TOWER DRYERS TOTAL VALUE. TOTAL SYSTEMS.
1 GSI FEATURES 1 Gravity inlet does not require leveling auger, reducing the number of moving parts. 2 3 2 Self cleaning cushion box on plenum roof reduces grain damage and plenum roof wear. 4 5 3 Stainless Steel outside sheets greatly extends the life of the dryer. The screens utilize different size to reduce emissions. 6 7 4 The 12-3/4" grain columns surrounding the heat plenum chamber allows the grain to receive all BTU's from the burner, improving efficiency while providing superior noise reduction. 8 9 10 11 5 Heavy-duty overall construction results in an extra rigid structure on a minimum of ground space. 6 Uniform low velocity heated air improves efficiency and quality as well as reducing particulate emissions. 7 Inside and outside safety ladders, cages and catwalks provide safe and easy access to all areas of the dryer. 12 13 8 Patented Grain are used to equalize column moisture content and temperature of the grain column, greatly improving quality and efficiency. 14 15 9 In-line Maxon NP-LE-AL series burners provide even heat and efficient combustion from either natural gas or LP vapor. Aluminum extrusion reduces burner maintenance. 16 17 10 Reducer cone equalizes air velocity past burners for optimum combustion and provides step-in access to burner assembly. 18 19 11 Walk-in heat section provides easy access for interior cleaning. This product is protected under one or more of the following U.S. Patents: 6233843, 6189235, 6141886, 6101742, 6098305 6088929, 6076276, 6073367, 6073364, 5570521 6457256, 6035544, 5860221, 5653043, 5651193 5604996, 5566470, 5400525
12 Divider hopper separates the heating and cooling sections while preventing build-up of particulate matter. 13 Internal mounting provides the added benefit of ultra quiet operation as the surrounding grain creates a natural noise barrier. 17 Patented discharge system provides simple, uniform metering and quick dryer clean out. 14 Internally mounted tubular centrifugal blowers deliver high volumetric airflow to the pressure heat and suction cool sections. 15 Recycling heat from the cooling grain results in significant fuel savings. 16 Walk-in cool section provides easy access to blowers and metering system. BLOWER(S) AND BURNERS Depending on the size of the dryer, one, three, or four industrial duty blowers are used in the GSI Tower Dryer. These internally mounted, in-line mixed flow blowers are sized to operate at slow speeds, which means low noise levels, low electrical usage and long blower and motor life. Airflow from the blowers is ducted across a Maxon NP-LE-AL line burner. The burner can operate on either natural gas or LP vapor. The burners are sized and profiled to provide even, efficient heat distribution to the drying section of the dryer. (fuel oil burners are optional) 18 Industrial quality components (including Maxon valves and burners) ensure years of reliable service. 19 Weather-proof NEMA IV cabinets and NEMA rated electrical components ensure safe and reliable operation in all conditions. PLC Control System provides one of the most advanced and reliable dryer controls on the market. SUPERIOR WORKMANSHIP Standard operational features on the dryer include double Maxon gas blocking valves on the gas train, exhaust air temperature sensors, plenum high temperature limits, grain level monitoring, continuous flame monitoring, airflow monitoring and motor overload monitoring. We take pride in the design and workmanship that goes into the Tower Dryer, and stand behind it with a one full year parts and labor warranty. CUSTOMER SERVICE Should you ever need service on your GSI Tower Dryer, GSI has a professional staff of service technicians who can take care of your service needs. Also, many local GSI dealers have been trained in the service aspects of the Tower Dryer, and can provide quick, reliable service if needed. DISCHARGE AREA Cool, dried grain passes from the cooling section of the dryer into the sealed, hoppered discharge section. Grain is gravity fed down a 45 hopper to GSI s patented metering drum. This drum provides a positive, yet gentle means of metering grain uniformly from each column of the dryer and discharging it out the center of the dryer. The drum is driven by a variable speed inverter operated AC motor. The hopper bottom design of the dryer eliminates troublesome sweep augers and sweep arms and provides for quick dryer clean-out. The metering drum is virtually maintenance free. You get an even flow with no buildup and stalks are never a problem.
