]
3.4
TS-009 PSC
HFC-410A
9,300 [2.74]
15.3 [4.5]
11,100 [3.26]
4.8
11,100 [3.26]
25.2 [7.4]
9,400 [2.76]
4.3
10,000 [2.94]
18.1 [5.3]
7100 [2.09]
3.4
TS-012 PSC
HFC-410A
11,700 [3.43]
15.4 [4.5]
13,800 [4.05]
4.5
13,300 [3.90]
24.6 [7.2]
11,800 [3.46]
4.0
12,300 [3.60]
18.1 [5.3]
9,500 [2.78]
3.5
TS-018 PSC TS-018 ECM
HFC-410A
18,600 [5.47] 19,200 [5.65]
15.0 [4.4] 16.5 [4.8]
23,000 [6.76] 23,300 [6.85]
5.2 5.9
21,300 [6.26] 22,100 [6.50]
24.8 [7.3] 26.3 [7.7]
18,800 [5.53] 18,900 [5.56]
4.5 4.9
19,500 [5.74] 20,200 [5.94]
18.4 [5.4] 19.4 [5.5]
14,500 [4.27] 14,500 [4.43]
3.6 3.9
TS-024 PSC TS-024 ECM
HFC-410A
25,100 [7.36] 25,000 [7.33]
16.2 [4.8] 17.0 [5.0
29,600 [8.68] 30,000 [8.79]
4.9 5.3
28,600 [8.38] 28,100 [8.24]
25.7 [7.5] 27.4 [8.0]
25,000 [7.33] 25,100 [7.36]
4.3 4.6
26,300 [7.71] 26,000 [7.62]
19.1 [5.6] 20.0 [5.0]
19,000 [5.57] 19,400 [5.69]
3.7 3.8
TS-030 PSC TS-030 ECM
HFC-410A
28,200 [8.26] 28,600 [8.38]
15.3 [4.5] 15.6 [4.6]
34,900 [10.23] 35,200 [10.32]
5.0 5.3
31,700 [9.29] 32,200 [9.44]
22.9 [6.7] 23.9 [7.0]
29,400 [8.62] 29,400 [8.62]
4.4 4.6
29,400 [8.62] 29,800 [8.73]
17.6 [5.2] 18.0 [5.3]
23,600 [6.92] 23,700 [6.95]
3.8 3.9
TS-036 PSC TS-036 ECM
HFC-410A
33,000 [9.67] 33,100 [9.70]
16.6 [4.9] 17.6 [5.2]
39,800 [11.66] 39,500 [11.58]
5.5 5.8
37,300 [10.93] 37,300 [10.93]
25.1 [7.4] 26.5 [7.8]
32,900 [9.64] 32,900 [9.64]
4.8 5.1
34,500 [10.11] 34,600 [10.14]
19.2 [5.6] 20.2 [5.9]
25,700 [7.53] 25,800 [7.56]
3.9 4.2
TS-042 PSC TS-042 ECM
HFC-410A
37,400 [10.96] 37,800 [11.08]
16.0 [4.7] 17.1 [5.0]
49,400 [14.48] 48,600 [14.24]
5.4 5.7
42,900 [12.57] 44,200 [12.95]
24.3 [7.1] 27.1 [7.9]
40,100 [11.75] 39,300 [11.52]
4.6 4.9
39,300 [11.52] 40,000 [11.72]
18.4 [5.4] 20.0 [5.9]
31,600 [9.26] 30,400 [8.91]
3.8 4.0
TS-048 PSC TS-048 ECM
HFC-410A
47,000 [13.77] 47,600 [13.95]
15.3 [4.5] 15.9 [4.7]
60,000 [17.58] 59,700 [17.50]
5.0 5.2
53,900 [15.80] 54,100 [15.86]
23.3 [6.8] 24.6 [7.2]
49,000 [14.36] 48,700 [14.27]
4.4 4.5
49,900 [14.62] 50,100 [14.68]
17.6 [5.2] 18.5 [5.4]
39,000 [11.43] 38,400 [11.25]
3.7 3.8
TS-060 PSC TS-060 ECM
HFC-410A
61,000 [17.88] 62,000 [17.88]
15.9 [4.7] 16.4 [4.8]
70,400 [20.63] 70,800 [20.75]
5.0 5.2
67,000 [19.64] 67,200 [19.70]
23.2 [6.8] 24.3 [7.1]
58,700 [17.20] 59,100 [17.32]
4.5 4.6
63,300 [18.55] 64,000 [18.76]
18.2 [5.3] 19.0 [5.6]
46,500 [13.63] 46,700 [13.69]
3.7 3.8
TS-070 PSC TS-070 ECM
HFC-410A
67,500 [19.78] 67,000 [19.64]
14.4 [4.2] 15.2 [4.5]
85,800 [25.15] 84,900 [24.88]
5.0 5.0
77,100 [22.60] 77,000 [22.57]
21.6 [6.3] 23.5 [6.9]
69,400 [20.34] 69,000 [20.22]
4.3 4.4
70,800 [20.75] 70,000 [20.52]
16.6 [4.9] 17.8 [5.2]
54,000 [15.83] 53,900 [15.80]
3.6 3.6
Cooling capacities based upon 80.6°F [27°C] DB, 66.2°F [19°C] WB entering air temperature. Heating capacities based upon 68°F [20°C] DB, 59°F [15°C] WB entering air temperature. All ratings based upon operation at the lower voltage of dual voltage rated models. * ECM motor available on sizes 018 and larger.
Voltage Options
Dimensional Data Vertical Upflow Model 006 012
Overall Cabinet W in. cm
22.4 56.8
Note: Add 4” [10.16cm] to height for vertical downflow models.
D 21.6 54.9
H 34.5 87.6
018
in. cm
22.4 56.8
25.6 65.1
44.5 113.0
024 030
in. cm
22.4 56.8
25.6 65.1
48.5 123.2
036
in. cm
25.4 64.5
30.6 77.8
50.5 128.3
042048
in. cm
25.4 64.5
30.6 77.8
54.5 138.4
060 070
in. cm
25.4 64.5
30.6 77.8
58.5 148.6
Horizontal Model
Overall Cabinet W
D
H
006 012
in. cm
22.4 56.8
43.1 109.5
17.3 43.9
018 030
in. cm
22.4 56.8
62.2 158.0
19.3 49.0
036
in. cm
25.4 64.5
71.2 180.8
21.3 54.1
042 048
in. cm
25.4 64.5
76.2 193.5
21.3 54.1
060 070
in. cm
25.4 64.5
81.2 206.2
21.3 54.1
Model
Volts
Hz
Phase
06 - 018
208/230 265
60 60
1 1
024 036
208/230 265 208/230 460
60 60 60 60
1 1 3 3
042 070
208/230 208/230 460 575
60 60 60 60
1 3 3 3
24
The TRANQUILITY HIGH EFFICIENCY (TR) Series Easy to remove blower housing for quick service and PSC three-speed fan motor Easy service access from multiple sides
Dual compressor vibration isolation for quiet operation
The Tranquility High Efficiency (TR) Series offers high efficient performance in a simple cabinet design. The Tranquility High Efficiency Series also offers options that allow for application flexibility. Available options include ClimaDry™ dehumidification, hot water generator, enhanced controls, e-coated air coils, extended range insulation, UltraQuiet package, secondary circulating pump, motorized water valve, automatic water flow valves and high static blowers.
