Our long term partnership with our representatives and our mutual. This results in stability in the market place unmatched by any other manufacturer. Titus dedicates itself to be a company which looks forward to anticipate the needs of HVAC professionals and the people they serve. This dedication is based on our mission - to help HVAC professionals deliver better products and services, and to make life better for those who use our products. Our employees know that success only comes through hard work, a commitment to excellence and a desire to make a difference in all that we do.
We are proud of our achievements and will continue to work hard to deliver on our commitments. Why has Titus continued to lead the industry for over 60 years? Our employees are viewed as having unique individual value with dignity and worth independent of the work they do.
Each employee has a real sense of unity and commitment to the other, each contributing their invaluable work, so that their collective efforts result in Titus continuing to set the standard for excellence in the industry. Intelligent Innovation has been and will continue to be our hallmark.
Many products inevitably face the cycle of growth, maturity, and decline due to changing market needs. Titus has made an unwavering commitment to improve existing products and develop or acquire new and unique products and technologies. For over 65 years, the name Titus has been synonymous with innovation in commercial air distribution.
Many of the solutions we have developed over the years are still tried and true core products in our industry today. Intelligent Innovations speaks to our ability to solve problems and look at air distribution in new ways. Our true passion, however, lies in our ability to find clever and creative ways to enhance occupant comfort.
Several examples can be found within the pages of this catalog, and one of the stand-out products is the EOS; the industries first solar-powered, energyharvesting auto-changeover diffuser.
Not only does the EOS provide THE solution for perimeter heating and cooling challenges, but it decreases the time it takes for an occupied zone to reach the setpoint, over the traditional split compromise diffuser, to improve occupant comfort. Additionally, the technology at work in the EOS provides us with a scalable energy. Another cleaver and creative example innovation from Titus is the Plexicon. Displacement ventilation, while a great solution for cooling a space, usually requires a separate or supplementary system for heating; which affects the design, installation and overall cost of a project.
The Plexicon addresses this challenge by incorporating displacement cooling and mixedairflow heating into a single diffuser assembly with auto-changeover action. Providing both cooling and heating from the same diffuser eliminates the need for a secondary heating system, reduces overall project costs, and delivers a high level of thermal comfort to the building occupants.
At Titus, we are continually working on developing new ways to advance the science of air distribution. Titus has long been recognized as a provider of world class training for the air distribution industry. Titus training provides practical information that can be applied to current projects or applications.
Our training is highly interactive with hands on product demonstrations and technology-driven displays. We offer the opportunity to see products in action to help engineers understand the best applications for each product type or system.
At Titus, we highly value our time with customers, particularly the engineers specifying our products, because they allow us to forge lasting relationships that give us valuable insight into the day-to-day challenges they face. Green Building design and energy conservation concepts are not new, yet in recent years the focus throughout the world has been to build structures with these principles in mind. We have seen the positive impact that designing and creating green buildings with these concepts have on our community and more importantly the world in which we live.
This is exactly the purpose of the Titus Energy Solutions website. Our tagline, The Leader in Air Management is not just words. Titus is fully committed to provide the latest innovations to the HVAC market and this new website is just another piece to an ever-growing puzzle. We made every effort to incorporate all the tools needed to find the perfect Green Solution. Within the site you will find relevant product information, marketing collateral, LEED tools and other energy conservation related resources.
We offer a wide array of Green products that can be used in a variety of applications. Whether you have a ceiling application or an underfloor installation, Titus has the Green Solution for you!
Many of our products are GreenSpec Listed and we have a knowledgeable and experienced staff of industry professionals ready to provide assistance when needed.
The marketing collateral we have made available on the Energy Solutions site is directly related to our Green products as well. The Energy Solutions. Brochure and the Retrofit Energy Solutions Guide are two brochures created to focus on Green products. The Energy Solutions Brochure is a 4-page guide that not only shows the types of products we offer, but highlights what LEED Credits they assist in achieving.
The Retrofit Energy Solutions Guide provides a more thorough look into how an older building can be retrofitted and the energy savings available if new system or components were to be installed. Sustainable design and energy conservation concepts are here to stay and this new tool will assist you in meeting those demands.
