My electricity provider is not reliable. I own 3 of your towers to heat individual rooms. I have settled on a generator to have when I lose power again. I want to run one of your towers, a light and a radio. The generator is rated 3050/3500watts max with a 7hp gas engine. My concern is start-up power requirements for your tower. I believe that I will be just over 50% on the generator which will give me up to 9hrs between gas fill-UPS. Some things require up to 3 times power draw at start-up which means

Electricity is delivered to consumers through a complex network Electricity is generated at power plants and moves through a complex system, sometimes called the grid, of electricity substations, transformers, and power lines that connect electricity producers and consumers. Most local grids are interconnected for reliability and commercial purposes, forming larger, more dependable networks that enhance the coordination and planning of electricity supply.
In the United States, the entire electricity grid consists of hundreds of thousands of miles of high-voltage power lines and millions of miles of low-voltage power lines with distribution transformers that connect thousands of power plants to hundreds of millions of electricity customers all across the country.

The stability of the electricity grid requires the electricity supply to constantly meet electricity demand, which in turn requires coordination of numerous entities that operate different components of the grid. The U.S. electricity grid consists of three large interconnected systems that operate to ensure its stability and reliability. To ensure coordination of electric system operations, the North American Electric Reliability Corporation developed and enforces mandatory grid reliability standards that the Federal Energy Regulatory Commission (FERC) approved.
The smart grid The smart grid incorporates digital technology and advanced instrumentation into the traditional electrical system, which allows utilities and customers to receive information from and communicate with the grid. A smarter grid makes the electrical system more reliable and efficient by helping utilities reduce electricity losses and to detect and fix problems more quickly. The smart grid can help consumers intelligently manage energy use, especially at times when demand reaches significantly high levels or when a reduced energy demand is needed to support system reliability.
Smart devices in homes, offices, and factories can inform consumers and their energy management systems of times when an appliance is using relatively higher-priced electricity. These alerts help consumers, or their intelligent systems, to optimally adjust settings that, when supported by demand reduction incentives or time-of use electricity rates, can lower their energy bills. Smart devices on transmission and distribution lines and at substations allow a utility to more efficiently manage voltage levels and more easily find out where an outage or other problem is on the system. Smart grids can sometimes remotely correct problems in the electrical distribution system by digitally sending instructions to equipment that can adjust the conditions of the system.
Electricity comes from various sources and types of providers The origin of the electricity that consumers purchase varies. Some electric utilities generate all the electricity they sell using just the power plants they own. Other utilities purchase electricity directly from other utilities, power marketers, and independent power producers or from a wholesale market organized by a regional transmission reliability organization.
The retail structure of the electricity industry varies from region to region. The company selling you power may be a not-for-profit municipal electric utility; an electric cooperative owned by its members; a private, for-profit electric utility owned by stockholders (often called an investor-owned utility); or in some states, you may purchase electricity through a power marketer. A few federally owned power authorities-including the Bonneville Power Administration and the Tennessee Valley Authority, among others-also generate, buy, sell, and distribute power. Local electric utilities operate the distribution system that connects consumers with the grid regardless of the source of the electricity.
The process of delivering electricity The electricity that power plants generate is delivered to customers over transmission and distribution power lines. High-voltage transmission lines, such as those that hang between tall metal towers, carry electricity over long distances to where consumers need it. Higher voltage electricity is more efficient and less expensive for long-distance electricity transmission. Lower voltage electricity is safer for use in homes and businesses. Transformers at substations increase (step up) or reduce (step down) voltages to adjust to the different stages of the journey from the power plant on long-distance transmission lines to distribution lines that carry electricity to homes and businesses.
Evolution of the electric power grid At the beginning of the 20th century, more than 4,000 individual electric utilities operated in isolation from each other. As the demand for electricity grew, especially after World War II, utilities began to connect their transmission systems. These connections allowed utilities to share the economic benefits of building large and often jointly-owned electric generating units to serve their combined electricity demand at the lowest possible cost. Interconnection also reduced the amount of extra generating capacity that each utility had to hold to ensure reliable service during times of peak demand. Over time, three large, interconnected systems evolved in the United States.
U.S. electrical systems are now interconnected Click to enlarge »Local electricity grids are interconnected to form larger networks for reliability and commercial purposes. At the highest level, the U.S. power system in the Lower 48 states is made up of three main interconnections, which operate largely independently from each other with limited transfers of electricity between them.

• The Eastern Interconnection encompasses the area east of the Rocky Mountains and a portion of the Texas panhandle.
• The Western Interconnection encompasses the area from the Rockies to the west.
• The Electric Reliability Council of Texas (ERCOT) covers most of Texas.