Unit Features • Sizes 006 (1/2 ton, 1.8 kW) through 060 (5 tons, 17.6 kW) • Exceeds ASHRAE 90.1 efficiencies • Galvanized steel construction with attractive matte black epoxy powder coat paint front access panel • Epoxy powder painted galvanized steel drain pan
• Sound absorbing glass fiber insulation • Unique double isolation compressor mounting for quiet operation • Insulated divider and separate compressor/air handler compartments • Copeland scroll compressors (Size 018 and above) • Microprocessor controls standard (optional DXM and/or DDC controls) • Field convertible discharge air arrangement for horizontal units • PSC three-speed fan motor • Internally trapped condensate drain line (vertical units only) • Eight safeties standard • Extended range (20 to 120°F, -6.7 to 48.9°C) capable
Easy access control box contains advanced digital controls with Remote Service Sentinel Optional Enhanced controls (DXM) & DDC Controllers
Factory installed hanger brackets on horizontal units
Epoxy powder painted drain pan with condensate overflow protection
25 Performance and Specifications AHRI/ISO/ASHRAE 13256-1 Data (English (IP) Units & Metric (SI) Units) Water Loop Heat Pump Cooling 86°F [30°C] Model
Refrigerant
Ground Water Heat Pump
Heating 68°F [20°C]
Cooling 59°F [15°C]
Ground Loop Heat Pump
Heating 50°F [10°C]
Cooling 77°F [25°C]
Heating 32°F [0°C]
Capacity
EER
Capacity
Capacity
EER
Capacity
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
5,800 [1.70]
13.2 [3.9]
7,500 [2.20]
4.7
6,900 [2.02]
21.1 [6.2]
6,200 [1.82]
4.0
6,200 [1.82]
15.4 [4.5]
4,900 [1.44]
3.4
TR-006
HFC-410A
TR-009
HFC-410A
8,800 [2.58]
13.4 [3.9]
11,600 [3.40]
4.2
10,100 [2.96]
21.0 [6.2]
9,800 [2.87]
3.9
9,300 [2.72]
15.7 [4.6]
7,900 [2.31]
3.4
TR-012
HFC-410A
11,700 [3.43]
13.5 [4.0]
15,200 [4.45]
4.3
13,700 [4.01]
20.8 [6.1]
12,500 [3.66]
3.8
12,000 [3.52]
14.9 [4.4]
9,900 [2.90]
3.2
TR-015
HFC-410A
14,500 [4.25]
15.4 [4.5]
17,300 [5.07]
5.0
16,800 [4.92]
24.5 [7.2]
14,400 [4.22]
4.4
15,000 [4.39]
17.2 [5.0]
11,100 [3.25]
3.6
TR-018
HFC-410A
17,300 [5.07]
14.3 [4.2]
21,500 [6.30]
5.0
20,600 [6.04]
24.2 [7.1]
17,200 [5.04]
4.4
18,400 [5.39]
16.3 [4.8]
13,900 [4.07]
3.4
TR-024
HFC-410A
23,700 [6.94]
13.4 [3.9]
28,500 [8.35]
4.7
26,700 [7.82]
20.9 [6.1]
24,000 [7.03]
4.1
24,900 [7.30]
15.4 [4.5]
18,500 [5.42]
3.3
TR-030
HFC-410A
28,100 [8.23]
13.4 [3.9]
35,100 [10.28]
4.6
31,700 [9.29]
20.1 [5.9]
29,600 [8.67]
4.1
28,900 [8.47]
15.1 [4.4]
23,400 [6.86]
3.4
TR-036
HFC-410A
34,500 [10.11]
13.5 [4.0]
45,200 [13.24]
4.4
38,700 [11.34]
20.7 [6.1]
37,500 [10.99]
4.0
35,300 [10.34]
14.9 [4.4]
29,600 [8.67]
3.3
TR-042
HFC-410A
40,100 [11.75]
13.1 [3.8]
52,700 [15.44]
4.3
45,900 [13.45]
19.6 [5.7]
44,000 [12.89]
3.8
40,500 [11.87]
14.4 [4.2]
34,300 [10.05]
3.2
TR-048
HFC-410A
47,700 [13.98]
13.3 [3.9]
55,900 [16.38]
4.7
54,300 [15.91]
20.5 [6.0]
46,500 [13.62]
4.1
49,000 [14.36]
14.7 [4.3]
36,400 [10.67]
3.4
TR-060
HFC-410A
59,400 [17.40]
13.4 [3.9]
77,000 [22.58]
4.3
66,600 [19.51]
19.9 [5.8]
64,000 [18.75]
3.8
60,100 [17.61]
14.8 [4.3]
50,500 [14.80]
3.1
Cooling capacities based upon 80.6°F [27°C] DB, 66.2°F [19°C] WB entering air temperature. Heating capacities based upon 68°F [20°C] DB, 59°F [15°C] WB entering air temperature. All ratings based upon operation at the lower voltage of dual voltage rated models.
Dimensional Data Vertical Upflow Model
Voltage Options Overall Cabinet W
D
H
006 - 012
in. cm
22.5 57.2
21.3 54.1
22.5 57.2
015 - 030
in. cm
22.4 56.9
22.4 56.9
036 - 042
in. cm
22.4 56.9
in. cm
25.4 64.5
048 - 060
Horizontal Model
Overall Cabinet W
D
H
006 - 012
in. cm
22.5 57.2
40.3 102.4
11.5 29.2
40.5 102.9
015 - 030
in. cm
22.4 56.9
48.3 122.7
17.5 44.5
25.4 64.5
46.5 118.1
036 - 042
in. cm
22.4 56.9
53.1 134.9
21.3 54.1
29.1 73.9
50.5 128.3
048 - 060
in. cm
25.4 64.5
67.9 172.5
21.3 54.1
Model
Volts
Hz
Phase
006 - 024
208/230 265
60 60
1 1
030 - 036
208/230 265 208/230 460
60 60 60 60
1 1 3 3
042 - 060
208/230 208/230 460 575
60 60 60 60
1 3 3 3
26
the tranquility 16 compact (tc) Series Easy to remove blower housing for quick service and PSC three-speed fan motor Easy service access from multiple sides
Dual compressor vibration isolation for quiet operation
The Tranquility 16 Compact (TC) Series raises the bar for water-source heat pump efficiencies, features and application flexibility. Not only does the Tranquility 16 Compact Series exceed ASHRAE 90.1 efficiencies, but it also uses EarthPure® (HFC-410A) zero ozone depletion refrigerant, making it an extremely environmentally-friendly option. With one of the smallest cabinets in the industry, the Tranquility 16 Compact (TC) Series will easily fit into tight spaces. Designed to be backward compatible with thousands of older water-source heat pumps, the Tranquility 16 Compact (TC) Series heat pump is packed full of the innovation you have come to expect from the experts at ClimateMaster.
