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energypowersaver · 1 year

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In-Home Display Devices

In-home display devices provide real-time energy usage and consumption cost feedback. They help Victorian households become more aware of their energy usage habits and facilitate energy savings.

It connects to your smart meter and shows you current electricity and gas consumption in both kWh (kilowatt hours) and pounds and pence. It also lets you know how much credit you have. To know more about In Home Display Device, visit the Energy Power Saver website or call 69650912468.

Real-time energy usage is becoming more common in Australia, thanks to smart meters - the latest generation of electric meters that can track your electricity use digitally every 30 minutes. They can also send that data to your retailer so you can see the cost of your electricity in real-time.

To see this information, you need an in home display device NSW that connects to your smart meter and displays it in a clear and concise way. These devices are easy to install, require no wiring and have a variety of uses, from displaying energy cost data to letting you know when one price period ends and another begins.

Alternatively, there are some smart energy monitoring apps that you can download to your smartphone that also display real-time data on your power consumption. These will reveal any patterns or outliers, so you can make sure your appliances aren't guzzling up the most power at peak times.

Time-of-use tariffs are an option that can help you reduce your energy costs. These rates apply when your smart meter registers energy usage during off peak periods, such as overnight or on weekends.

In New South Wales, energy distributors can offer a time-of-use rate to households that have smart meters. However, these time-of-use tariffs are not always as cost-effective as they seem.

For example, if you live in New South Wales and want to save money on your power bill, you would have to drastically shift your energy usage towards off-peak times. You would need to move most of your electricity use into off-peak hours between 10pm and 7am to see any real savings.

This is why it’s important to understand your electricity retailer’s time-of-use tariff and the different usage rate times. You can find information about your state’s or region’s time-of-use tariff on the Energy Made Easy website. It includes a list of distribution networks and the default usage rate times for each.

Submetering is the monitoring and billing of utility consumption on a unit basis for residential or commercial premises. It is particularly useful for apartment buildings, office parks, shopping malls and other multi-tenant premises where the cost recovery of energy consumption by tenants can be improved with an accurate and reliable metering and billing process.

In New South Wales, submetering has become more popular as a means of promoting energy conservation among building residents. By installing a submeter at each tenant’s unit, landlords can be assured that tenants are only paying for their own usage and do not pay extra for the consumption of other units or the common areas.

Remote monitoring is a type of technology that allows you to monitor your devices remotely. This includes everything from battery banks to photovoltaic arrays, and can be used to help you determine whether a system is performing correctly or not.

In the United States, remote patient monitoring (RPM) is a relatively new service that helps healthcare providers better understand their patients’ health status and symptoms. It also allows patients to share their vital signs with doctors from the comfort of their homes. To know more about In Home Display Device, visit the Energy Power Saver website or call 69650912468.

Remote patient monitoring is a smart choice for many different reasons, including its ability to reduce costs and improve outcomes. It can also help patients with chronic or complex illnesses get the care they need.

#power saver electricity #saver electricity #energy efficient govt scheme #energy efficient heating and cooling system #electricity saver #Victorian energy saving scheme #in home display device #energy efficient shower head #energy efficient hot water system

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jupitersolar · 2 years

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Solar water heater 100 ltr price in Bangalore

Solar water heater 100 ltr price in Bangalore, You should know about solar power first before going for any solar thermal system. Solar thermal system is based on the principle of converting sunlight into hot water (or steam) for use in heating homes and buildings. Solar water heating systems, commonly called solar hot water systems, convert the sun's rays into energy using a black-body absorber located inside a glass collector. When the temperature drops below, however, the efficiency decreases rapidly. Most solar thermal collectors have a maximum working temperature . To install a Solar water heater 100 ltr price in Bangalore, contact Jupiter Solar , www.jupitersolars.in .

What Is A Solar Water Heater?

What Is A Solar Water Heater?,a solar water heater is a device that converts solar energy into useful heat. These devices utilize the power of the sun to create a warm liquid that can then be applied to our homes and businesses. In effect, a solar water heater is similar to a conventional electric water heater; however, instead of electricity, sunlight does the work. Our bodies need water to survive and if we do not drink enough water, we become dehydrated. If we live in a desert area where there may not be much access to fresh drinking water, having access to heated water would be helpful. Thus, a solar water heater could be a cost effective and environmentally friendly alternative.Buy solar water heater , contact Jupiter Solar , www.jupitersolars.in .

How Does Solar Power Work?

