1.Resetting of safety thermostats, circuit breakers, over load protectors, and/or fuse replacements are not covered by this warranty unless warranted conditions are the cause.

2.All problems due to operation at voltages or phase other than specified on equipment nameplates are not covered by this warranty.

Conversion to correct voltage and/or phase must be the customer’s responsibility.

3.All problems due to electrical connections not made in accordance with electrical code requirements and wiring diagrams supplied with the equipment are not covered by this warranty.

4.Replacement of items subject to normal wear, to include such items as knobs, light bulbs; and, normal maintenance functions including adjustments of thermostats, adjustment of micro switches and replacement of fuses and indicating lights are not covered by warranty.

5.Damage to electrical cords and/or plug due to exposure to excessive heat are not covered by this warranty.

6.Full use, care, and maintenance instructions supplied with each machine. Noted maintenance and preventative maintenance items, such as servicing and

cleaning schedules, are customer responsibility. Those miscellaneous adjustments noted are customer responsibility. Proper attention to preventative maintenance and scheduled maintenance procedures will prolong the life of the appliance.

7.Travel mileage is limited to sixty (60) miles from an Authorized Service Agency or one of its sub-service agencies.

8.All labor shall be performed during regular working hours. Overtime premium will be charged to the buyer.

9.All genuine Wells replacement parts are warranted for ninety (90) days from date of purchase on non- warranty equipment. This parts warranty is limited only to replacement of the defective part(s). Any use of non-genuineWells parts completely voids any warranty.

10.Installation, labor, and job check-outs are not considered warranty and are thus not covered by this warranty.

11.Charges incurred by delays, waiting time or operating restrictions that hinder the service technician’s ability to perform service are not covered by warranty. This includes institutional and correctional facilities.

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Wells HD8799, HD8802 owner manual 595 p/n 75982 OpM Heated Dispenser

HD8802, HD8799 specifications

Wells HD8799 and HD8802 are two fascinating exoplanetary systems that have garnered significant interest in astronomical research. Discovered in recent years, these planetary systems provide a unique glimpse into the diversity of worlds beyond our own Solar System. Located approximately 129 light-years away from Earth, both HD8799 and HD8802 are situated in the constellation Pegasus and have distinct characteristics that set them apart in the field of exoplanet studies.

The HD8799 system is particularly notable for its four known gas giant exoplanets: HD8799 b, c, d, and e. The star itself is a young A-type main sequence star, which contributes to the brightness and detectability of the planets in this system. The most remarkable feature of HD8799 is the fact that its planetary companions were among the first directly imaged exoplanets. This imaging was achieved using advanced adaptive optics and coronagraphy techniques that allow astronomers to distinguish the faint light of the planets from the overwhelming brightness of the star itself. As a result, HD8799 has become a prime target for studying the atmospheres of exoplanets, providing insights into their composition and climatic conditions.

Currently, researchers are exploring the chemical makeup of the atmospheres of these distant worlds using spectroscopic analysis. The discoveries of water vapor, carbon monoxide, and other molecules have raised intriguing questions about the potential for habitability and the formation processes of gas giants in the early universe.

On the other hand, the HD8802 system presents an interesting contrast. It is a K-type star surrounded by at least one known exoplanet, HD8802 b. This gas giant is particularly noteworthy for its close proximity to its parent star, resulting in a unique environment that influences its atmospheric dynamics. The star's lower temperature compared to A-type stars means that its planets experience different evolutionary paths, making HD8802 an ideal candidate for comparative studies with systems like HD8799.

Both HD8799 and HD8802 offer rich opportunities for advancing our understanding of planetary formation, evolution, and the characteristics of exoplanet atmospheres. The use of cutting-edge technologies in telescopes and imaging techniques continues to enhance our knowledge of these distant worlds, revealing the complex interactions between stars and their planetary systems. As research on these systems progresses, they promise to unveil crucial information about the role of gas giants in the ecosystem of stars and the formations of planetary systems.