Unit Features • Sizes 006 (1/2 ton, 1.8 kW) through 060 (5 tons, 17.6 kW) • EarthPure® (HFC-410A) refrigerant
• Exceeds ASHRAE 90.1 efficiencies • Galvanized steel construction with attractive matte black epoxy powder coat paint front access panel • Epoxy powder painted galvanized steel drain pan • Sound absorbing glass fiber insulation • Unique double isolation compressor mounting for quiet operation • Insulated divider and separate compressor/air handler compartments • Copeland scroll compressors (size 018 and above) • TXV metering device • Microprocessor controls standard (optional DXM and/or DDC controls) • Field convertible discharge air arrangement for horizontal units
Easy access control box contains advanced digital controls with Remote Service Sentinel Optional Enhanced controls (DXM) & DDC Controllers
Factory installed hanger brackets on horizontal units
Epoxy powder painted drain pan with condensate overflow protection
27 Performance and Specifications AHRI/ISO/ASHRAE 13256-1 Data (English (IP) Units & Metric (SI) Units) Water Loop Heat Pump Cooling 86°F [30°C] Model
Refrigerant
Ground Water Heat Pump
Heating 68°F [20°C]
Cooling 59°F [15°C]
Ground Loop Heat Pump
Heating 50°F [10°C]
Cooling 77°F [25°C]
Heating 32°F [0°C]
Capacity
EER
Capacity
Capacity
EER
Capacity
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
5,800 [1.70]
13.2 [3.9]
7,500 [2.20]
4.7
6,900 [2.02]
21.1 [6.2]
6,200 [1.82]
4.0
6,200 [1.82]
15.4 [4.5]
4,900 [1.44]
3.4
TC-006
HFC-410A
TC-009
HFC-410A
8,800 [2.58]
13.4 [3.9]
11,600 [3.40]
4.2
10,100 [2.96]
21.0 [6.2]
9,800 [2.87]
3.9
9,300 [2.72]
15.7 [4.6]
7,900 [2.31]
3.4
TC-012
HFC-410A
11,700 [3.43]
13.5 [4.0]
15,200 [4.45]
4.3
13,700 [4.01]
20.8 [6.1]
12,500 [3.66]
3.8
12,000 [3.52]
14.9 [4.4]
9,900 [2.90]
3.2
TC-015
HFC-410A
14,500 [4.25]
15.4 [4.5]
17,300 [5.07]
5.0
16,800 [4.92]
24.5 [7.2]
14,400 [4.22]
4.4
15,000 [4.39]
17.2 [5.0]
11,100 [3.25]
3.6
TC-018
HFC-410A
17,300 [5.07]
14.3 [4.2]
21,500 [6.30]
5.0
20,600 [6.04]
24.2 [7.1]
17,200 [5.04]
4.4
18,400 [5.39]
16.3 [4.8]
13,900 [4.07]
3.4
TC-024
HFC-410A
23,700 [6.94]
13.4 [3.9]
28,500 [8.35]
4.7
26,700 [7.82]
20.9 [6.1]
24,000 [7.03]
4.1
24,900 [7.30]
15.4 [4.5]
18,500 [5.42]
3.3
TC-030
HFC-410A
28,100 [8.23]
13.4 [3.9]
35,100 [10.28]
4.6
31,700 [9.29]
20.1 [5.9]
29,600 [8.67]
4.1
28,900 [8.47]
15.1 [4.4]
23,400 [6.86]
3.4
TC-036
HFC-410A
34,500 [10.11]
13.5 [4.0]
45,200 [13.24]
4.4
38,700 [11.34]
20.7 [6.1]
37,500 [10.99]
4.0
35,300 [10.34]
14.9 [4.4]
29,600 [8.67]
3.3
TC-042
HFC-410A
40,100 [11.75]
13.1 [3.8]
52,700 [15.44]
4.3
45,900 [13.45]
19.6 [5.7]
44,000 [12.89]
3.8
40,500 [11.87]
14.4 [4.2]
34,300 [10.05]
3.2
TC-048
HFC-410A
47,700 [13.98]
13.3 [3.9]
55,900 [16.38]
4.7
54,300 [15.91]
20.5 [6.0]
46,500 [13.62]
4.1
49,000 [14.36]
14.7 [4.3]
36,400 [10.67]
3.4
TC-060
HFC-410A
59,400 [17.40]
13.4 [3.9]
77,000 [22.58]
4.3
66,600 [19.51]
19.9 [5.8]
64,000 [18.75]
3.8
60,100 [17.61]
14.8 [4.3]
50,500 [14.80]
3.1
Cooling capacities based upon 80.6°F [27°C] DB, 66.2°F [19°C] WB entering air temperature. Heating capacities based upon 68°F [20°C] DB, 59°F [15°C] WB entering air temperature. All ratings based upon operation at the lower voltage of dual voltage rated models.
Dimensional Data Vertical Uplflow Model
Voltage Options Overall Cabinet
Width
Depth
Height
Horizontal Model
Overall Cabinet Width
Length
Height
006 - 012
in. cm
19.1 48.5
19.1 48.5
22.0 55.9
006 - 012
in. cm
19.1 48.5
34.1 86.6
11.1 28.2
015 - 018
in. cm
21.5 54.6
21.5 54.6
40.0 101.6
015 - 018
in. cm
20.1 51.1
43.1 109.5
17.0 43.2
024 - 030
in. cm
21.5 54.6
21.5 54.6
45.0 114.3
024 - 030
in. cm
20.1 51.1
43.1 109.5
18.3 46.5
036 - 042
in. cm
21.5 54.6
26.0 66.0
44.0 111.8
036 - 042
in. cm
20.1 51.1
47.1 119.6
21.0 53.3
048 - 060
in. cm
24.0 61.0
29.1 73.9
50.5 128.3
048 - 060
in. cm
24.1 61.2
54.1 137.4
21.0 53.3
072 - 120
in. cm
36.3 92.2
84.9 215.6
21.0 54.9
Model
Volts
Hz
Phase
006 - 024
208/230 265
60
1
030 - 036
208/230 265 208/230 460
60 60 60 60
1 1 3 3
042 - 060
208/230 208/230 460 575
60 60 60 60
1 3 3 3
28
Tranquility vertical stack (trm) Series The Tranquility Vertical Stack (TRM) Series offers an innovative, labor-saving solution for spaces where individual, quiet control of the heating and cooling system is important. Using EarthPure® (HFC-410A) refrigerant, the Tranquility Vertical Stack (TRM) Series not only protects the environment, it does so while delivering unprecedented comfort, efficiency, and reliability.
Torsion-flex blower motors TRM09-12
Unit Features • Sizes 09 (3/4 ton, 2.6 kW) through 36 (3 ton, 10.6 kW) • Environmentally-friendly EarthPure® (HFC-410A) zero ozone depletion refrigerant • High efficiency rotary and scroll compressors • Exceeds ASHRAE 90.1 efficiencies • Removable chassis allows staged installation and ease of maintenance • Galvanized steel cabinet • Unique double isolation compressor mounting for quiet operation • TXV metering device • Unit or remote-mounted controls available • Microprocessor controls standard (optional DXM and/or DDC controls) • LonWorks, BACnet, Modbus and Johnson N2 compatibility options for DDC controls • Unit Performance Sentinel performance monitoring system • Attractive return air panel with hinged access door (“G” panel) • Multiple supply air discharge options • Stainless steel braided hose kits for connection from piping risers to chassis • Eight safeties standard • Wide variety of options including disconnect switch and extended range Installed System
Advanced digital controls with Remote Service Sentinel. Shown with optional DDC Controller (Optional Enhanced controls (DXM) also available)
Exclusive dual-level compressor isolation lowers vibration and reduces noise for quiet operation Removable chassis allows staged installation and ease of maintenance/ service once installation is complete
Integrated Drain Pan with condensate overflow protection (Optional Stainless Steel Drain Pan)
29 Performance and Specifications AHRI/ISO/ASHRAE 13256-1 Data (English (IP) Units & Metric (SI) Units) Water Loop Heat Pump Cooling 86°F [30°C] Model
Refrigerant
Ground Water Heat Pump
Heating 68°F [20°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Cooling 59°F [15°C]
Ground Loop Heat Pump
Heating 60°F [10°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Cooling 77°F [25°C]
Heating 32°F [0°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
TRM-09
HFC-410A
8,800 [2.58]
13.0 [3.8]
12,500 [3.66]
4.6
10,100 [2.93]
19.5 [5.7]
9,800 [2.87]
3.8
9,300 [2.73]
14.7 [4.3]
7,200 [2.11]
3.1
TRM-12
HFC-410A
11,600 [3.40]
13.0 [3.8]
15,800 [4.63]
4.5
13,700 [4.02]
20.0 [5.9]
12,700 [3.72]
3.8
12,200 [3.58]
15.0 [4.4]
9,500 [2.78]
3.1
TRM-15
HFC-410A
13,800 [4.05]
13.0 [3.8]
19,600 [5.74]
4.7
16,500 [4.84]
20.0 [5.9]
15,500 [4.54]
3.9
15,200 [4.46]
14.6 [4.3]
11,500 [3.37]
3.1
TRM-18
HFC-410A
16,700 [4.89]
13.0 [3.8]
22,600 [6.62]
4.7
19,600 [5.74]
19.5 [5.7]
18,200 [5.33]
3.8
17,600 [5.16]
14.6 [4.3]
14,000 [4.10]
3.1
TRM-24
HFC-410A
22,100 [6.48]
13.0 [3.8]
29,400 [8.62]
4.5
26,400 [7.74]
20.0 [5.9]
23,100 [6.77]
3.8
23,600 [6.92]
14.8 [4.3]
18,000 [5.28]
3.1
TRM-30
HFC-410A
27,100 [7.94]
13.0 [3.8]
33,100 [9.70]
4.6
30,600 [8.97]
18.6 [5.5]
27,700 [8.12]
4.0
29,200 [8.56]
16.0 [4.7]
20,600 [6.04]
3.1
TRM-36
HFC-410A
32,000 [9.38]
12.5 [3.7]
39,500 [11.58]
4.6
36,700 [10.76]
18.8 [5.5]
32,000 [9.38]
3.8
33,000 [9.67]
14.3 [4.2]
25,000 [7.33]
3.1
Cooling capacities based upon 80.6°F [27°C] DB, 66.2°F [19°C] WB entering air temperature. Heating capacities based upon 68°F [20°C] DB, 59°F [15°C] WB entering air temperature. All ratings based upon operation at the lower voltage of dual voltage rated models.