Solar powered water heaters make use of the sun's heat and convert it directly into usable hot water. There are several different types of solar water heaters depending on the desired output. The two basic designs are a direct (concentrating type) and indirect (reflecting type). Direct solar water heaters focus the sun's rays onto copper tubes , while indirect solar water heaters reflect the sunlight back towards the tubes. Both of these types of units produce hot water at high efficiencies, although the concentrating type has higher operating costs.

https://jupitersolars.in/faq.php

Cost And Efficiency Of Solar Water Heaters

To calculate how much you might save with a solar water heater, you'll need to determine the size and capacity of your current system along with an estimate of the total annual usage. Next, you'll need to figure out how much electricity you currently spend on your utility bill. Then simply divide those figures together. Your savings are determined by dividing the difference between your estimated monthly expenses and what you'd pay by the amount of energy your solar water heater produces. Let's assume you're saving $40 per month on your utility bills - that equals $480 annually. To calculate the approximate number of gallons of hot water produced by your existing system, multiply the volume of your tank by the average flow rate. Once again, let's say you have 5 gallons of storage capacity and your current flow rate is 10 gallons per day. That means you're producing 500 gallons of hot water each year. Divide that by 12 months to find your monthly consumption. Now subtract both the $240 annual savings and the $500 annual production from the $960 total cost of your present system. What's left over is how much money you stand to save by switching to a solar water heater.

Size And Capacity

You'll want to consider the size and capacity of the solar water heater you plan to install before making a decision. Many manufacturers offer models ranging from 100 litre to 200 solar water heaters. The larger the system, the greater the potential savings. Smaller systems can be installed outside while larger ones may requires a free standing structure . A good rule of thumb is to buy the largest solar heater unit possible. Keep in mind that the size of your home or business building will affect the size and weight of your solar water heater. Obviously, larger homes and buildings require bigger and heavier units.

Installation

Most solar water heaters are preassembled and ready to go once you've purchased them. However, they do require some installation work. After placing the solar heater unit in its final location, you'll need to add the hardware. Finally, fill the reservoir with water. Depending on where you live, the process may take a few hours before you start receiving hot water.

Maintenance

Solar water heaters don't require very high maintenance once they've been installed. You won't need to worry about replacing the elements until the solar water heating units are working or cleaning the panels since their performance will remain unchanged. However, you may want to clean the surface of the black-body absorbers every so often. Fortunately, they are easy to remove and replace. Also, remember to keep your unit clear of debris such as snow and leaves.

Water Heater

Water heating systems are used to warm water for bathing, cooking, washing purposes, etc. A solar water heater uses solar power to heat the water directly without using any fuel. In some cases, they use a storage tank where hot water is stored until required. These tanks are filled once a day and then heated by the sun. Heating water by boiling is considered efficient since many percentage of the energy goes . Solar water heaters, however, convert this thermal energy into electricity . Energy efficiency is thus increased. Other types of water heaters are gas-based, electric ones.

Storage Tank

The storage tank is the place where hot water is kept. When the temperature drops below a certain level, the pump sends water back to the boiler. Another type of storage tank is the closed loop system where water circulates continuously between the boiler and the tank.

Boiler

A boiler is a device that takes water at room temperature and heats it to high temperatures. Once the water reaches these high temperatures, it is sent to a tank where the excess heat is removed and converted to useful energy. Depending on the size of the boiler, it may need to have a fan inside to remove extra heat. The fan can either run constantly or only while the water is being pumped.

Pumping System

Pumping systems move water from one point to another. There are many different pumps, but some of the most common ones include centrifugal, screw, and piston pumps.

Electric Motor

Electric motors are the devices that turn the mechanical energy of steam or electrical energy into kinetic energy. An electric motor uses electric current to create rotating force. The rotor spins within the stator, converting it to rotary motion. The electric motor converts electrical energy into rotational energy which is then transferred to the shaft turning the impeller blades.

Impeller Blades

Impellers are the blades that are attached to the shaft. To improve efficiency, the blades spin faster by increasing RPM (revolutions per minute). The higher RPM increases the pressure of the water pushing it outward forcing it to flow around the outside of the impeller blades. This helps the water leave the impeller blades in a continuous stream and exit the unit.

Air Pump

Air pumps help move air across surfaces, keeping them clean and preventing mold and bacteria buildup. Air pumps are often used in air conditioning units to move cool air over coils and condensers.