We have also completely revamped our case studies to provide a more in-depth perspective into some of our Green projects. They illustrate the overall design process from concept to completion. We also have flyers, green presentations, installation manuals, and application guides available on the site. The U. Real-time information to solve real-time problems. To become the leading innovator in the HVAC industry is not an easy task.
It takes drive, creativity and the ability to think outside the box. That said, we are pleased to announce that our TEAMS selection software can now be accessible via mobile devices.
Users of iPhones and other smartphone devices will now have the ability to make VAV and reheat selections for Single Duct, Series, and Parallel Fan Powered Terminal Units from any location where they have internet access.
Whether you are mobile, on the jobsite or visiting another office, you will be able to get the right-sized terminal unit for any application. This version provides you a quick result for a VAV selection. The selections are not saved for later use.
Because of this, the application does not require as much information as the full TEAMS program to function. We have built it only to require the most critical information needed to provide you the desired result. The T3SQ combines the functions of a VAV terminal and a high performance diffuser in one by modulating the air volume delivered to a zone to accurately control cooling and heating conditions.
This results in maximum air distribution effectiveness at any airflow, for superior comfort conditions. The communication modules allow for interfacing with building management systems for all major communication protocols. EcoShield is a sustainable product comprised of recycled denim, which means it is environmentally friendly and contains no harmful irritants or chemicals. EcoShield also includes an EPA registered antimicrobial biocide mold and fungal inhibitor ensuring the product is safe for you and the environment.
Additionally, EcoShield is a thermally bonded, high density insulation that meets all industry thermal and acoustic requirements. Titus leads the pack with the launch of the new Alpha controller! Titus Revit models contain all of the critical dimensions and points of connection to other systems in the building. This includes connectors to ductwork, electrical and water piping, thus allowing the engineer to quickly integrate the model into the building design without having to create and define all of these parameters from scratch.
By having access to this information, valuable time is saved in system modeling. Designed by Cambridge Seven Associates, the architectural firm created a building that serves not only as a museum, but as a classroom for the environment for the young and old to explore together. The energy harvesting potential of the building is amazing. This was done by reducing the storm water discharge. Storm and roof water are collected and stored on site in a cistern, thus providing a gray-water source.
The building also features living green roof systems that enhance and improve insulation, reduce heat, and hold rainwater. The DTFS is a digitally controlled fan powered terminal unit that has an energy efficient fan motor mounted with vibration isolators. It maintains the variable air volume VAV energy savings at the central fan. The DTFS is a quiet unit that provides pressure independent airflow control. It is available from - cfm flow range.
Both grilles have blades parallel to the long dimension and work well in open. The DESV is a single duct terminal unit.
Its primary function is to regulate airflow to a zone, in response to zone temperature requirements. The digitally controlled unit is unique as it incorporates many design features that increase performance, decrease service and installation costs, and offers increased value, over and above its basic function. The new addition further enhances this by placing emphasis on the environmental, health, and human aspects while providing a safe place to learn and monitor the performance of a Green Building.
The museum is fully committed to having children grow up as successful learners who respect others and the natural world.
They encourage imagination, curiosity, investigation, innovation, and play. Having outgrown their previous facility, a new and more innovative structure was needed to house the employees currently working today. Green Building Council. It is the first privately owned project in Baltimore to achieve such an honor. This Green Building incorporates many sustainable design features. The four-story 58, square foot building has many windows to take advantage of the natural light throughout the day.
The engineering firm also incorporates wind-generated power throughout the structure, has bicycle storage,. They operate so quietly that employees are able to do their work without noticing the units being hung directly over them. All sizes consist of three cones giving a uniform appearance where different neck sizes are used in the same area. The TMS is a square ceiling diffuser that delivers supply air in a true degree pattern with low pressure drop.
Designed by Dattner Architects, this LEED Silver Certified building provides its guests with an expanded circulation and reference collection, state-of-the-art technology, educational classes for all ages, literacy classes, and also houses the Latino and Puerto Rican Cultural Center. Dattner Architects utilized many green sustainable features throughout the new library center. The glass curtainwall creates an abundance of natural light is seen throughout the building.