Voltage Options
Dimensional Data Model
Overall Cabinet* W
D
H **
09 - 12
in. cm
17.0 43.2
17.0 43.2
88.0 223.5
15 - 18
in. cm
20.0 50.8
20.0 50.8
88.0 223.5
24 - 36
in. cm
24.0 61.0
24.0 61.0
88.0 223.5
* Not including risers or flanges. ** 80” [203.2cm] also standard.
Model
Volts
Hz
Phase
09 - 36
208/230 265
60 60
1 1
30
tranquility console (TRC) Series
Advanced digital controls with Remote Service Sentinel. (Optional Enhanced controls (DXM) & DDC Controllers)
Unit mounted digital control available in manual and auto changeover Shown with optional return air grille
The Tranquility Console (TRC) Series provides a high efficiency WSHP “ductless” solution for spaces where individual, quiet control of the heating and cooling system is important. Tranquility Console Series units are especially ideal where ceiling height and space are limited, or when preserving the integrity of an existing structure. The Tranquility Console Series exceeds ASHRAE 90.1 efficiencies, yet maintains small cabinet dimensions. Using EarthPure® (HFC-410A) refrigerant, the Tranquility Console Series not only protects the environment, it does so while delivering unprecedented comfort, efficiency, and reliability.
Unit Features • Sizes 09 (3/4 ton, 2.6 kW) through 18 (1-1/2 ton, 5.3 kW) • Environmentally-friendly EarthPure® (HFC-410A) zero ozone depletion refrigerant • Two-piece chassis/cabinet design
• Slope top with aluminum rigid bar supply air grille and aluminum control door • TXV metering device • Extended range (20 to 120°F, -6.7 to 48.9°C) operation • Advanced digital auto or manual change-over unit mounted control with temperature display, speed selection and fault indication • Remote-mounted control available • Microprocessor controls standard (optional DXM and/or DDC controls) • LonWorks, BACnet, Modbus and Johnson N2 compatibility options for DDC controls • Right or left-hand piping arrangement • Front or bottom return air • Unit Performance Sentinel performance monitoring system • Eight safeties standard • Wide variety of options including e-coated air coils and UltraQuiet construction
Optional motorized damper for outside air intake for improved air quality
Optional insulated water circuit for extended range applications
31 Performance and Specifications AHRI/ISO/ASHRAE 13256-1 Data (English (IP) Units & Metric (SI) Units) Water Loop Heat Pump Cooling 86°F [30°C] Model
Refrigerant
Ground Water Heat Pump
Heating 68°F [20°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Cooling 59°F [15°C]
Ground Loop Heat Pump
Heating 50°F [10°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Cooling 77°F [25°C]
Heating 32°F [0°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
TRC-09
HFC-410A
8,600 [2.52]
13.3 [3.9]
11,400 [3.34]
4.6
9,200 [2.70]
18.6 [5.5]
9,500 [2.78]
4.0
8,800 [2.58]
14.9 [4.4]
7,300 [2.14]
3.3
TRC-12
HFC-410A
11,300 [3.31]
13.3 [3.9]
14,900 [4.37]
4.9
12,500 [3.66]
18.7 [5.5]
12,100 [3.55]
4.1
11,800 [3.46]
15.1 [4.4]
9,300 [2.73]
3.3
TRC-15
HFC-410A
14,100 [4.13]
13.5 [4.0]
18,200 [5.33]
5.1
16,600 [4.87]
21.3 [6.2]
14,800 [4.34]
4.3
15,100 [4.43]
15.8 [4.6]
11,400 [3.34]
3.5
TRC-18
HFC-410A
16,200 [4.57]
13.0 [3.8]
20,100 [5.89]
4.5
17,600 [5.16]
19.5 [5.7]
16,500 [4.84]
4.0
16,500 [4.84]
15.0 [4.4]
13,200 [3.87]
3.4
Cooling capacities based upon 80.6°F [27°C] DB, 66.2°F [19°C] WB entering air temperature. Heating capacities based upon 68°F [20°C] DB, 59°F [15°C] WB entering air temperature. All ratings based upon operation at the lower voltage of dual voltage rated models.
Dimensional Data
Voltage Options
Overall Cabinet
Model
W
D
Model
Volts
Hz
Phase
09-12
115 208/230 265
60 60 60
1 1 1
15-18
208/230 265
60 60
1 1
H
5” [12.7] Subbase
in. cm
48 121.9
12 30.5
26 66.0
No Subbase
in. cm
48 121.9
12 30.5
21 53.3
Note: Add 6” [15.2cm] to width for size 18.
32
tranquility Compact (TCH) Series Dual compressor refrigeration circuit Large capacity (up to 10 tons)
Belt drive blower with high efficiency motor and multiple pulley adjustments Galvanized steel cabinet
Available in sizes 6 tons (21.1 kW) through 10 tons (35.2 kW) with multiple cabinet configurations, the Tranquility Compact (TCH) Series offers a wide range of units for most any installation. The Tranquility Compact Series has an extended range refrigerant circuit, capable of ground loop (geothermal) applications (may require optional extended range insulation), ground water (geothermal) applications, as well as water loop (boiler-tower) applications. Standard features are many. Microprocessor controls, galvanized steel cabinet, epoxy powder coat painted front access panel, galvanized steel with epoxy powder coat painted drain pan and TXV refrigerant metering device are just some of the features of the flexible Tranquility Compact Series.
Unit Features • Horizontal sizes 072 (6 tons, 21.1 kW), 096 (8 tons, 28.1 kW), 120 (10 tons, 35.2 kW)
• Unit configuration can be ordered with left or right return air and straight or back supply air discharge. Discharge is field convertible. Field conversion uses all existing parts including panels and belts • Electrical box is on right side and can be field converted to left side of unit • Electric power can enter from either side of front • Water can be connected to either side • Copeland scroll compressors • Dual refrigeration circuits (All Models) • Exceeds ASHRAE 90.1 efficiencies • Galvanized steel construction with attractive matte black epoxy powder coat painted front access panel • Insulated divider and separate compressor/air handler compartments • TXV metering device • Extended range (20 to 120°F, -6.7 to 48.9°C) operation (may require optional extended range insulation)
Optional insulated water/ refrigerant circuits allow extended range operation (ground loop applications)
Condensate overflow is one of the 8 standard safeties provided by the microprocessor controls in all TCH Series units
33 Performance and Specifications AHRI/ISO/ASHRAE 13256-1 Data (English (IP) Units & Metric (SI) Units) Water Loop Heat Pump Cooling 86°F [30°C] Model
Refrigerant
Capacity
EER
Btuh [kW]
Btuh/W [W/W]
Ground Water Heat Pump
Heating 68°F [20°C] Capacity
Capacity COP
Btuh [kW]
Cooling 59°F [15°C]
Btuh [kW]
EER Btuh/W [W/W]
Ground Loop Heat Pump
Heating 50°F [10°C] Capacity Btuh [kW]
COP
Cooling 77°F [25°C]
Heating 32°F [0°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
TCH-072
HFC-410A
69,000 [20.22]
13.3 [3.9]
92,500 [27.11]
5.0
78,500 [23.01]
19.7 [5.8]
75,500 [22.13]
4.4
71,000 [20.80]
14.6 [4.3]
58,000 [17.00]
3.5
TCH-096
HFC-410A
95,000 [27.84]
13.7 [4.0]
123,000 [36.04]
5.0
104,500 [30.63]
20.0 [5.9]
101,000 [29.60]
4.4
98,000 [28.72]
15.2 [4.5]
77,000 [22.57]
3.6
TCH-120
HFC-410A
119,000 [34.88]
13.3 [3.9]
160,000 [46.89]
4.6
134,000 [39.27]
19.3 [5.7]
132,500 [38.83]
4.0
122,500 [35.90]
14.5 [4.2]
103,000 [30.19]
3.3
Cooling capacities based upon 80.6°F [27.02°C] DB, 66.2°F [19.02°C] WB entering air temperature. Heating capacities based upon 68°F [20.02°C] DB, 59°F [15.02°C] WB entering air temperature. All ratings based upon operation at lower voltage of dual voltage rated models.
