Maximize Electric Heater Performance

Ten Tips to Maximize Heater Performance

Electric Heating elements are very durable and can last a png time with some preventative care for the elements. In the industrial world some heaters are put ito abusive environments so using some of these tis could add life to your electrical heating elements and heaters. 

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Watlow Heaters from Anderson-Bolds

Watlow Firebar Elements

Many plant engineers do not give much thought to the heaters operating within their processes and applications - unless those heaters fail, require significant maintenance or cause other problems. Unfortunately, heaters play an integral role in many applications. Therefore, heater problems can easily snowball and lead to much larger headaches.

Following a few simple guidelines will not only reduce the likelihood of heater-related issues, but can actually have a significant positive impact on the efficiency of systems and reduce maintenance requirements and costs. Below are 10 ways to maximize a heater's service life and performance.

Tip 1: Guard against heater contamination

Contamination is the most frequent cause of heater failure (see images). As heaters expand and contract during cycling, they often draw in organic or conductive materials. This can lead to an arcing failure between individual heater windings or between heater windings and the electrically grounded outer heater sheath. When allowed to collect at the lead end of a heater, contaminants can also cause electrical shorts between power pins or terminals. Therefore, it is important to keep lubricants, oils, low-temperature tapes or processing materials out of contact with the lead end of the heater. Employing seals will help.

Tip 2: Protect leads and terminations from high temperatures and excessive movement

Standard fiberglass-insulated lead wire may be used in applications with ambient temperatures up to approximately 260°C (500°F). If a lead is exposed to higher temperatures, high-temperature lead wire or ceramic bead insulation should be used. An unheated section of the heater, extending away from the heated region of the system, enables the leads to run at a beneficially cooler temperature.

When heaters are mounted in moving machinery, it is essential to anchor the leads to prevent them from being damaged. A lead protection option should be specified and used for optimum protection against lead damage.

Tip 3: Heater selection and sizing are important

A heater's wattage should be matched as closely as possible to the application's actual load requirements to limit ON/OFF cycling (see tip 6). For fitted-part applications, specify the hole or an alternative application feature size to ensure an optimal fit between the heater and application feature. A tight fit minimizes air gaps and reduces the instances of hot spotting.

Tip 4: Ground the equipment

It is common sense and safe practice to electrically ground all equipment on which the heater is used. Grounding equipment helps protects plant and personnel in the event of an electrical failure in the heating system.

Tip 5: Regulating voltage ensures the rated heater voltage matches voltage supply

It is essential to ensure a heater's rated voltage matches the available voltage supply because wattage increases (or decreases) at the square of the change in voltage applied to a heater. For example, if a heater is rated for 120V/1000W and is connected to a 240V supply, it will generate four times the rated wattage output or 4000W. This will cause a heater to fail relatively quickly and can also cause significant damage the attached equipment.

Tip 6: Prevent excessive heater cycling

Excessive temperature cycling is very detrimental to the life of a heater. The most detrimental is the cycle rate that allows full expansion and contraction of the heater resistance wire at a high rate (30 to 60 seconds' power ON and power OFF). This causes severe stress and oxidation of the resistance wires inside a heater. A bad temperature cycle is typically found when thermostats are used. Thermostats respond slowly to temperature changes and have large switch ON/OFF temperature differentials. An improvement, but a somewhat more expensive solution, is to use ON/OFF or PID controllers with mechanical relays. It is crucial to not switch the frequency or cycle time too rapidly (somewhere between 3 to 10 seconds), because the relay contacts can wear out quickly.

The most effective way to minimize heater element temperature cycling, and the most expensive solution, is to use solid state relays (SSRs) and SCR power controllers coupled to PID temperature controllers. This combination provides the best performance for both your thermal system as well as for the heater itself. Solid state switching devices cycle power to the heater very rapidly (from one second with a SSR, down to milliseconds with phase-angle fired SCRs). This fast-power cycling dramatically reduces heater element wire temperature excursions and substantially extends heater life.

Tip 7: Ensure that the sheath material and watt density ratings are compatible with the material being heated

This is absolutely critical to ensure long heater life and healthy processing equipment. When heating solids, such as metals, the operating temperature and heater-to-part fit drive sheath material and watt density choices. Carbon steels, aluminum, silicone rubber sheath materials are fine for lower temperatures (a few hundred degrees). However, as temperatures increase beyond this point, sheath material choices become limited to galvanized or stainless steels and other higher temperature metal alloys. As temperature also increases, the watt density must decrease accordingly to prevent internal resistance wires from oxidizing quickly and failing prematurely. A good heater-to-part fit ensures proper heat transfer and does not force the resistance wires to overheat.