Photosensors and occupancy sensors are also used in the facility. The lights also dim automatically depending. Other sustainable features are the use of a roof that reflects solar heat and utilizing recycled materials. These materials are used both inside and outside of the library. Titus has many air distribution products that provide the heating and cooling for the new facility. The FlowBar is a unique linear diffuser system that maximizes engineering performance without sacrificing aesthetic considerations of the designer.
It delivers higher airflows than conventional linear diffusers. With its immense amount of available slot widths, the FlowBar provides more cfm per linear foot while minimizing noise and pressure loss. The ML is a high performance linear slot diffuser that allows both changes in air volume and direction from the face of the diffuser.
The OMNI diffuser delivers a uniform B horizontal air pattern without excessive noise or pressure drop. The DTQS is a fan powered terminal unit. The quiet unit comes with built-in sound baffles that produces low sound levels. An energy efficient fan motor is mounted with vibration isolators that provides constant air delivery and temperature blending by utilizing pressure independent airflow control. It has extensive collections of print and non-print materials for adults, young adults, and children.
This five-story complex houses ten courtrooms and chambers for eleven judges, a grand jury room, and holding cells in the basement and on each courtroom floor. Our security products provide superior airflow without generating any potential risks. The security products selected were. The SG-SD is a maximum security grille that allows a greater effective free area and superior airflow without compromising security and safety.
It also complies with the National Institute of Corrections guidelines for suicide prevention and California Title The SG-BG is a barrier grille that effectively maintains security in wall openings between secure and non-secure areas. Constructed of hot-rolled carbon steel, the SG-BG restricts passage through duct openings.
The DESV is a digitally controlled single duct terminal unit. Their primary function is to regulate airflow to a zone, in response to zone temperature requirements.
The DESV also increases performance, decreases service and installation costs, and offers increased value. The Titus ML Modulinear diffuser is a high performance, high quality diffuser. It projects a uniform blanket of air that adheres to the ceiling even at low flow rates. The new center is designed in a classical Federal style and is poised to serve the Seminole County growing population for many years to come.
They have over 41 public and private buildings that have achieved LEED Certification level or higher. The new Seattle City Hall is among this group. It was designed to reflect the people of Seattle, the natural environment of the area and to utilize many sustainable elements both inside and out. The new city hall incorporates a green roof that reduces the heat throughout the facility while capturing the vast amount of rainwater that is prevalent in the Seattle area.
Rainwater is then recycled by a cistern for use in landscape irrigation. Other sustainable features of the Seattle City Hall are that it uses solar-activated light sensors, dimmers and occupancy sensors to save on electricity.
It also utilizes CO2 detectors that change the airflow to ensure the air is healthy and an energy efficient HVAC system. Constructed of a heavy steel casing that is leak resistant, the DLHK contains an energy efficient fan motor.
The energy efficient fan motor is mounted with vibration isolators. It provides constant air delivery and temperature blending by utilizing pressure independent airflow control. The result was the creation of a state-of-the-art building that will save the city of Seattle enormous amounts water and energy usage for some time to come.
No waiver or modification of the terms and conditions hereof shall be effective unless in writing and signed by both parties. Interest at the legal rate applicable to judgments will be charged on past due accounts commencing after the last day of the first calendar month following the date of invoice. If Seller should be required to pay the same, the prices will be increased accordingly. Seller will not be responsible for loss or damage arising from delays caused by lack of correct or complete data from Buyer or charges in or tardy approval of drawings by Buyer.
Should Seller be delayed by any of the above causes, Seller shall be given a reasonable extension of the time for performance hereunder. Seller may, during any period of shortage due to any of said causes, supply its own needs first and prorate its remaining supply of such goods among its customers in such manner as Seller in its sole judgment shall determine. Buyer shall advise the transportation company of any damages or shortages thereof prior to acceptance of goods from the carrier and, except for any latent defects, shall advise Seller of any claims with respect to shortages, damages, workmanship or quality with ten 10 days after receipt thereof.
Failure to so advise the transportation company and the Seller shall relieve Seller from any claim by Buyer for shortages, damages, workmanship or quality and shall constitute a waiver by Buyer of all claims with respect to said goods.