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myomaustralia · 3 months

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Enjoying Energy Efficiency with Government Free Hot Water Systems in Victoria through MYOM Australia

For residents in Victoria seeking to save on energy costs while embracing sustainable living, MYOM Australia offers an enticing opportunity: Government Free Hot Water Systems. This initiative, supported by the Victorian Government, aims to make energy-efficient hot water systems accessible to households, helping them reduce their carbon footprint and lower their utility bills.

Hot water systems are among the largest energy consumers in a household. By upgrading to a more efficient system, residents can significantly cut down on their energy usage and costs. MYOM Australia, as an accredited provider of this program, ensures that residents can take full advantage of the benefits offered.

The Government Free Hot Water Systems in Victoria program allows residents to enjoy the latest in energy-efficient hot water technology at no cost. MYOM Australia handles the installation process, making it hassle-free for residents. This includes the removal of old, inefficient systems and the installation of modern, eco-friendly alternatives.

With a new energy-efficient hot water system from MYOM Australia, residents can enjoy not only savings on their energy bills but also a more reliable and environmentally friendly solution. These systems are designed to operate efficiently, ensuring hot water is available when needed while reducing wastage.

Moreover, by reducing energy consumption, residents contribute to a greener environment and help in the fight against climate change. The Government Free Hot Water Systems program is not only about saving money but also about making a positive impact on the planet.

In conclusion, MYOM Australia's Government Free Hot Water Systems program is a win-win opportunity for residents in Victoria. By upgrading to energy-efficient hot water systems, households can enjoy significant savings on their energy bills while also contributing to a more sustainable future. Contact MYOM Australia today to learn more about how you can benefit from this program and start enjoying energy-efficient hot water.

Myom Australia3-5 Bernard St, Mount Waverley, VIC, 3149, [email protected] 9017 5799https://www.myomaustralia.com.au/

#energy #efficiency #hot water system

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hitechhotwater · 4 months

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#heat pump rebate victoria #heat pump hot water rebate victoria #heat pump hot water system rebate victoria #victoria hot water rebate #government rebate on hot water systems victoria #heat pump rebates victoria #victorian energy efficiency certificates #veec rebate #victorian energy upgrades hot water #stc rebate Victoria.

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reasonsforhope · 2 months

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"Heat stored underground in caverns can be set aside in Finland’s summer months to be re-used during frigid winters thanks to a state-of-the-art ‘seasonal energy’ storage facility.

Slated for construction this summer near Helsinki, it will be the largest in the world by all standards and contain enough thermal energy to heat a medium-sized city all winter.

Thermal exchange heating systems, like those built underground, or domestic heat pumps, are seen as the most effective way available of reducing the climate-impact of home heating and cooling.

Their function relies on natural forces or energy recycling to cool down or heat up water and then using it to radiate hot or cold energy into a dwelling.

In Vantaa, Finland’s fourth largest city neighboring the capital of Helsinki, the ambitious Varanto seasonal energy storage project plans to store cheap and environmental friendly waste heat from datacenters, cooling processes, and waste-to-energy assets in underground caverns where it can be used to heat buildings via the district heating network whenever it is needed.

In Finland and other Nordic countries, the heat consumption varies significantly between seasons. Heat consumption in the summertime is only about one-tenth of the peak load consumption during the cold winter months.

Varanto will utilize underground caverns equal in space to two Maddison Square Gardens—over a million cubic meters—filled with water heated by this waste heat and pressure that will allow the water to reach temperatures of up to 300 degrees Fahrenheit without the water boiling or evaporating.

youtube

“The world is undergoing a huge energy transition. Wind and solar power have become vital technologies in the transition from fossil fuels to clean energy,” says Vantaa Energy CEO Jukka Toivonen.

“The biggest challenge of the energy transition so far has been the inability to store these intermittent forms of energy for later use. Unfortunately, small-scale storage solutions, such as batteries or accumulators, are not sufficient; large, industrial-scale storage solutions are needed. Varanto is an excellent example of this, and we are happy to set an example for the rest of the world.” ...

“Two 60-MW electric boilers will be built in conjunction with Varanto,” adds Toivonen. “These boilers will be used to produce heat from renewable electricity when electricity is abundant and cheap. Our heat-producing system will work like a hybrid car: alternating between electricity and other forms of production, depending on what is most advantageous and efficient at the time.”

... Construction of the storage facility’s entrance is expected to start in summer 2024, while it could be operational as early as 2028."