When heating gases, the operating temperature and flow rates dictate what sheath material and watt density can be used. For example, you can run higher watt densities when heating hydrogen versus nitrogen, but hydrogen requires Alloy 800 sheaths, whereas 304 Stainless Steel will work for many nitrogen applications.

Increasing flow and turbulence across the heater elements means better heat transfer, which raises watt density values. For liquid heating, the prime driver for materials and watt density selection is the fluid material and flow rate. Water can easily handle 42.52 to 70.87W/cm2 (60 to 100W/in2) using a copper sheath, whereas a 50/50-water/glycol mix can only handle 21.26 W/cm2 (30 W/in2) and must use a steel sheath.

Tip 8: Mount immersion tank heaters horizontally near the tank bottom

Heaters should be placed horizontally and near tank bottoms to maximize convective circulation. Vertical mounting is only advisable when limitations, such as space restrictions, prohibit horizontal placement. Regardless of whether a heater is mounted horizontally or vertically, it is essential to place it high enough to avoid any sludge and debris buildup in the bottom of the tank. Likewise, for both mounting methods, the entire heated length of the heater must be immersed at all times - one reason vertical mounting is rarely recommended. It is also important to avoid placing heaters in restricted spaces that limit convective flow and/or where free boiling or steam traps can occur.

Tip 9: Prevent build-up and sludge on the heater elements

Scale, coking and sludge build-up on heater sheaths must be minimized. Any accumulation should be periodically removed or at least minimized, to avoid inhibiting heat transfer to the liquid. Periodic cleaning prevents heater elements being forced to operate at higher temperatures, which can lead to early heater failure. Extreme care should also be taken to avoid getting silicone lubricant on the heated section of a heater. Silicone will prevent the "wetting" of the sheath by the liquid, act as an insulator, and possibly cause the heater to fail.

Tip 10: Ensure proper, tight temperature control and safety limit protection

Matching the appropriate temperature control system to the heater is imperative to strong heater performance and life. Each process application should, at the very least, include a process temperature sensor (to sense the material being heated) and a limit sensor (to sense the heater sheath temperature). The process sensor should be directly immersed into the material to be heated, or snugly inserted into a thermowell inside the fluid itself. For safety reasons, two separate control systems should be used - one for process temperature control and one for high limit control. PID type process temperature controllers offer more stable control and faster response than ON/OFF switching controls or thermostats. The trade off is that PID control is often more expensive than ON/OFF types and not always necessary for applications that do not require highly accurate temperature control.

Anderson-Bolds

216-360-9800

www.anderson-bolds.com

Watlow Heaters and Controls - Process Technology - Chromalox - Process Heat

Marsh Bellofram Companies

Marsh BellowFram companies sold by Anderson-Bolds

Headquartered in Newell, West Virginia, the Bellofram Group of Companies is an AS9100C and ISO9001:2008 certified leading global manufacturer of high-performance OEM, industrial and process control instrumentation, including timers and counters, digital controllers and panel meters, RTD’s and thermocouples, pressure instruments and gauges, FRLs, cylinders, natural gas and propane pressure regulators, air pressure regulators and transducers, tank and liquid level measurement systems, pump and motor protection switches and alternating relays, as well as sensors, tachometers, rolling diaphragms, and specialty silicones.

Bellofram products are known for their high-accuracy, reliability and dependability within demanding applications, including food processing; plastics; packaging; water treatment; pumps and systems; motors and drives; marine; medical equipment; chemical processing; industrial plants; marine environments; oil, gas and petrochemical pipeline; medical; machinery manufacturing; natural gas and propane line monitoring, among others.

Products are organized and sold under fully dedicated divisions, each staffed with an experienced and highly trained team of fully dedicated technical sales, applications engineering and customer service support personnel. Bellofram divisions include Automatic Timing & Controls, ATC Diversified Electronics, BelGAS,  DigiTec, and King Engineering.

Automatic Timing and Controls

Process engineers and machine designers alike turn to the Automatic Timing & Controls division of Marsh Bellofram (ATC) for their industrial timing and control requirements. These highly rugged, high-reliability products are engineered to provide accurate and repeatable timing and monitoring operations in all types of industrial environments, including factory floor, food processing, plastics, packaging, water treatment and many OEM applications. The ATC product family has recently expanded to include 1/16 DIN timers, electromechanical timers, counters, solid state cube and plug-in 

timers, and time delay relays (TDR).