LIMITED WARRANTY: Titus Products warrants to Buyer, or any person receiving product during the duration of this warranty, for a period of twelve 12 months from the date of shipment from originating factory that the goods at time of shipment will be free from defects of material and workmanship for normal use and service. This warranty does not extend to goods subjected to misuse, neglect, accident or improper installation, or to maintenance of products which have been altered or repaired by anyone except Seller, Buyer, or any person receiving such a product during the duration of the warranty, shall contact the local Titus Representative or Titus Products - Shiloh Rd, Plano TX as soon as any defect becomes known.
If after notifying Titus of defect, Buyer returns goods to Titus for repair and Titus determines that it has not breached the foregoing warranty, the Buyer will be assessed Titus regular reconditioning charges. Any item returned by the Buyer for reasons of his own is subject to prepaid transportation charges and restocking charges.
Additional charges for reworking or replacement of parts may be necessary. B5 Single Duct B5 Dual Duct, Non-Mixing B5 Dual Duct, Mixing B5 Single Duct, with Heating Coil B6 Low Temperature Fan Terminals B6 Fan Powered, Low Profile B6 Types of Controls B7 Reaction to Duct Pressure Controls Control Operation in Terminals B9 Damper Operation B9 Pneumatic Thermostat-Controller Combinations B10 Actuator Terminology Velocity Controller Operation B11 Definitions of Terms B11 Thermostat Sensitivity B11 Hysteresis B11 Pneumatic Feedback Fan Terminal Flow Control B12 Series Fan Shift B12 Mechanical Trimming B12 Voltage Adjustment B13 Fan Speed Control B13 Catalog Fan Curves B15 Direct Digital Control B16 Applying Computers to Control B16 Direct Digital Control B16 Advantages of DDC B18 Certified Air Terminals B18 Sizing Single Duct Terminals Typical Problems B21 Oversizing Terminal B21 Insufficient Space B21 Improper Discharge Conditions B21 Improper Inlet Conditions B21 Incompatibility with Power Source B22 Excessive Air Leakage B22 Improper Support Of Terminal B22 Wrong Type of Insulation B22 Non-Compliance with Local Codes B23 Installation Techniques-Duct Connections B25 The Fan Laws B26 Equations and Definitions B28 Noise Criteria NC B28 Room Criteria RC B30 Air Terminal Sound Issues B33 Environmental Adjustment Factor B33 Discharge Sound Power Levels B34 Acceptable Total Sound in a Space B38 Diffuser Specifications B39 Determining Compliance to a Specification B40 Standard Attenuations Sizing Series Fan Powered Terminals The selection and performance data contained in this catalog are the result of extensive studies conducted in the Titus engineering laboratories under professional engineering guidance, with adherence to sound engineering applications.
They are intended to be aids to heating and air conditioning engineers and designers with skill and knowledge in the art of air distribution. The data have been obtained in accordance with the principles outlined within the American Society of Heating, Refrigerating and.
Although Titus has no control over the system, design and application of these products, a function which rightfully belongs to the designer, this data accurately represents the product performance based on the results of laboratory tests.
Furthermore, the recommended methods of applying this information have been shown by field experience to result in optimum space air distribution. In response to control signals from a thermostat or other source, the terminal varies the airflow through a single duct handling hot or cold air. In some applications the same terminal is used for both heating and cooling; a dual. Because there is no provision for mixing the two airstreams, this terminal should not be used for simultaneous heating and cooling,.
The coil may be of either the hot water or the electric type. The hot water coil is usually modulated by a proportioning valve controlled by the same thermostat that controls the terminal. The single duct terminal with heating coil. The heating cycle occurs generally when the primary air is off or at minimum flow. Heat is picked up as the recirculated air is drawn from the ceiling space and the fan motor. Additional heat can be provided by a hot water or electric coil on the.
When stratification occurs, the several outlets served by the terminal may deliver air at noticeably different temperatures. The non-mixing, dual duct terminal is best used in an exterior zone, in which zeroto-low airflow can be tolerated as the temperature requirement shifts from cooling to heating.