-via Good News Network, April 12, 2024. Video via VantaanEnergia, March 10, 2024

#solarpunk #heat pump #renewable energy #heating #finland #energy transition #climate change #climate hope #good news #hope #helsinki #clean energy #Youtube

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notallsandmen · 1 year

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for the WIP game: you know I'm obsessed with Hob titty fucking, I think everyone else should be too

It was a sveltering London summer day. Hob nearly passes out on the bus home, and he has to stand in the shower for half an hour to cool down.

It didn’t use to be this fucking hot. So much had changed in just a few centuries, and not for the better.

But something as petty as cataclysmic global warming was apparently not enough to stop Dream from popping by for a cheeky afternoon shag: only giving Hob a salutary little bow and a wry half-smile before practically tackling him into bed. Dream’s clothes had melted away with Hob’s remaining resolve; now, they were naked and panting into each other’s mouths. Dream’s damn smirk was somewhat undermined by the rosy-dawning blush spreading from his cheeks all the way down to his navel. Hob had tried to be pragmatic and suggest that they could take this to the Dreaming instead, but apparently Dream was barred due to similar overheating issues, so they were stuck here now. Quite literally — it feels heretical, the way Hob’s sweaty skin cloys for Dream’s sultrily temperate skin.

Hob presses his entire face into Dream’s cool chest and groans so loudly, he can feel it rattle through Dream’s ribcage.

“Are you well, little darling?”

Out of the corner of his eye, Hob can see the onyx-lacquered nail tracing orbits into the Hob’s furred thigh.

“I know I have had a penchant for hyperbole in the past. But I’m actually dying. The heat, Dream. The fucking heat.”

Dream nods slowly, as if Hob was just randomly listing the physical properties of their environment, like a rambling toddler losing the thread of the story they’re telling.

It would be condescending if it wasn’t so maddeningly arousing. Hob might have a problem.

“Would you prefer not to have sex, so as to not risk your body over-heating?”

“Would I…?”, Hob chuckles exasperatedly.

“No I would obviously not prefer that, because I’ve evidently lost every remaining survival instinct from disuse.”

He pauses to empty the glass of water on his bedside table.

“Oi, Pillow Prince of Stories — you could be on top, for once, seeing as you’re not as affected by the heat as I am.”

The way Dream solemnly nods, resigning himself to his tragic fate, to again be saddled with the crushing duty of “having to do any work in bed except for coming”, was frankly so adorably melodramatic that the end of Hob’s sentence trailed out into a sputter.

“Fine, fine, if you’re going to pout about it, I yield.”

Still straddling Dream, Hob closes his eyes and tries to estimate what he could realistically be able to perform without ruining the afterglow with fainting salts.

Only now does Hob register the way he was unconsciously dragging his cock over Dream’s blessedly cool chest.

Well, that’s a thought.

Hob can’t deny that he descends into a heart-eyed mess every time he witnesses Dream laying eyes on his own chest hair; making a content little hum as his nimble fingers card through the coarse pelt like a homecoming.

But the idea of doing this, to rut against Dream’s silky-smooth chest, to come all over —

”Hob? Are you having a heat-stroke? Should I consult a physician?”

Dream’s brows furrow in concern, and Hob feels a bit high-maintenance with his autonomic nervous system baggage and everything.

”Like this?”

It was meant to be suggestive, but Hob feels himself sheepishly flush when his voice comes out as a dry croak.

It was hardly the most energy-efficient position, given the heat.

But as a bead of sweat falls from Hob’s temple down onto Dream’s throat, trickling down his breastbone, Hob realizes that he wouldn’t be able to get it out of his head, now.

Right — it’s settled. Hob needs to fuck Dream’s tits.

Dream looks down at himself, and then back up at Hob in confusion, pressing two fingers against Hob’s wrist where they grasp his hips, not very discreetly checking his pulse. Dream’s concerns were evidently soothed enough to plummet him back into his ordinary state of perplexed feline imperiousness, scoffing:

”Why would you want that?”

“Why?”, Hob laughs, a little maniacally. As if it would be a hardship. As if he’s not already smearing a drop of pre into the tuft of hair on Dream’s chest.

”Let me show you why.”

Continue to read:

#thank you my darling #it is almost finished #time to release the slick seal into the wild #this wip has gotten away from me #dreamling #my dreamling writing #non-pen challenge

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visit-new-york · 11 months

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New York City steam system

Exploring the Iconic Steam Heating System in New York City

Join us on a fascinating journey through the streets of New York City as we unravel the secrets behind its unique steam heating system.

In this post, we delve into the historical significance and continued usage of steam heating in the bustling metropolis. Discover why steam vents dot the sidewalks, releasing wisps of steam into the air. Find out if steam is still the primary source of warmth for the city's diverse range of buildings.