Voltage Options
Dimensional Data Horizontal Model 072 - 120
in. cm
Overall Cabinet W
D
H
Horizontal Model
Volts
Hz
Phase
36.3 92.2
84.9 215.6
21.6 54.9
072 - 120
208/230 460 575
60 60 60
3 3 3
34
tranquility large (tl) Series Condensate overflow is one of the 8 standard safeties provided by the microprocessor controls in all TL Series units
Belt drive blowers with high efficiency motors and multiple pulley adjustments Wide variety of vertical configurations Large capacity (up to 25 tons, 87.97 kW)
The award winning Tranquility Large (TL) Series raises the bar for water-source heat pump efficiencies, features and application flexibility. Not only does the Tranquility Large Series exceed ASHRAE 90.1 efficiencies, but it also uses EarthPure® (HFC-410A) zero ozone depletion refrigerant, making it an extremely environmentallyfriendly option. Tranquility Large Series is eligible for additional LEED® (Leadership in Energy and Environmental Design) points because of the “green” technology design.
Unit Features • Vertical sizes 084 (7 tons, 24.6 kW) through 300 (25 tons, 87.9 kW) • Unit configuration can be ordered with, or converted to front or back return and top, front, or back discharge. Field conversion uses all existing parts including panels and belts
• Electrical box can be field converted to be on front or back of unit • Electric power can enter from any side of unit • Water and drain can be connected to either side • Dual refrigeration circuits (TL168, 192, 240, 300) • Exceeds ASHRAE 90.1 efficiencies • TXV metering device • Extended range (20 to 120°F, -6.7 to 48.9°C operation) • Microprocessor controls standard (optional DXM and/or DDC controls) • LonWorks, BACnet, Modbus and Johnson N2 compatibility options for DDC controls • Unit Performance Sentinel performance monitoring system
Galvanized steel cabinet with baked-on epoxy powder finish on all access panels
Optional insulated water/ refrigerant circuits allow extended range operation (ground loop applications)
Dual compressor refrigeration circuit in TL 168-300 equipment single compressor refrigeration circuit in TL 084-150
35 Performance and Specifications AHRI/ISO/ASHRAE 13256-1 Data (Engish (IP) Units & Metric (SI) Units) Water Loop Heat Pump Cooling 86°F [30°C] Model
Refrigerant
Ground Water Heat Pump
Heating 68°F [20°C]
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Cooling 59°F [15°C]
Ground Loop Heat Pump
Heating 50°F [10°C]
Cooling 77°F [25°C]
Heating 32°F [0°C]
Capacity
EER
Capacity
Capacity
EER
Capacity
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
TLV-084
HFC-410A
82,000 [24.03]
15.2 [4.5]
101,000 [29.60]
4.8
87,500 [25.65]
21.0 [4.3]
83,500 [24.33]
4.3
83,000 [24.33]
16.5 [4.8]
65,500 [19.20]
3.6
TLV-096
HFC-410A
94,000 [27.55]
15.0 [4.4]
118,000 [34.58]
4.7
102,500 [30.04]
20.5 [4.2]
96,500 [28.58]
4.2
97,500 [28.58]
16.5 [4.8]
76,500 [22.42]
3.6
TLV-120
HFC-410A
118,000 [34.58]
15.0 [4.4]
144,000 [42.20]
5.0
133,000 [38.98]
21.0 [4.2]
118,000 [34.58]
4.2
120,000 [35.17]
16.5 [4.8]
93,000 [27.26]
3.7
TLV-150
HFC-410A
150,000 [43.96]
14.0 [4.1]
186,000 [54.51]
4.7
170,000 [49.82]
20.0 [4.2]
155,000 [45.43]
4.2
156,000 [45.72]
15.8 [4.6]
122,000 [35.76]
3.6
TLV-168
HFC-410A
166,000 [48.65]
15.5 [4.5]
204,020 [59.80]
4.9
177,000 [51.87]
21.4 [4.4]
169,000 [49.53]
4.4
168,000 [49.24]
16.8 [4.9]
132,500 [38.83]
3.7
TLV-192
HFC-410A
190,000 [55.69]
15.3 [4.5]
238,360 [69.86]
4.8
207,000 [60.67]
20.9 [4.3]
195,000 [57.15]
4.3
197,000 [57.74]
16.8 [4.9]
155,000 [45.43]
3.7
TLV-240
HFC-410A
238,500 [69.90]
15.3 [4.5]
291,000 [85.29]
5.1
269,000 [78.84]
21.4 [4.3]
238,000 [69.90]
4.3
242,500 [71.07]
16.8 [4.9]
188,000 [55.10]
3.8
TLV-300
HFC-410A
300,000 [87.93]
14.0 [4.1]
372,000 [109.03]
4.7
340,000 [99.65]
20.0 [4.2]
310,000 [90.86]
4.2
312,000 [91.44]
15.8 [4.6]
244,000 [71.51]
3.6
Cooling capacities based upon 80.6°F [27°C] DB, 66.2°F [19°C] WB entering air temperature. Heating capacities based upon 68°F [20°C] DB, 59°F [15°C] WB entering air temperature. All ratings based upon operation at the lower voltage of dual voltage rated models.
Dimensional Data Vertical Model
Voltage Options
Overall Cabinet W
D
H
084 -150
in. cm
53.1 134.9
34.0 86.4
79.0 200.7
168 -300
in. cm
106.7 270.9
34.0 86.4
79.0 200.7
Vertical Model
Volts
Hz
Phase
084 - 300
208/230 460 575 380/420
60 60 60 60
3 3 3 3
36
Tranquility modular water-to-water (TMW) Series Advanced digital controls with Remote Service Sentinel and compressor “run” and “fault” LED
Small footprint with convenient front service access (TMW036 shown)
The Tranquility Modular Water-to-Water (TMW) Series offers high efficiency and high capacity with advanced features, quiet operation and application flexibility at competitive prices. ClimateMaster’s Tranquility Modular Water-to-Water Series can be used for radiant floor heating, snow/ice melt, chilled water for fan coils, industrial process control, potable hot water generation*, hot/chilled water for makeup air, and many other types of HVAC and industrial applications that require cost effective heated or chilled water.
Unit Features • Sizes 036 (3 tons, 10.6 kW) through 340 (28 tons, 100 kW) • Copeland scroll compressor(s) • Dual independent refrigeration circuits on size 120 and 340 (28 tons, 100 kW) • Exclusive single side service access (front of unit) allows multiple units to be installed side-by-side for large capacity installations
• Top water connections on sizes 170 (14 tons, 50 kW) and 340 (28 tons, 100 kW), staggered for ease of manifolding multiple units • Exceeds ASHRAE 90.1 efficiencies • Heavy gauge galvanized steel construction with polyester powder coat paint and stainless steel front access panels • Insulated compressor compartment • Small footprint • TXV metering devices • Extended range (20 to 110°F, -6.7 to 43.3°C) operation • Microprocessor controls standard (optional DXM and/or DDC controls) • LonWorks, BACnet, Modbus and Johnson N2 compatibility options for DDC controls * Requires field supplied secondary heat exchanger.