When equipped with DDC controls by Titus, both hot and cold inlets have velocity sensors, with the summation of flows computed by the microprocessor. No discharge velocity sensor is used. This dual duct terminal is often used in an exterior zone of a building or to ensure ventilation rates. Separate minimum cfm setpoints are standard with most DDC controls available optionally on most other control types and should be considered in design.
A higher minimum cfm in heating mode will improve overhead air distribution performance. Because the fan handles only the heating airflow, which is usually less than that for cooling, the fan can be sized smaller than in the series flow type terminal see below. During the cooling cycle, the fan is off and cool primary air is supplied from the central system. A backdraft damper prevents reverse flow through the fan. The flow of the primary air is regulated by variable air volume controls.
Used in exterior zones. Here the terminal is designed specifically for mixing hot or tempered ventilation and cold air in any proportion. When equipped with pneumatic controls, there is a velocity sensor in the hot air inlet, but none in the cold air inlet.
A velocity sensor at the discharge measures the total flow of air and sends the signal to the cold air controller. In the mixing cycle, the. Controls can be pneumatic, electric, analog electronic or direct digital electronic. Accessories such as round outlets, multiple outlets and sound attenuators may be added.
The single duct terminal is most often used in an interior zone of the building, for cooling only. The more primary air is forced in, the less plenum air is drawn in. The result is variable volume from the central system, constant volume and sound to the room. Because the central system need only deliver air as far. In order to use standard diffusers, the primary air must be raised to.
Notice in the diagram at the right that the recirculating fan is laid flat on its side, shaft vertical. In localities where building heights are limited, the low profile terminal saves enough space to allow extra floors to be included. Engineering Guidelines - Terminals as the fan, the inlet static pressure can be lower than in the parallel flow terminal above. The fan, however, is sized to handle the total airflow.
These are often used in applications where constant background sound and continuous airflow are desired. Figure A commonly utilized solution is to mix it with recirculated air with a fan powered terminal. The most common application uses a Series Flow unit, but many applications have been utilized with Parallel units with a constant running fan.
The low profile terminal is also useful in buildings constructed with precast concrete channel floors. The terminal can fit into the channel space with no extra depth required Series type shown. Plan View - Fan Powered, Low Profile The terminal can fit into the floor plenum without any modifications to the pedestal system.
With this type of control the terminal maintains the flow rate required to handle the heating or cooling load, regardless of system pressure fluctuations. It is the best choice where the system pressure will vary extensively and where precise control is essential. Key components in pressure independent control are the velocity sensor, which furnishes a continuous reading of the air velocity through the terminal, and the velocity controller, which processes this information along with signals from the thermostat.
In the chart Figure 55 , vertical lines AB and EF represent minimum and maximum cfm settings which are adjustable at the controller. Line CD represents any cfm setting maintained by the controller in response to the thermostat. The damper will open and close as needed to hold the cfm constant up and down this vertical line for the full range of pressure drops shown.
Notice that the vertical cfm lines are cut off by the diagonal line AE, which represents the pressure drop from inlet to outlet with the damper wide open. This is the minimum DP shown in our data. Note: Excessive airflow may lead to excessive noise. Pressure independent control has less opportunity variable Minimum m and Variablefor Maximu cfmoccupied spaces.
The room sensor used with the direct digital control system is simply an electronic temperature sensor; setpoint changes are handled along with other signal processing in the digital controller. Operation is pressure independent. An example is a variable volume makeup air supply in which the downstream duct pressure is held constant by other controls.
The terminal consists essentially of a casing, a damper and a damper actuator. There is no controller and no velocity sensor; the damper moves in direct response to the thermostat or other signal input.
The line AB Figure 56 shows the typical performance characteristic. It represents a given damper setting, with the flow rate varying as the square root of the static pressure drop through the terminal. This, of course, is typical of any damper or fixed orifice. Line GH is the minimum pressure loss of the assembly.
In a pneumatic control system, the various components are powered by compressed air, usually at psi, from a central system. The thermostat receives air at full pressure directly from the main air supply.
In response to room temperature, the air pressure is modulated to the controller, which regulates the damper actuator. The sensor and controller compensate for changes in duct pressure so that operation is pressure independent. The room thermostat has single-pole-double-throw contacts so that in the cooling mode a rise in temperature drives the damper actuator in the opening direction; a fall in temperature reverses the actuator.