We take you behind the scenes to uncover the inner workings of the steam system, revealing where and how steam is generated in NYC. Learn about the central steam plants that produce the heat and power the iconic radiators found in countless apartments and offices.

Curious about the efficiency and environmental impact of steam power? We explore its advantages and disadvantages, discussing its sustainability and comparing it to other heating methods like forced air and electricity.

Ever wondered why NYC radiators feel scorching hot or why they sometimes emit mysterious ringing sounds? We've got the answers! Gain insights into the inner workings of NYC apartment radiators and the science behind their heat distribution.

Finally, we address practical concerns, such as the safe distance between curtains and radiators and the potential disadvantages of steam power in New York. Get expert tips and advice on how to maximize comfort and safety in steam-heated environments.

Whether you're a New Yorker interested in your city's rich history or simply fascinated by the engineering marvels that keep the Big Apple warm, this post is a must-read. Join us on this captivating exploration of steam heating in New York City and unlock the mysteries of this iconic system.

Why are there steam vents in New York? Steam vents, also known as steam chimneys or manholes, can be found throughout New York City because they are part of the extensive underground steam distribution system. These vents release excess steam and pressure from the underground steam pipes that provide heating to buildings.

Does New York still use steam heating? Yes, New York City still relies on steam heating to this day. The steam system is one of the oldest and largest district heating systems in the world, providing heat to thousands of buildings throughout the city.

Where is NYC steam generated? NYC's steam is generated at several centralized steam plants. Con Edison, the energy company responsible for the steam system, operates these plants. The major steam plants are located in Manhattan, with others scattered across the other boroughs.

How are NYC buildings heated? Many buildings in New York City are heated using the steam distributed through underground pipes. The steam enters buildings and flows through radiators or heat exchangers to provide heat.

Why are NYC radiators so hot? NYC radiators can feel very hot because they receive high-pressure steam directly from the underground steam pipes. This steam releases its heat into the radiators, making them feel hot to the touch.

How does steam heat work in NYC? Steam heat in NYC operates through a district heating system. Steam is produced at centralized plants and then distributed through a network of underground pipes to individual buildings. The steam enters buildings, heats radiators or heat exchangers, and then condenses back into water, which is returned to the steam plant to be reheated.

Is NYC steam efficient? The NYC steam system is considered relatively efficient because it utilizes waste heat generated by electricity production. The steam plants use this waste heat to produce steam, making it a more efficient process than standalone boilers in individual buildings.

How is steam made in New York? Steam is made in New York by heating water to a high temperature, turning it into steam. The process typically involves burning fuel, such as natural gas or oil, to generate the heat needed to produce steam.

How do NYC apartment radiators work? NYC apartment radiators work by allowing steam to enter them through control valves. As the steam passes through the radiator, it releases its heat, warming up the surrounding air in the apartment.

Is steam heating better than forced air heating in New York City? Both steam heating and forced air heating have their advantages and disadvantages. Steam heating can be more effective in older buildings with existing steam systems, providing consistent heat and requiring less ductwork. Forced air systems, on the other hand, can provide both heating and cooling and are easier to retrofit in newer constructions.

How are buildings heated by steam in New York? Buildings in New York are heated by connecting to the city's steam distribution system. The underground steam pipes deliver the steam to the buildings, and from there, it is used to heat the interior spaces.

Is steam better than electricity in New York? The choice between steam and electricity depends on various factors, including the building's infrastructure, energy efficiency goals, and cost considerations. NYC's steam system is advantageous because it utilizes waste heat, which makes it relatively efficient compared to standalone electric heating systems.

Why are the radiators ringing in New York? Radiators in NYC can sometimes produce a ringing or clanging noise. This noise is often caused by the expansion and contraction of the metal as it heats and cools. It can also be due to air trapped in the system, causing steam to condense rapidly and create noise.

What is the disadvantage of steam power in New York? One disadvantage of the steam system in NYC is that it requires a complex network of underground pipes, which can be costly to maintain and repair. Additionally, steam heating may not be as efficient as other modern heating methods in certain circumstances.

Why is steam so much cheaper in New York? Steam in New York can be relatively cheaper because the city's steam system is fueled by waste heat from electricity generation. This waste heat would otherwise be released into the atmosphere, but instead, it is utilized to produce steam, making it a cost-effective energy source.

Why is steam so much better in New York? Steam is advantageous in New York because of the city's existing infrastructure and the availability of waste heat for steam generation. The extensive steam system provides efficient heating to a large number of buildings.