The Eastern and Western Interconnections in the United States are also linked with the Canadian power grid. The network structure of the interconnections helps maintain the reliability of the grid by providing multiple routes for power to flow and allowing generators to supply electricity to many load centers. This redundancy helps prevent transmission line or power plant failures from causing interruptions in service to retail customers.
Balancing authorities manage grid operations The three interconnections describe the large-scale physical structure of the grid. The regional operation of the electric system is managed by entities called balancing authorities, which ensure that electricity supply constantly matches power demand. Most of the balancing authorities are electric utilities that have taken on the balancing responsibilities for a specific part of the power system. All of the regional transmission organizations in the United States also function as balancing authorities. ERCOT is unique in that the balancing authority, interconnection, and the regional transmission organization are all the same entity and physical system.
A balancing authority ensures that electricity demand and supply are finely balanced to maintain the safe and reliable operation of the power system. If demand and supply fall out of balance, local or even widespread blackouts can result. Balancing authorities maintain appropriate operating conditions for the electric system by ensuring that a sufficient supply of electricity is available to serve expected demand, which includes managing transfers of electricity with other balancing authorities.
Electric reliability organizations set standards for grid operations Electric utilities are responsible for maintaining the safety of their systems and planning for the future power needs of their customers. Initially, voluntary standards were developed by the electric power industry to ensure coordination of linked interconnection operations. Today, mandatory reliability standards for planning and operating power systems and for addressing security concerns at critical electrical infrastructure are in place. The North American Electric Reliability Corporation and its member organizations developed and enforce these standards, which FERC approved. In Canada, Canadian regulators fill this role.
A smart electricity meter
Source: Stock photography (copyrighted) Challenges facing the power grid Construction of electricity infrastructure in the United States began in the early 1900s and investment was driven by new transmission technologies, central station generating plants, and growing electricity demand, especially after World War II. Now, some of the older, existing transmission and distribution lines have reached the end of their useful lives and must be replaced or upgraded. New power lines are also needed to maintain the electrical system's overall reliability and to provide links to new renewable energy generation resources, such as wind and solar power, which are often located far from where electricity demand is concentrated.
Several challenges exist for improving the infrastructure of the grid:

• Siting new transmission lines (getting approval of new routes and obtaining rights to the necessary land)
• Determining an equitable approach for recovering the construction costs of a new transmission line built in one state when the line provides benefits to consumers in other states
• Addressing the uncertainty in federal regulations regarding who is responsible for paying for new transmission lines, which affects the private sector's ability to raise money to build transmission lines
• Expanding the network of long-distance transmission lines to renewable energy generation sites where high-quality wind and solar resources are located, which are often far from where electricity demand is concentrated
• Protecting the grid from physical and cyber attacks

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Solar generators produce electricity which is proportional to how much money you have.

You didn't say whether it is a piezo-electric spark generator or whether it is battery-driven?

Piezo-electric is usually fairly reliable in operation but has gone out of fashion somewhat because it generates only one spark at a time which often does not provide reliable ignition.

Battery driven ignition systems provide a much more reliable ignition as they produce many really good sparks. The ones I have encountered operate from a single 1.5 volt battery which is adequate for the task as long as there are no poor connections and a good current supply is available to the spark generator.
Unfortunately the cooking environment is not conducive to keeping things clean and grease can penetrate the push-button, the battery compartment and connections and grease and carbon can impregnate the insulators causing a short-circuit.

Mostly in my experience these ignitions work great when new but soon lose efficiency and stop working. The one on our cooker soon became almost a hobby needing fiddling around with so often before it would work that we now use matches. The cooker before last also had the same story...

DIRECT HEAT METERING The direct metering is the most accurate and reliable system for measuring the amount of energy used by individual households for heating their homes. The solution is applicable only in heat systems with horizontal distribution pipes network or areas in which the heat transfer fluid is distributed to individual apartments or to industrial plants, by district heating or by an individual central unit servicing more buildings. The system is composed by a thermal energy meter, a motorized valve controlled by a programmable thermostat located inside the apartment, in this way the user can adjust the temperature of the household and determine the hours of heating being able to manage the system according to his specific needs. .

INDIRECT HEAT METERING The indirect metering is applied to the plants where the distribution of the heat transfer fluid is achieved through risers, which means that the pipes of fluid flowing through the radiators of the single apartments have more points adrift from the main system (risers) that feed the individual radiators, making it difficult to measure the flow rate of fluid that enters the apartment. For simplicity we use the example of a riser which feeds the radiator of a room and at the same time also the counterpart room located on the upper floor. In this case, the use of individual devices, defined as heat cost allocators, installed on each radiator within individual apartments allows to avoid the unfair solution for which heating costs are allocated in accordance with the size of the apartment. Based on the operating parameters of the radiator itself it is calculated, in an indirect way, the amount of heat that the radiator releases into the environment. The sum of the readings of all the radiators provides the total consumption of the apartment and, with all apartments equipped with devices set with homogeneous parameters, you can proceed with the allocation by individual apartment of the centralized system total heating costs.

first check the circuit breakers if there ok the problem is inside like over heated parts

Low frequency means the RPM of the motor has fallen off.

Check your fuel is NOT contaminated or fuel filters plugged.

Further tests should focus on the govenor system. Possibly it fails when engine gets hot. the frequency is directly proportional to the engine speed.

if the generator has been sitting for a while you might have to excite the magnets to start producing power. plug in a reversible drill and with the generator running turn the drill in the reverse direction by hand while holding the trigger in the forward position.