THE INVERTER ADVANTAGE PATENTED GRAIN INVERTERS promote more even drying, higher test weights, and also help reduce operating costs. While the older grain exchangers move grain from the inside of the grain column to the outside of the column in 6 columns, the patented GSI Grain put a new twist on this process. GSI's Grain move all grain, except the outer two inches, within the column to eliminate over-dried grain and to maximize drying efficiency and grain quality. These patented Grain redirect the warmest grain from the inside of the column next to the wettest grain left at the outside of the column. The wet grain at the outer wall is dried by the captured heat which would have otherwise escaped the dryer. (See diagrams below for visual illustration.) This process maintains optimal grain temperature, thus maximizing grain quality while using less fuel and significantly reducing operating costs. A convenient clean-out door also provides easy access for quick maintenance. DRYING WITHOUT THE GSI GRAIN INVERTERS. Entering Drying Column DRYING WITH OLD GRAIN EXCHANGERS. Entering Drying Column DRYING WITH THE GSI GRAIN INVERTERS. Entering Drying Column Plenum 210 205 F/96 C 130 F/54 C 190 F/88 C 123 F/51 C 170 F/77 C 116 F/47 C 150 F/66 C 109 F/43 C 130 F/54 C 102 F/39 C 110 F/43 C 95 F/35 C 100 F/38 C 87 F/31 C 90 F/32 C 80 F/27 C Exhaust Air 160 F/71 C Plenum 210 90 F/32 C 130 F/54 C 150 F/66 C 80 F/27 C 120 F/49 C 140 F/54 C 75 F/24 C 110 F/43 C 130 F/54 C 100 F/38 C 120 F/49 C 130 F/54 C 90 F/32 C 115 F/46 C 120 F/49 C 80 F/27 C 110 F/43 C 110 F/43 C 75 F/24 C 100 F/38 C 100 F/38 C Exhaust Air 130 F/54 C Plenum 210 75 F/24 C 130 F/54 C 130 F/54 C 80 F/27 C 120 F/49 C 130 F/54 C 90 F/32 C 110 F/43 C 130 F/54 C 100 F/38 C 100 F/38 C 130 F/54 C 110 F/43 C 90 F/32 C 130 F/54 C 120 F/49 C 80 F/27 C 130 F/54 C 130 F/54 C 75 F/24 C 130 F/54 C Exhaust Air Up to 205 Entering Cooling Section Up to 160 Entering Cooling Section 130 at Cooling Section KERNEL TEMPERATURE Under 100 =Seed 100 to 120 =Human Food Grade - Full Nutrition and Taste 120 to 140 =Animal Food Grade - Full Nutrition 140 to 160 =Moderate damage & test weight loss starts 160 & above=severe damage (physical breakage & severe test weight loss
DRYING CONTROL SIMPLICITY DURABLE CONSTRUCTION YEARS OF RELIABILITY The GSI control box is housed in a metal NEMA IV enclosure. The windowed design of the box allows all dryer operations to be viewed through the lockable windowed door and also protects all control switches, indicators, and controls. For convenience, the control box can be remote mounted or mounted at the dryer. The touch screen control panel, pictured at the left, is totally computerized using Allen Bradley industrial controls and communicates with the dryer power box via an DH485 communication link. GSI s touch screen control panel is the most advanced and reliable dryer control system on the market. It offers computerized control of all dryer functions and self diagnoses dryer problems eliminating the guesswork associated with traditional controllers. The touch screen is very simple to operate providing instant information via a large color display. It calculates total dryer time, bushels per hour and total bushels dried. Memory features in the unit maintain a history of past dryer operation and a permanent service record. The dryer power box pictured above is mounted in a large NEMA IV enclosure, all of the electrical power and dryer monitoring components for the dryer are controlled by an Allen Bradley SLC controller. The electrical layout and wiring of this box is MET laboratories certified, making the box meet all U.S. and Canadian safety standards. This will provide a long reliable control system for the dryer. The GSI Tower Dryer s electronic control panel indicates any malfunctions via a full color graphical display. The display provides continuous visual feedback on the current dryer status as well as a convenient means of setting operating parameters and options. Most set points and status screens are accessed by simply touching an on-screen object. This clear and simple control system saves valuable time in dryer operation and the area of troubleshooting. EASY ACCESS The GSI Tower Dryer was designed with convenience in mind. Catwalks, ladders and cages are provided on all areas of the dryer for easy accessibility. All areas of the dryer can be easily accessed through up to four entry ways. Cleanout, inspection, and general maintenance are never a problem with the GSI Tower Dryer. Heavy-duty materials and strong structural design provide a solid support for ladders and platforms.