Is steam power clean in New York? Steam power in New York is considered relatively clean compared to conventional power plants because it utilizes waste heat, reducing the overall environmental impact. However, the burning of natural gas or oil to produce steam still contributes to greenhouse gas emissions.

Is steam power green in NYC? While NYC's steam power is greener compared to traditional fossil fuel power plants, it is not entirely green. The use of natural gas or oil in steam generation results in greenhouse gas emissions. Truly green energy sources are those that rely on renewable energy like solar, wind, or hydro power.

Is steam more efficient than hot water in New York? Steam and hot water heating systems each have their strengths and weaknesses. Steam systems tend to be more efficient in older buildings with existing infrastructure, while hot water systems can be more efficient in newer constructions.

Can curtains touch steam radiators in NYC? It is generally not recommended to let curtains or any other flammable materials touch steam radiators in NYC or anywhere else. Steam radiators can become very hot and could potentially cause a fire if they come into direct contact with combustible materials. It's essential to maintain a safe distance between curtains and radiators to prevent accidents.

#new york #newyork #new york city #new-york #ny #nyc #city #urban #manhattan #usa #United States #buildings #travel #journey #outdoors #street #architecture #visit-new-york.tumblr.com

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rjzimmerman · 1 month

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Excerpt from this Op-Ed from the New York Times:

To keep the lights on, many utility companies are proposing to build dozens of new power plants that burn natural gas. North Carolina-based Duke Energy alone wants to add 8.9 gigawatts of new gas-fired capacity — more than the entire country added in 2023. Using their own projections of soaring energy demands as justification, these companies are also pushing back on the climate targets set by their states and the Biden administration.

If state regulators sign off on these plans, they will be gambling with our country’s future. We need to electrify everything from cars to appliances to slow climate change, but we won’t be able to reach our climate goals if we power all of those machines with dirty energy.

There is a better way. But to get there, legislators will need to overhaul the incentives driving utilities to double down on natural gas, so that they can turn a profit without cooking the planet.

Companies like Duke, Dominion Energy and Georgia Power argue that they need more gas-fired plants to reliably provide power during times of peak demand — for instance, on a hot summer weekday afternoon when home cooling systems and data servers are all humming at maximum output, and the grid strains to keep up. But those peaks tend to materialize only for a few dozen hours per year, and there are ways to deal with them that don’t require a massive amount of new methane-burning infrastructure.

The real reason the utilities want to build these plants is quite simple: The more stuff they build, the more money they make. Regulators let utilities charge their customers enough money to cover what they spend on assets like combustion turbines and wires, plus a generous rate of return (up to 10 percent) for their investors. This longstanding arrangement incentivizes power providers to build expensive things whether society needs them or not, in lieu of lower-cost, cleaner options, and to invoke their duty to keep the lights on as a post hoc rationalization.

Fortunately, utilities have plenty of ways to meet this new need.

They include “virtual power plants” — when technologies such as home batteries, rooftop solar systems, smart water heaters and thermostats are linked together and managed via software to provide the same services as a conventional power plant. Utilities in Vermont, Colorado and Massachusetts are already using them, to quickly respond to rising demand at a much lower cost than operating natural gas combustion turbines. According to one estimate, virtual power plants could lower U.S. utilities’ costs by as much as $35 billion over the next decade.

Utilities could also accelerate efforts to replace outdated transmission lines with newer ones that can carry double the electric current and to bring more battery storage online. They can compensate customers for using less energy during times when demand is high and invest far more in energy efficiency, helping customers to adopt devices that use less electricity.

All of these solutions would save customers money and reduce carbon emissions. They could, according to a Department of Energy analysis, meet the entire projected growth in U.S. peak electricity demand over the next decade.

#electric utilities #energy efficiency

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tubetrading · 3 months

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The Heart of Boiler Systems: Exploring the Role of IBR Fitting and Flanges

Boiler systems serve as the backbone of numerous industrial processes, powering everything from heating and hot water supply to steam generation in various manufacturing operations. Within these systems, ensuring safety, efficiency, and reliability is paramount, and this is where IBR (Indian Boiler Regulations) fitting and flanges play a pivotal role. As a trusted distributor in Vadodara and a leading dealer in Gujarat, Tubetrading is dedicated to providing top-quality IBR fitting and flanges to industries across the region. In this blog post, we'll delve into the significance of IBR fitting and flanges in boiler systems, explore their crucial functions, and highlight the expertise of Tubetrading in supplying these essential components.