Since the electric system has no velocity sensor and no controller, there is no compensation for duct pressure fluctuations.
Operation of the terminal is pressure dependent, the thermostat and room response time are typically much less than the actuator response time, and excessive room temperature variations are a likely result. These controls, however, also include a velocity sensor of either the thermistor type, or pneumatic velocity sensor with electronic transducer, together with an electronic velocity controller that is pressure independent.
The electronic thermostat can control both cooling and heating operations. Because of the pressure independent operation and integrated thermostat, excellent room temperature control can be achieved. Signals from a pneumatic or electronic velocity sensor, together with signals from the room temperature sensor, are converted to digital impulses in the controller, which is a specialized microcomputer. The controller not only performs the reset and pressure independent volume control functions, but it also can be adjusted and programmed either locally or remotely for multiple control strategies, including scheduling.
In addition, it can link to other controllers and interface with security, lighting, and other equipment. Control can be centralized in one computer. How nearly linear the operation is depends upon the percentage of the overall system pressure drop contributed by the wide open damper.
Pressure independent control operations eliminate the effect of nonlinear dampers, but simulate the effect of a true linear damper to the system.
Also Figure 62 , actuator torque must be sufficient to close the damper under all design conditions. In Titus terminals, the torque is always more than adequate. The damper will open and close to maintain this cfm when duct pressures change.
In the reverse reset controller Figure 66 the same action results from a decrease in controller cfm setting. In the direct acting pneumatic thermostat Figure 63 , a room temperature increase causes a corresponding increase in thermostat output.
In the reverse acting thermostat Figure 64 , the sequence is the opposite. Because of these characteristics, direct acting thermostats are often used for cooling, reverse acting for heating. With electronic systems, this term has no application. A reverse acting thermostat with a reverse reset controller produces the same result. A direct acting thermostat with a reverse reset controller or a reverse acting thermostat with a direct reset controller Figure 68 will produce a decrease in cfm as the room temperature increases.
With warm supply air, the logic is reversed. Pneumatic actuators have an internal spring which is overcome by control air pressure.
When air pressure is less than the spring tension, the actuator will retract. Depending on how it is connected to a damper, the damper may open or close on increase in control signal. When normally open or normally closed actuators are specified in an electronic control project, the requirement is most often in error.
This describes a pneumatic operator which is configured so that on loss of air pressure the damper in the unit will open fully.
These applications are typically ones where all like units are desired to be open for control purposes such as smoke removal or to prevent excessive pressure on system start-up. This is typically specified when an area is to be isolated. Controllers and actuators work in concert to control space temperatures. With most pneumatic controls special controllers are used for direct and reverse acting and any combinations other than DANO or RANC require extra components and increase air consumption.
With the Titus II controller, no extra components are required as the unit is switchable. At that setpoint the damper opening may vary widely to compensate for any duct pressure changes reported by the inlet sensor, and thus hold the cfm constant. With pneumatic systems, the setpoint, 11 psi in the example Figure 69 , can be reset by the action of the thermostat anywhere between the maximum and minimum cfm settings of the controller.
The corresponding thermostat output pressures are called the start and stop points. The range of possible setpoints between the start and stop points is called the reset span, 8 to 13 psi in the example shown here. The thermostat may also control an auxiliary piece of equipment, such as a proportioning valve on a hot water coil, shown here modulating over a range of 3 to 8 psi, in sequence with the reset span of the controller.
The overall range over which the thermostat controls these devices is its proportional band or total throttling range, 3 to 13 psi in this example. This is the change in output signal caused by a change in room temperature. Electronic systems have a wide variance in output responses. For example, in some velocity controllers Figure 71 the cfm setting increases along the lower curved line and decreases along the upper curved line.
At the setpoint, the cfm may be either A or B. The duct velocity acting on the velocity sensor forms a feedback closed loop Figure 72 that allows the controller to monitor the airflow resulting from its settings and make corrections continuously. This is a form of closed loop control and is used on both pneumatic and electronic pressure independent systems. Controller In the Titus ll pneumatic controller there is also an internal feedback loop that works in conjunction with a positive positioning reset mechanism to eliminate hysteresis Figure 71, page B Exact matches are rare, however.