CUTTING-EDGE TECHNOLOGY GSI has a reputation for engineering excellence. The Tower Dryer exemplifies this, with design innovation unmatched by anyone in the industry. The Tower Dryer design utilizes industry proven drying principles along with many unique features to provide the commercial user with a simple, reliable, fuel efficient grain dryer. Each dryer employs a bolt together (versus welded) design, which permits the wide use of galvanized steel (versus painted steel) throughout the dryer. In addition, all dryers have stainless steel, roll formed exterior sheeting as a standard feature. These design features simplify dryer erection, improve dryer appearance and promote a long dryer life. The hopper bottom design used on the dryer, including GSI s patented metering drum, provides a simple, efficient grain discharge system. This system transfers grain from the dryer uniformly and allows for easy dryer clean-out. The touch screen controls offer computerized control of all dryer functions. This smart system eliminates guesswork by providing the operator instant information on a large backlit color display and makes the operation of the dryer simple. EFFICIENT DESIGN The wet grain storage area and self-cleaning grain receiving chamber at the top of the dryer. Grain enters the dryer at the top and falls into a self cleaning grain receiving chamber. The chamber creates a grain cushion, and with grain falling on grain, helps reduce plenum roof wear. This chamber also provides a means of distributing grain evenly around the dryer. The garner bin at the top of the dryer has a full 40 inches of wet grain storage. This area is completely sealed to help retain grain dust and particulates. Grain moves down, out of the garner area, and enters 12 wide grain drying columns in the heat section of the dryer. The GSI Tower Dryer is designed to provide the optimum balance of grain retention time, airflow and temperature. Large column holding capacities result in long grain retention times in the drying section of the dryer. This long retention time, combined with low drying airflows and temperatures result in high quality, efficiently dried grain. Midway down the heat section of the dryer are GSI s patented grain inverters. The inverters invert the grain from the inside of the grain column to the outside for more uniformly dried grain. GSI tower dryers are designed to retain bees wings and particulate matter within the drying columns. The largest standard hole size on the exterior screening of the dryer is 0.078 inch diameter perforation. After the grain is turned, the perforation size drops to a diameter of 0.0625 inches. Solid non-perforated exterior sheets are used at the grain inverters and at the top and bottom of the grain columns to help ensure that particulates are not expelled from the dryer. As grain exits the heat section of the dryer it enters the suction cooling section. Air used to cool the grain is recycled through the blower(s) resulting in significant energy savings. The internal temperature sensors.