Copeland scroll compressors with dual-isolation mounting for quiet operation
TMW Series design allows for single side service access. Units may be installed side-by-side Extended range insulated water/refrigerant circuit standard Optional Enhanced controls (DXM) & DDC Controllers
37 Performance and Specifications AHRI/ISO/ASHRAE 13256-2 Data (English (IP) Units*) Water Loop Heat Pump
Model
Refrigerant
Ground Water Heat Pump
Ground Loop Heat Pump
Cooling
Heating
Cooling
Heating
Cooling
Heating
Indoor 53.6°F Outdoor 86°F
Indoor 104°F Outdoor 68°F
Indoor 53.6°F Outdoor 59°F
Indoor 104°F Outdoor 50°F
Indoor 53.6°F Outdoor 77°F
Indoor 104°F Outdoor 32°F
Capacity Btuh
EER Btuh/W
Capacity Btuh
COP
Capacity Btuh
EER Btuh/W
Capacity Btuh
COP
Capacity Btuh
EER Btuh/W
Capacity Btuh
COP 3.1
TMW-036
HFC-410A
33,000
14.6
44,000
5.0
37,000
23.1
36,000
4.0
34,000
16.8
28,000
TMW-060
HFC-410A
55,400
14.1
79,000
4.7
62,600
21.7
61,400
3.8
58,000
15.4
51,000
3.0
TMW-120
HFC-410A
110,800
13.8
158,000
4.6
125,200
21.3
122,900
3.7
116,000
15.1
102,000
3.0
TMW-170
HFC-410A
126,000
13.6
168,000
4.4
141,200
19.7
139,000
3.8
133,000
15.6
110,800
3.0
TMW-340
HFC-410A
253,500
13.6
336,200
4.4
282,000
19.6
277,000
3.7
266,600
15.6
220,000
3.0
All ratings based upon operation at the lower voltage of dual voltage rated models. * Indoor = Load side heat exchanger; Outdoor = Source side heat exchanger.
TMW 036 - 340 Performance Data ASHRAE/AHRI/ISO 13256-2 60Hz Metric (SI) Units Water Loop Heat Pump
Model
Refrigerant
Ground Water Heat Pump
Ground Loop Heat Pump
Cooling
Heating
Cooling
Heating
Cooling
Heating
Indoor 12°C Outdoor 30°C
Indoor 40°C Outdoor 20°C
Indoor 12°C Outdoor 15°C
Indoor 40°C Outdoor 10°C
Indoor 12°C Outdoor 25°C
Indoor 40°C Outdoor 0°C
Capacity Watts
EER W/W
Capacity Watts
COP
Capacity Watts
EER W/W
Capacity Watts
COP
Capacity Watts
EER W/W
Capacity Watts
COP
TMW-036
HFC-410A
9,672
4.3
12,896
5.00
10,844
6.77
10,551
4.00
9,965
4.92
8,206
3.10
TMW-060
HFC-410A
16,237
4.13
23,154
4.70
18,347
6.36
17,995
3.8
16,999
4.51
14,947
3.00
TMW-120
HFC-410A
32,474
4.0
13,572
4.60
36,694
6.24
36,020
3.74
33,998
4.42
29,895
3.00
TMW-170
HFC-410A
37,163
4.0
49,414
4.40
41,383
5.77
40,739
3.80
38,980
4.57
32,474
3.00
TMW-340
HFC-410A
74,297
4.0
98,535
4.40
82,649
5.74
81,184
3.70
78,136
4.57
64,478
3.00
Voltage Options
Dimensional Data Overall Cabinet
Model
W
D
H
036-060
in. cm
25.4 645
30.6 778
33.0 83.8
120
in. cm
52.9 134.4
30.6 778
37.0 940
170-340
in. cm
26.3 669
45.1 1146
64.5 163.8
Model
Volts
Phase
036
208/230 265 208/230 460 575
1 1 3 3 3
060-120
208/230 208/230 460 575
1 3 3 3
170-340
208/230 460 575
3 3 3
38
The Rooftop (TRE) Series
Fully insulated including base pan 2” fiberglass filters standard. Optional 4” and pleated filters (pleated filters shown)
Copeland Scroll compressors (dual circuited on 8 ton and larger)
TRE with Enthalpy Economizer option shown.
The Rooftop (TRE) Series provides an economical solution for today’s HVAC challenges. The TRE product line offers the option of introducing a fixed amount of outside air year-round or a modulating Economizer to provide free cooling when outdoor conditions are favorable. TRE units are designed for an extended range of source water temperatures, making it suitable for closed-loop, or ground source closed-loop systems. With high efficiency scroll compressors and belt drive motors, the TRE product line offers 13+ EER and 4+ COP.
Unit Features • Sizes 036 (3 tons, 10.6 kW) through 240 (20 tons, 70.4 kW) • EarthPure® (HFC-410A) zero ozone depletion refrigerant • Exceeds ASHRAE 90.1 efficiencies (40% better than standard rooftop units!)
• Galvanized steel construction and powder coat paint on all units • Copeland Scroll compressors (dual circuited on sizes 096 and larger) • Microprocessor controls standard (optional DXM and/or DDC controls) • Bi-directional, balanced port expansion valve refrigerant metering device standard • Extended range operation package standard • Double wall construction for access doors and stainless steel hardware • Belt-drive blowers with various configurations for RPM/ESP settings • High/low pressure switches and electronic condensate overflow sensor standard • Eight safeties standard • Rx ERV option handles up to 100% outside air
Integrated lifting lugs Heavy duty cabinet, powder coated, stainless steel hinges
Slide out blower assembly featuring high efficiency motors/variable pitch sheaves ABS gear driven dampers
39 Performance and Specifications AHRI/ISO/ASHRAE 13256-1 Data (English (IP) Units & Metric (SI) Units)* Water Loop Heat Pump Cooling 86°F [30°C] Model
Refrigerant
Ground Water Heat Pump
Heating 68°F [20°C]
Cooling 59°F [15°C]
Ground Loop Heat Pump
Heating 50°F [10°C]
Cooling 77°F [25°C]
Heating 32°F [0°C]
Capacity
EER
Capacity
Capacity
EER
Capacity
Capacity
EER
COP
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
Btuh [kW]
Btuh/W [W/W]
Btuh [kW]
COP
TRE-036
HFC-410A
36,000 [10.56]
14.5 [4.2]
44,000 [12.90]
5.1
41,000 [12.02]
22.1 [6.5]
36,500 [10.70]
4.5
36,000 [10.56]
16.8 [4.9]
29,000 [8.50]
3.7
TRE-048
HFC-410A
50,000 [14.65]
14.7 [4.3]
61,500 [18.02]
4.8
56,500 [16.56]
21.5 [6.3]
50,000 [14.65]
4.2
51,500 [15.09]
16.3 [4.8]
39,000 [11.43]
3.5
TRE-060
HFC-410A
63,000 [18.46]
16.0 [4.7]
75,000 [22.00]
5.2
72,000 [21.10]
24.0 [7.0]
62,000 [18.17]
4.6
64,000 [18.76]
18.0 [5.3]
47,000 [13.77]
3.7
TRE-072
HFC-410A
69,000 [20.22]
15.2 [4.5]
90,000 [26.38]
5.2
77,500 [22.71]
21.6 [6.3]
74,000 [21.69]
4.6
71,000 [20.81]
16.4 [4.8]
58,000 [17.00]
3.7
TRE-096
HFC-410A
100,000 [29.31]
14.3 [4.2]
114,000 [33.41]
4.5
111,950 [32.81]
21.0 [6.2]
94,500 [27.70]
4.0
104,000 [30.48]
15.9 [4.7]
76,200 [22.33]
3.3
TRE-120
HFC-410A
126,000 [36.93]
1 4.2 [4.2]
154,000 [45.13]
4.5
145,500 [42.64]
21.0 [6.2]
126,500 [37.07]
4.0
132,500 [38.83]
15.9 [4.7]
101,000 [29.60]
3.3
TRE-144
HFC-410A
134,000 [39.27]
13.8 [4.0]
172,000 [50.41]
4.6
150,500 [44.11]
20.0 [5.9]
140,000 [41.03]
4.0
139,000 [40.74]
15.5 [4.5]
109,000 [31.94]
3.3
TRE-168
HFC-410A
175,000 [51.29]
15.0 [4.4]
206,700 [60.58]
5.0
187,000 [54.80]
20.9 [6.1]
168,000 [49.24]
4.5
177,500 [52.02]
16.5 [4.8]
129,500 [37.95]
3.7
TRE-240
HFC-410A
241,000 [70.63]
13.6 [4.0]
287,000 [84.11]
4.8
276,000 [80.89]
19.3 [5.7]
230,000 [67.41]
4.2
249,500 [73.12]
15.0 [4.4]
182,400 [53.46]
3.4
Cooling capacities based upon 80.6°F DB, 66.2°F WB entering air temperature. Heating capacities based upon 68°F DB, 59°F WB entering air temperature. All ratings based upon operation at lower voltage of dual voltage rated models
Dimensional Data
Voltage Options
Overall Cabinet
Model
W
D*
H
03 - 07
in. cm
43.2 109.7
80.1 203.5
39.4 100.1
08 - 12
in. cm
49.2 125.0
90.1 228.9
45.4 115.3
15 - 20
in. cm
87.1 221.2
90.1 228.9
50.6 128.5
* Does not include optional rain hood.