Understanding IBR Fitting and Flanges

IBR fitting and flanges are integral components of boiler systems that ensure seamless operation and compliance with safety standards mandated by the Indian Boiler Regulations. These regulations are designed to safeguard the integrity of boiler components, prevent accidents, and promote efficient energy utilization. IBR fitting and flanges are manufactured according to stringent specifications outlined by the IBR to guarantee durability, reliability, and performance in demanding industrial environments.

The Role of IBR Fitting and Flanges in Boiler Systems

1. Pressure Regulation: IBR fitting and flanges are designed to withstand high-pressure environments commonly found in boiler systems. They play a crucial role in regulating and controlling the flow of fluids, gases, and steam within the system, ensuring optimal pressure levels for efficient operation.

2. Sealing and Joint Integrity: Proper sealing and joint integrity are essential to prevent leaks and maintain the integrity of boiler systems. IBR fitting and flanges are equipped with robust sealing mechanisms, such as gaskets and O-rings, to create a tight seal between interconnected components, minimizing the risk of leaks and ensuring system integrity.

3. Connection and Interoperability: IBR fitting and flanges serve as connection points between various components of boiler systems, including pipes, valves, and vessels. Their standardized dimensions and configurations enable seamless interoperability, facilitating efficient assembly, maintenance, and repair of boiler systems.

4. Compliance and Certification: Compliance with IBR regulations is mandatory for all boiler components used in India. IBR fitting and flanges undergo rigorous testing and certification processes to ensure compliance with safety standards and regulatory requirements, providing peace of mind to industries reliant on boiler systems.

Tubetrading: Your Trusted Supplier of IBR Fitting and Flanges in Gujarat

As a reputable distributor and dealer of IBR fitting and flanges in Vadodara and Gujarat, Tubetrading prides itself on delivering superior-quality products and exceptional service to its customers. Here's why industries trust Tubetrading for their IBR fitting and flanges needs:

1. Extensive Product Range: Tubetrading offers an extensive range of IBR fitting and flanges, including elbows, tees, reducers, bends, and flanges in various sizes, materials, and specifications. Whether you need standard or customized components, we have the expertise and resources to meet your requirements.

2. Quality Assurance: At Tubetrading, quality is our top priority. We partner with reputable manufacturers who adhere to strict quality control measures and comply with IBR regulations. Our products undergo thorough inspection and testing to ensure they meet the highest standards of performance, reliability, and safety.

3. Expert Guidance: With years of experience in the industry, the team at Tubetrading possesses in-depth knowledge of IBR fitting and flanges and their applications in boiler systems. We provide expert guidance and technical support to help our customers select the right components for their specific needs, ensuring optimal performance and efficiency.

4. Timely Delivery: We understand the importance of timely delivery to our customers' operations. With our efficient logistics network and inventory management systems, we strive to fulfill orders promptly and ensure on-time delivery of IBR fitting and flanges to our customers across Gujarat.

Conclusion

In conclusion, IBR fitting and flanges are the heart of boiler systems, playing a critical role in ensuring safety, efficiency, and compliance with regulatory standards. As a trusted distributor and dealer in Vadodara and Gujarat, Tubetrading is committed to supplying top-quality IBR fitting and flanges to industries across the region. With our extensive product range, quality assurance, expert guidance, and timely delivery, we are your reliable partner for all your IBR fitting and flanges needs. Contact Tubetrading today to learn more about our products and services and discover how we can support your boiler system requirements.

#IBR Fitting and Flanges distributor in Gujarat #IBR fitting and flanges distributor in Vadodara #IBR fitting and flanges dealer in Gujarat #IBR fitting and flanges #Gujarat #Maharashtra #Rajasthan #Madhya Pradesh #Daman #Uttar Pradesh

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gearsandbranches · 3 months

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How is electricity actually made? - The Rankine Cykle

What do biomass power plants, coal power plants, concentrated solar power plants, nuclear power plants and dry steam geothermal power plants have in common? The Rankine Cykle.

When I learned about this system, the first question that I asked myself was "how can it be that this is the first time I´m learning this", because it´s such an important element to electricity production. It made me realize that I actually don´t know how electricity is produced, for example in a coal power plant, or in a nuclear power plant, or in a biomass power plant. And the answer is... We cook water.

Okay, it´s not quite that simple, but also not a lot more complicated. Let´s look at it in detail:

(Source: S.Peake (2018): Renewable Energy. Power for a sustainable future. 4th edition. Oxford University Press.)