10000 30' dia. 132'-11" h. 38' dia. w/catwalks +20" inlet pipe=134'-7" h. 7000 24' dia. x 121'-6" h. 32' dia. w/catwalks +20" inlet pipe=123'-2" h. 6000 24' dia. x 111'-6" h. 32' dia. w/catwalks +20" inlet pipe=113'-2" h. HEAT PLENUM CHAMBER The heat plenum chamber is entirely surrounded by a 12-3/4" grain column. All heated air must pass through the grain column resulting in total use of heated air. Stainless steel, smooth sidewall construction with.078" and.0625" perforation diameter helps retain particulate matter. Inside: Heating section has.078" perforation sidewalls. Cooling section has.0625" perforation to minimize particulate matter entering the cooling section. Outside: Heating section to the Grain Inverter has.078" perforation sidewalls. Grain Inverter to the cooling section has.0625" perforation sidewalls to contain the particulate matter. Cooling section has.078" perforation sidewalls..078".0625" INVERTERS HEATING SECTION 4000 18' dia. x 96'-11" h. +20" inlet pipe=98'-7" h. 3500 18' dia. x 86'-11" h. +20" inlet pipe=88'-7" h. 4718 18' dia. x 110'-3" h. +20" inlet pipe=111'-11" h. 5000 24' dia. x 101'-6" h. 32' dia. w/catwalks +20" inlet pipe=103'-2" h. BURNER BLOWER COOLING SECTION
TOWER DRYER SPECIFICATIONS 1200 1500 1800 2000 2400 2500 3000 3500 4000 4718 5000 6000 7000 10000 DRYING CFM 60,500 77,100 81,800 98,600 108,300 121,950 145,200 175,800 192,750 213,600 282,000 304,800 337,500 500,00 COOLING CFM 30,250 38,550 40,900 49,300 54,150 60,975 72,600 87,900 96,375 106,800 141,000 152,400 168,750 250,000 BLOWER HP 60 75 75 100 100 3-40 3-50 3-60 3-75 3-75 3-100 3-100 3-125 4-125 BURNER CAPACITY (BTU x 1000) 13,068 16,654 17,669 21,298 23,393 26,341 31,363 37,973 41,634 46,138 60,192 65,837 72,900 108,000 AVERAGE HEAT (BTU x 1000) 1 7,514 9,576 10,160 12,246 13,451 15,146 18,034 21,834 23,940 26,529 35,024 37,856 41,918 62,100 GRAIN COLUMN 12-3/4 12-3/4 12-3/4 12-3/4 12-3/4 12-3/4 12-3/4 12-3/4 12-3/4 12-3/4 12-3/4 12-3/4 12-3/4 12-3/4 TOWER DIAMETER 2 12 12 12 12 12 18 18 18 18 18 24 24 24 30 OVERALL HEIGHT 53-9 60'-5 70-5 77-1 87-1 68-7 78-7 88-7 98-7 111-11 103'-2 113'-2 123-2 134-7 HEAT HOLDING (BU) 719 914 1,158 1,256 1,499 1,511 1,813 2,210 2,512 2,964 3,479 4,042 4,452 6,030 COOL HOLDING (BU) 305 305 354 451 500 529 680 737 888 1,038 1,126 1,177 1,381 1,846 TOTAL COLUMN HOLDING (BU) 1,024 1,219 1,512 1,707 1,999 2,040 2,493 2,947 3,400 4,002 4,605 5,219 5,833 7,876 TOTAL DRYER HOLDING (BU) 1,427 1,622 1,915 2,110 2,401 2,977 3,430 3,883 4,337 4,939 6,294 6,908 7,522 10,531 BPH CAPACITY 3 (20%-15%) 1,200 1,500 1,800 2,000 2,400 2500 3000 3,500 4,000 4,700 5,000 6,000 7,000 10,000 BPH CAPACITY 3 (25%-15%) 720 900 1,080 1,200 1,440 1,500 1,800 2,100 2,400 2,820 3,000 3,600 4,200 6,000 1 At 50 degrees ambiant temperature. 2 Dimensions exclude outside catwalk. 3 Capacities listed are wet bushels/tonnes, shelled corn at listed moisture content and are estimates based on drying principles, field results and computer simulation. Variance may occur due to grain's physiological factors (kernel size, chemical composition, variety, maturity), excessive fines, adverse weather conditions, etc. 1500 12' dia. x 58'-9" h. 1200 +20" inlet pipe = 60'-5" h. 12' dia. x 52'-1" h. +20" inlet pipe = 53'-9" h. 1800 12' dia. x 68'-9" h. +20" inlet pipe = 70'-5" h. 2000 12' dia. x 75'-5" h. +20" inlet pipe = 77'-1" h. 2400 12' dia. x 85'-5" h. +20" inlet pipe = 87'-1" h. 2500 18' dia. x 66'-11" h. +20" inlet pipe = 68'-7" h. 3000 18' dia. 76'-11" h. +20" inlet pipe = 78'-7" h. Larger molds are shown on the inside back cover. All dryers are show at relative size. GS-010 www.gsiag.com 1004 East Illinois Street Assumption, IL 62510 USA Ph: 888-GSI-BINS Int'l Tel: 1-217-226-BINS Fax: 800-800-5329 Int'l Fax: 1-217-226-3404 GS-010 OCT/10 Copyright 2010 by The GSI Group, LLC. Printed in the USA Due to continual improvements, The GSI Group, LLC. reserves the right to change designs and specifications without notice.