Model
Volts
Hz
Phase
03
208/230 460
60 60
3 3
04 - 20
208/230 460 575
60 60 60
3 3 3
40
the rx (erv) module
Stand alone ERV module
The energy recovery wheel inside the ERV unit transfers energy from the warmer to the cooler air stream through counter-flowing supply and exhaust air streams through the slowly rotating wheel (less than 60 revolutions per minute). The large energy transfer surface arranged to provide laminar air flow through the wheel causes the constant flow of recovered energy to represent up to 80% of the difference in total energy contained within the two air streams. The Rx (ERV) Series is designed to be mated to the TRE Series rooftop unit for maximum energy efficiency in a make-up air unit, up to 100% outside air.
Unit Features • Sizes 1,000 through 10,000 CFM of outdoor air mixed with return air or up to 100% outside air • All of the features of the TRE Series PLUS energy recovery • 20+ (Combined) EER substantially reduces the cost of preconditioning outside air
Add on module for TRE unit
• Avoids using large gas makeup air units and complicated refrigeration controls to handle outside air • Simple operation facilitates ease of maintenance and troubleshooting • Allows the designer to provide water-source equipment for all HVAC needs • Decreases building equipment tonnage required, which reduces installation costs • Can cut loop costs up to 50% for ground loop (geothermal) applications by reducing equipment tonnage required • Uses ARI-1060 rated wheel technology • Available with silica gel or molecular sieve wheel • Available in stand alone, curb mounted & integrated, or mounted to rooftop unit configurations • Finish matches TRE Series rooftop • Optional factory-installed pre-heater available • Hinged panels at all service entries
• Centrifugal belt-driven forward-curved blowers with adjustable pulleys and isolation pads. High efficiency motors are thermally protected • Easy access controls with optional ERV fault indicators. Six-pin Molex connector ties ERV controls to TRE Series rooftop unit controls • 2” pleated pre-filters for outside air with 2” pleated filters on exhaust air help keep the wheel clean. Up to Merv 13 filter compatible • Heavy duty base rails for easy lifting and rigging • Hinged access doors with 1/4 turn springloaded latches • Exhaust and supply air streams have back-draft dampers to prevent air penetration during off cycles • The energy recovery wheel transfers energy from the warmer to cooler air streams at a nominal up to 80% efficiency and is ARI-1060 certified • Slide out wheel assembly makes cleaning and maintenance easy
41 Performance and Specifications Air Flow Range, Voltages, and Pre-Heaters (English (IP) Units & Metric (SI) Units) Model
Voltage
CFM
ERV “A” Cabinet ERV “B” Cabinet ERV “C” Cabinet
1000 - 2000 208/230/460 60 Hz
ERV “D” Cabinet
3000 - 4000 5000 - 7000 8000 - 10000
Energy recovery component certified to ARI standard 1060-2000. Energy recovery unit ETL listed. Contact factory for performance at given conditions.
Dimensional Data, Stand Alone ERV Module ERV Cabinet
Overall Cabinet Height in. [CM]
Width in. [CM]
Length in. [CM]
Weight lb. [CM]
ERV “A” Cabinet
50 [127]
46 [116.8]
66 [167.64]
1472 [667.7]
ERV “B” Cabinet
65 [165.1]
68 [172.7]
78 [198.1]
2409 [1092.7]
ERV “C” Cabinet
77 [195.5]
94 [238.8]
94 [238.8]
3452 [1565.8]
ERV “D” Cabinet
89 [226.0]
108 [274.3]
106 [269.2]
4924 [2233.5]
42
DEDICATED OUTDOOR AIR SYSTEMS (TO) Series Unit Features
Cabinet Construction
Leaving Air Temperature Control
• Single wall construction for sizes up to 15 tons • Double-wall construction standard on 20, 25 and 30 ton (70, 88 and 105 kW) units • Corrosion-resistant galvanized construction • All serviceable elements accessible from rear and LH side of unit
• Supply air temperature controlled to ±0.2°F (±0.1°C) • Substantial energy savings and ASHRAE 90.1 compliant • Conditioned outdoor air can be introduced directly into space Evaporator Coil • Raised lance fins, rifled tubes maximize moisture removal Drain Pan • Stainless steel pan minimizes corrosion • Sloped design avoids hazardous puddling
100% OUTDOOR AIR APPLICATIONS - Vertical DOAS Systems ClimateMaster Dedicated Outdoor Air Systems (TO) Series provides the most complete solution for your water-source application. Our many options and configurations allow the design for outdoor air requirements to be incorporated into the water loop system, further enhancing the advantages of a WSHP application. The ability to precisely control leaving air dew point temperature in summer, handle extremely cold entering air temperatures in winter, and perform at part load conditions give designers unmatched flexibility in building design, Indoor Air Quality (IAQ) and energy efficiency.
Fans • Forward curved centrifugal blowers or plenum fans Refrigerant Reheat Coil • Sized for neutral LAT (65 to 80°F, 18 to 27°C) with ±0.2°F (±0.1°C) control • Adequate coil separation avoids re-hydration Scroll Compressor • State-of-the-art compressor technology for highest efficiency and reliability • Quiet operation • Units 8 tons (28kW) and larger, multiple compressors are staged to match the load Electrical Service • Single point connection, including heat – all units
Insulation • Closed cell foam or polystyrene board in doublewall construction • Superior to fiberglass insulation – eliminates fiberrelease into air • Meets ASTM mold, mildew, moisture resistance specifications Refrigeration Circuit • Dissipates captured heat into water loop • Unique design - no reversing valve • Modulating hot gas reheat Filters • 4” deep extended surface, pre-filters (MERV 7) Additional Options Increase Flexibility • Optional coil coatings available for corrosive environments • Single phase available on 4 and 5 ton (14 and 18 kW) units • Optional power disconnects (fused and non-fused) • Units available in 4 - 30 tons (14 to 105 kW) • Contact factory for non-standard options
43 Refrigerant Circuit Schematic with LAT Control: Cooling Mode
Refrigerant Circuit Schematic with LAT Control: Heating Mode COMPRESSOR
COMPRESSOR
WARM HUMID AIR 95°F 35°C DB@ 78°F 26°C WB
AIR COIL
55°F 12.8°C LAPD
HEATING EVAPORATOR (INACTIVE) W A T E R
100°F 38ºC WATER IN
WATER CONDENSER W A T E R
C O I L
RECEIVER
Dimensional Data Overall Cabinet
Model
WARM HUMID AIR 75°F 24°C DB 50% RH
EEV
100°F 38ºC WATER OUT
COOLING EVAPORATOR (INACTIVE)
HOT GAS REHEAT
COOLING EVAPORATOR
W
D
H
04 - 05
in. cm
34.0 86.4
38.9 98.8
60.1 152.7
08 - 15
in. cm
41.9 106.4
46.0 116.8
80.1 203.5
20 - 30
in. cm
77.3 196.3
61.5 156.2
70.0 177.8
C O I L
90°F 32ºC WATER IN
100°F 38ºC WATER OUT
COLD WINTER AIR
57° F 14°C WATER OUT
65° F 18°C WATER IN
HOT GAS REHEAT EXACT LAT 75° F DB 24°C DB
EEV AIR COIL
40°F 4.4°C EAT (PART LOAD)
WATER CONDENSER
HEATING EVAPORATOR W A T E R
W A T E R
C O I L
RECEIVER
C O I L
60°F 15.6°C WATER IN
65°F 18°C WATER OUT
44
DEDICATED OUTDOOR AIR SYSTEMS (TO) Series Evaporator Coil
Cabinet Construction
• Raised lance fins, rifled tubes maximize moisture removal • Very high MRE’s (Moisture Removal Efficiency)
• Corrosion-resistant galvanneal with powder coat finish • Meets 1000 hour salt spray test • All serviceable elements accessible from one side of unit • Double-wall construction • R-5 insulation
Drain Pan • Stainless steel pan minimizes corrosion Refrigerant Reheat Coil • Sized for neutral LAT (65 to 80°F, 18 to 27°C) • Air separation avoids condensate re-vaporization
100% OUTDOOR AIR APPLICATIONS - Horizontal DOAS systems ClimateMaster Dedicated Outdoor Air Systems (TO) Series provides the most complete solution for your water-source application. Our many options and configurations allow the design for outdoor air requirements to be incorporated into the water loop system, further enhancing the advantages of a WSHP application. The ability to precisely control leaving air dew point temperature in summer, handle extremely cold entering air temperatures in winter, and perform at part load conditions give designers unmatched flexibility in building design, Indoor Air Quality (IAQ) and energy efficiency.