The design may not allow an exact match, a product other than the one which is the subject of the design might be selected, or system balancing might require a different airflow to meet field conditions. With proper design, this is normally so. With improper design, or with additional inlet attenuators added to a terminal, the fan may see a different external pressure when in full induction mode than when in full cooling. If diffusers are selected such that they may add background masking sound at design flow, variations in flow may be an annoyance to the occupants.
If a designed ventilation rate is assumed, this may vary if fan shift happens. Titus terminals are designed to minimize fan shift. Typically, these are used in conjunction with a multi-tap motor to provide a greater operating range and keep the energy consumption and sound levels as low as possible.
Mechanical trimming offers a lower first cost versus a voltage adjustment, but at increased operating costs and increased sound. Multi-tap motors are not always effective in changing flow. In operation, the mechanical device will raise the static pressure the fan operates against by either restricting the free area downstream of the fan or restricting the free flow of air drawn into the fan. A forward curved fan riding the fan curve will reduce airflow accordingly Figure Although the rpm of the fan will increase, less work will be performed.
This will result in a reduction of the amp draw of the fan motor. Since voltage remains constant, the overall power consumption of the fan is reduced. The power reduction from mechanical trimming is less, however, than the power reduction from voltage adjustment. Support when you need it Get help with your Titus configuration and use via our secure customer service portal. Request a Demo Contact. Fast , reliable data identification and data classification that lets your people work safely and with confidence By Challenge Identify, classify, and secure your sensitive data across platforms, devices, and in the cloud.
Titus best-of-breed software will help you build a data protection solution customized for your business. By Industry Organizations operating in industries with strict data protection requirements, e. Titus software completes your data security suite with seamless integration Titus solutions works with our technology partners to inform policy and bring your data security ecosystem together.
View all tech partners. What Titus customers are saying Titus Classification Suite is easy to use because you can customize the buttons in the way you need and it provides a good monitoring of sensitive information.
Read full review The Titus classification tool has to be your one stop shop for data classification and protection. Sir boy, now let me see your archery; Look ye draw home enough, and 'tis there straight. Terras Astraea reliquit: Be you remember'd, Marcus, she's gone, she's fled.
Sirs, take you to your tools. You, cousins, shall Go sound the ocean, and cast your nets; Happily you may catch her in the sea; Yet there's as little justice as at land: No; Publius and Sempronius, you must do it; 'Tis you must dig with mattock and with spade, And pierce the inmost centre of the earth: Then, when you come to Pluto's region, I pray you, deliver him this petition; Tell him, it is for justice and for aid, And that it comes from old Andronicus, Shaken with sorrows in ungrateful Rome.
Ah, Rome! Well, well; I made thee miserable What time I threw the people's suffrages On him that thus doth tyrannize o'er me. Go, get you gone; and pray be careful all, And leave you not a man-of-war unsearch'd: This wicked emperor may have shipp'd her hence; And, kinsmen, then we may go pipe for justice.
Join with the Goths; and with revengeful war Take wreak on Rome for this ingratitude, And vengeance on the traitor Saturnine. What, have you met with her? I'll dive into the burning lake below, And pull her out of Acheron by the heels. Marcus, we are but shrubs, no cedars we No big-boned men framed of the Cyclops' size; But metal, Marcus, steel to the very back, Yet wrung with wrongs more than our backs can bear: And, sith there's no justice in earth nor hell, We will solicit heaven and move the gods To send down Justice for to wreak our wrongs.
Come, to this gear. You are a good archer, Marcus; He gives them the arrows. My lords, you know, as know the mightful gods, However these disturbers of our peace Buz in the people's ears, there nought hath pass'd, But even with law, against the willful sons Of old Andronicus.
And what an if His sorrows have so overwhelm'd his wits, Shall we be thus afflicted in his wreaks, His fits, his frenzy, and his bitterness? And now he writes to heaven for his redress: See, here's to Jove, and this to Mercury; This to Apollo; this to the god of war; Sweet scrolls to fly about the streets of Rome! What's this but libelling against the senate, And blazoning our injustice every where?
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