ATC Diversified Products

For more than 50 years, the ATC Diversified Electronics division of Marsh Bellofram (ATC Diversified) has offered some of the industry’s highest reliability AC current monitors, motor and pump protection, isolated switches and alternating relay products.

As a leader in solid state control products, the division was the industry pioneer in the first Phase Monitor Relay designed to protect 3-phase equipment from adverse conditions such
as Phase Loss (single phasing), Under Voltage (brown-outs), and Phase Reversal (improper sequence).  Continued investment in new product R&D and continuous quality improvements allows the ATC Diversified team to offer market-leading technologies,keeping pace with the needs of an evolving industrial marketplace.

BelGas Regulators

With more than 40 years of proven market experience, the BelGAS Division of Marsh Bellofram Group of Companies is a global leader in the design and manufacture of both high and low pressure, general purpose gas regulators, back pressure relief regulators, flow controllers, manifold systems, instrument air regulators, gauge thermometers, thermowells, needle valves and electronic products for oil, gas and petrochemical (pipeline); industrial plant air and gas regulation; and general industrial pressure and flow monitoring applications.

All BelGAS products are renowned for their high-quality, accuracy and dependability within critical applications.

The DigiTec division of Marsh Bellofram (DigiTec) offers the most complete, customized and versatile line of Digital Controllers in the industry. Reliability is the most important single factor in choosing a digital controller, and DigiTec’s reputation has been built on exactly that. Our products play an integral role in industrial applications including packaging, level flow, weighing, and pumping applications.

Tachometers on the WESTCON line are rugged built to convert rotary speed to a linear output voltage. Tachometers are used widely for aviation, marine, mining, oil and gas production plus other demanding applications.  For other tachometer related products not included here, please visit our Tachometer product section, which details the offerings of Bellofram Group Company ServoTek Products Company, Inc.

King-Gage

Liquid Level Tank Gauging and Compressed Air Filtration

King Engineering designs and manufactures application specific solutions via our KING-GAGE^® liquid level measurement and inventory tank gauging systems. Our company furnishes components for new installations, upgrades, and retrofit applications on storage or processing vessels, including electronic pressure transmitters and sanitary level sensors to meet 3-A standards for clean-in-place applications. We provide graphic tank level indicators, digital processors, and operator interfaces in both single and multiple tank configurations supporting industrial protocols for PLC and/or LAN interfaces to simplify process control integration.

Use our Anderson-Bolds order form.

For timers, meters, regulators, Level control, and monitoring call or contact Anderson-Bolds.

216-360-9800

ATC Power Alert - UPA's ~ Voltage Indication Device

Anderson-Bolds can provide the new ATC Power Alerts.

You can email us a request for quote with this form.

The UPA-100 Power Alert reduces the risk of electrical arc flash by pre-verifying the electrical isolation from outside of a control panel. Hardwired to the circuit breaker or main disconnect, the UPA flashes whenever voltage is present. Engineered with redundant circuitry, the Power Alert is powered by the same voltage that it indicates. The eight detector UPA-100 visually alerts to the presence of dangerous AC or DC (Stored Energy) potentials occurring between any combination of the four monitored input lines (L1, L2, L3, GND).

The UPA 130 Power Alert reduces the risk of electrical arc flash by pre-verifying the electrical isolation from outside of a control panel. Hardwired to the circuit breaker or main disconnect, the UPA flashes whenever voltage is present. Engineered with redundant circuitry, the Power Alert is powered by the same voltage that it indicates. The eight detector UPA-130 visually alerts to the presence of dangerous AC or DC (Store Energy) potentials occurring between any combination of the four monitored input lines (L1, L2, L3, GND).

The UPA 130S Power Alert reduces the risk of electrical arc flash by pre-verifying the electrical isolation from outside of a control panel. Hardwired to the circuit breaker or main disconnect, the UPA lights at a steady statewhenever voltage is present. Engineered with redundant circuitry, the Power Alert is powered by the same voltage that it indicates. The eight detector UPA-130S visually alerts to the presence of dangerous AC or DC (Store Energy) potentials occurring between any combination of the four monitored input lines (L1, L2, L3, GND).