Scroll Compressor • State-of-the-art compressor technology for highest efficiency and reliability • Quietest operation for less noise • Over 5 tons (18 kW), multiple compressors are staged to match the load Fans • Forward curved centrifugal blowers • Backward-inclined centrifugal fans, plug fans on larger units Electrical Service • Single point power connection, for all units Controls
Unit Features Precise Leaving Air Temperature Control • Air temperature leaving dehumidifier controlled to ±0.2°F (±0.1°C) • Substantial energy savings • Conditioned outdoor air can be introduced directly into space
• Simple ladder logic addresses wide variety of conditions • System can handle dehumidification, cooling, and heating • Occupancy contact ensures outdoor air enters only when needed
Refrigeration Circuit • Dissipates captured heat into water loop • Unique design - no reversing valve • Modulating hot gas reheat Filters • 4” deep extended surface pre-filters (MERV 7) Outdoor Design (Rooftop Models) • Rain hood, aluminum mist eliminator • Stainless steel fasteners • Isolation dampers • TEFC motors Rx Energy Recovery Wheel (Optional) • Sensible and latent heat recovery • Significant energy savings by lowering operating costs Additional Options Increase Flexibility • Top, bottom or end horizontal air discharge • Horizontal or Rooftop configurations available • Optional coil coatings available for corrosive environments • Optional power disconnects (fused and non-fused) • Contact factory for non-standard options
45 Dimensional Data - Without Wheel
(Optional) Energy Recovery Wheel Operation
O/A 88°FO/A 31°C DB@ 88°F 79° F 31°C 26°C DB@ WB 79° F RH 26°C WB 68% 68% RH E/A 1000E/A CFM 1000 30°C CFM DB 86°F 86°F RH 30°C DB 64% 64% RH
Off Wheel Wheel 77°Off F 25°C DB@ 77°F F 19°C 25°C WB DB@ 67° 67° F 19°C WB
SUMMER SUMMER Off Evap. Evap.DB@ 54°Off F 12°C 54° F F 12°C 12°C WB DB@ 53° 53° F 12°C WB
Evap. Coil Evap. Coil
Reheat Reheat Coil Coil
Energy Recovery Wheel Energy Recovery Wheel 85% Sensible Efficiency 85% Efficiency 78%Sensible Latent Efficiency 78% 80% Latent Efficiency Overall 80% Overall
WINTER WINTER
O/A 20°FO/A -7°C DB@ 20°F F -9°C -7°C WB DB@ 16° 16° F RH -9°C WB 50% 50% RH E/A E/A 1000 CFM 1000 -2°C DB 28° F CFM -2°C DB 28° 94%F RH 94% RH
Off Wheel Off 19°C WheelDB@ 66°F 66°F 56° F 19°C 13°C DB@ WB 56° F 13°C WB
Evap. Coil Evap. Coil (Inactive) (Inactive)
Reheat Coil Reheat Coil (Inactive) (Inactive)
Energy Recovery Wheel Energy Recovery Wheel 85% Sensible Efficiency 85% Efficiency 78%Sensible Latent Efficiency 78% 82% Latent Efficiency Overall 82% Overall
Overall Cabinet
Model
Off Reheat Off 75° F, Reheat 24°C DB@ 75° F, 12°C 24°C Dewpoint DB@ 54°F 54°F 12°C Dewpoint S/A S/A 1000 CFM 1000 CFM 75°F 24°C DB@ 75°F 24°C DB@ 54°F 12°C Dewpoint 54°F 12°C Dewpoint 50% RH 50% RH
Aux. Heating Aux. Heating (Inactive) (Inactive) R/A R/A 26°C DB 78°F 78°F 26°C DB 55% RH 55% RH
W
D
H
02 - 05
in. cm
43.1 109.5
102.3 259.8
43.9 111.5
08 - 15
in. cm
55.1 149.0
129.6 329.2
48.6 123.4
20
in. cm
60.5 153.7
138.1 350.8
52.6 133.6
25 - 30
in. cm
67.1 170.4
144.7 367.5
63.1 160.3
36 - 46
in. cm
78.8 200.2
153.1 388.9
75.4 191.5
50 - 60
in. cm
93.5 237.5
165.2 419.6
83.6 212.3
Dimensional Data - With Wheel Overall Cabinet
Model
Off Aux Heat OffFAux Heat 24°C DB@ 75° DB@ 75° F 24°C 9°C WB 49° F 49° F 9°C WB
Aux. Aux. Heating Heating
S/A S/A 1000 CFM 1000 CFM 75°F 24°C DB@ 75° F 9°C 24°CDewpoint DB@ 49°F 49°F 9°C Dewpoint 52% RH 52% RH
R/A 75°R/A F 24°C DB@ 75° 24°C DB@ 50%F RH 50% RH
W
D
H
02 - 03
in. cm
55.1 140.0
123.8 314.5
48.6 123.4
05
in. cm
60.5 153.7
130.3 331.0
52.6 133.6
08
in. cm
67.1 170.4
137.8 350.0
63.1 160.3
10
in. cm
78.5 199.4
140.8 357.6
73.4 186.4
15
in. cm
93.5 237.5
153.7 390.4
83.6 212.3
20 - 25
in. cm
96.5 245.1
164.2 417.1
92.6 235.2
The Right Choice ClimateMaster is the world’s largest and most progressive manufacturer of geothermal heat pumps. We are committed to innovation and dedicated to environmentally clean, economically sound and superbly comfortable home and business environments. Each ClimateMaster product is produced in our state-of-the-art facility utilizing quality management systems that are ISO 9001:2000 certified. We strive for the highest product quality and service after the sale to give you peace of mind. An LSB Industries, Inc. company (NYSE: LXU), ClimateMaster has been designing and building equipment that enhances environments we live and work in every day for more than 50 years. In addition to geothermal heat pumps, ClimateMaster offers the most extensive product line of water-source heat pumps for use in a wide variety of applications. ClimateMaster products are built in the U.S.A.
ClimateMaster works to continually improve its products. As a result, the design and specifications of each product at the time for order may be changed without notice and may not be as described herein. Please contact ClimateMaster’s Customer Service Department at 1-405-745-6000 for specific information on the current design and specifications. Statements and other information contained herein are not express warranties and do not form the basis of any bargain between the parties, but are merely ClimateMaster’s opinion or recommendation of its products. The management system governing the manufacture of ClimateMaster’s products is ISO 9001:2000 certified. ClimateMaster is a company of LSB Industries, New York Stock Exchange Symbol: LXU
WATER-SOURCE HEAT PUMP SYSTEMS 7300 SW 44TH STREET OKLAHOMA CITY, OK 73179 (800)-299-9747 • FAX (405)-745-6058 CLIMATEMASTER.COM
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