The UPA 13 0DIV 2is Class 3, Division 2 FM approved for use in hazardous environments. The UPA 130 DIV2 Power Alert reduces the risk of electrical arc flash by pre-verifying the electrical isolation from outside of a control panel. Hardwired to the circuit breaker or main disconnect, the UPA flashes whenever voltage is present. Engineered with redundant circuitry, the Power Alert is powered by the same voltage that it indicates. The eight detector UPA-130 visually alerts to the presence of dangerous AC or DC (Store Energy) potentials occurring between any combination of the four monitored input lines (L1, L2, L3, GND).

With nominal 3-phase line voltage applied, a flashing green NORMAL LED gives positive indication of a good fuse and integrity of the wire connection to each side of the fuse. A flashing red FAULT LED gives positive indication of an unconnected or open fuse, or a BFA wiring fault that needs corrected such as a lost connection to either side of the fuse or mismatched line and load wires. When phase loss occurs, both FAULT and NORMAL LEDS will extinguish. The BFA will continue to indicate the status of the fuse during a phase loss if a regenerated voltage is produced on the open phase from a rotating motor.

The ATC Diversified Electronics GFD Series is intended for the use on ungrounded systems to detect and indicate the phase of the first ground fault condition. This enables corrective action to avoid the potential hazards resulting from a second ground fault. With nominal 3 phase line voltage applied, a flashing NORMAL green LED gives indication of a non-fault condition and integrity of the wire connection to the corresponding phase. A flashing red LED gives positive FAULT indication of either a phase-to-ground fault, or a lost connection to the corresponding phase.

SERIES	PART NUMBER	DESCRIPTION	PRICE
UPA-100 Series	UPA-100	Universal Power Alert	$111.00
UPA-100 Series	UPA-WP100	ANSI Warning Plate	$7.00
UPA-130 Series	UPA-130	Universal Power Alert	$111.00
UPA-130 Series	UPA-130S	Universal Power Alert-Solid On	$135.00
UPA-130 Series	UPA-130DIV2	Universal Power Alert- ClassI,Division2	$149.00
UPA-130 Series	UPA-130GOV	Universal Power Alert-Government version	$135.00
UPA-130 Series	UPA-BZL	UPA-130 Flush Mount Kit	$10.00
UPA-100 Series	UPA-WP130	ANSI Warning Plate	$7.00
BFA Series	BFA-100	Fuse Status Indicator	$75.00
BFA Series	BFA-200	Fuse Status Indicator	$75.00
GFD Series	GFD-100	Three Phase Ground Fault Display	$109.00
GFD Series	GFD-200	Three Phase Ground Fault Display	$109.00

Prices as of March 1, 2012 and can change at any time.

Call for prices and delivery. 216-360-9800

www.anderson-bolds.com

SSAC Products

Timer-DOM 100-240VAC/DC 1A DIPsw 1-1023s 2x2

The TDU and KSDU Series are encapsulated solid- state, delay-on-make timers that combine digital timing circuitry with universal voltage operation. The TDU offers DIP switch adjustment allowing accurate selection of the time delay over the full time delay range. The KSDU is factory fixed from 0.1s to 10,230s and does not include the DIP switch. These series are excellent choices for process control systems and OEM equipment

3Ph Voltage Monitor 200-480VAC Adj 8 pin

The PLMU Series continuously measures the voltage of each of the three phases to provide protection for 3-phase motors and sensitive loads. Its microcontroller senses under and overvoltage, voltage unbalance, phase loss, and phase reversal. Protection is provided even when regenerated voltages are present. Universal voltage operation and standard base connection allows the PLMU to replace hundreds of competitive part numbers.

Liquid Level-Drain Dual 120VAC Relay Adj 8Pin

The LLC5 provides dual probe conductive liquid level control in a convenient octal plug-in package. Models are available for fixed fill or drain operation. Isolated, pulsed DC voltage on the probes prevents electrolytic plating. Less than 1 mA of current is used to sense the presence of conductive liquid between the probes and common. On adjustable units, the sensitivity adjustment eliminates false tripping caused by floating debris and foaming agents.

Flasher 120VAC 1A 75 fpm 6 inch wires

The FS100 Series (low amp) may be used to control inductive, incandescent or resistive loads. This series offers a 1A (fullwave) or a 2A (halfwave) steady state, 10A inrush solid-state output and may be ordered with an input voltage of 24 or 120VAC. The FS100 Series offers a factory fixed flash rate of 75 FPM or may be ordered with a fixed, custom flash rate ranging from 45 to 150 FPM.