The first step is the pump. Here, water gets pumped into the system. The water gets pumped into a steam boiler where it gets cooked, so turned into pressurized steam. And that´s what the energy source is for! Be it coal, nuclear, biomass, solar, it´s used to heat water. This pressurized steam is then led through a steam turbine, which generates electriycity. The now low pressure vapour (which is still very hot) is lead through a condenser, to be turned back into water, which then reenters the cykle. Since the cooling water in the condenser is warmed up during the process, it can be user for district heating, which preserves some of the energy that isn´t being used in the steam turbine.

The whole process is not perfect, the level of efficiency which we used to calculate with in our classes and which is for example given for nuclear power plants here is about 33%. That means that only one third of the energy that is used for heating the water is actually turned into electricity. It gets a bit better if you use the residual heat for district heating, but the rest of the energy is lost. The system works essentially the same for everything you burn to produce heat, coal, biomass etc. It works a bit different for nuclear, where it´s the excess heat of the nuclear fission producing the heat, and in concentrated solar power plants, the heat from the sun melts salt, which is then used to produce stem. This enables the solar power plant to produce electricity even at night, since the salt can keep the heat for a few hours.

I think in order to decide which kind of energy production we should be using, it is important to know how they work. I was surprised how little I knew about the Rankine cycle as the general principal of energy production and I hope that I can spread the knowledge a little bit further.

Source: Source: S.Peake (2018): Renewable Energy. Power for a sustainable future. 4th edition. Oxford University Press. Pages 33-35.

Rankine Cycle - Steam Turbine Cycle | Characteristics | nuclear-power.com

#environmentalism #science #climate change #climate action #rankine cykle #physics #energy production #clean energy #renewable energy #fossil fuels #climate crisis

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energypowersaver · 1 year

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Choosing an Energy Efficient Shower Head NSW

Choosing an energy efficient shower head NSW is a simple way to conserve water and reduce your monthly water and energy bills. They are available in a range of designs to suit any bathroom.

Water efficiency labels are required on all showerheads sold in Australia under the national water efficiency labelling and standards (WELS) scheme. The label includes a flow rate and a star rating. To know more about Energy Efficient Shower Head, visit the Energy Power Saver website or call 69650912468.

One of the main factors that determine water usage is flow rate. A lower flow rate will save you more water, which is always a good thing.

To measure your shower head's flow rate, place a bucket marked in gallon increments under the shower and turn on the tap at normal pressure. Then, time how long it takes to fill the bucket to the 1-gallon (3.8 liter) mark.

You can also look for a water-efficient product that is rated by the Water Efficiency Labelling and Standards (WELS) scheme. This rating shows how much water the product uses compared to other products in the same category.

Buying an energy efficient shower head NSW is one of the easiest and most impactful ways to reduce your water and energy bills. If you live in Victoria, it is even possible to receive a free showerhead installation under the Victorian Energy Upgrades program.

The Water Efficiency Labelling and Standards (WELS) scheme requires all shower heads, toilets and urinals to have a rating. The WELS rating is a star grading system similar to Energy Star ratings, with the highest stars representing the most efficient products.

In Australia, the WELS scheme is a government requirement for showers and some other household items like tapware, washing machines, dishwashers and urinals to be water efficient. Its goal is to help consumers make climate conscious decisions about the water they use.

A typical inefficient shower head can use between 15 - 25L per minute, while an efficient WELS 3 star rated one will give a high-quality shower using as little as 5L every minute. This will save a two-person family at least $160 annually on their household energy and water bills, depending on how much hot water they use.

A low-flow showerhead is a good idea for most homes, especially if you have an instantaneous gas hot water system or if you live on a higher floor. It is also a great idea for older homes that may have a lower water pressure.

Water pressure in the shower is a major concern for many homeowners. It’s a common issue with low-flow shower heads, which limit the flow of water in order to save on energy and water bills.

But a lower flow rate does not mean that the showerhead is useless. In fact, the right shower head can provide a relaxing experience while also reducing your water and energy usage.

If you are concerned about your energy and water bills, it’s a good idea to look for an energy efficient shower head NSW. These can help you reduce your water and energy consumption by up to 50 percent.

To find out if your current showerhead is wasting water, try this simple test: Place a bucket marked in gallon increments under the shower head and turn it on. Watch the time it takes to fill the bucket.

One of the easiest and most cost effective ways to reduce your water bill is to swap out that old scalding shower head for a more energy efficient model. It's a win-win for the planet and your wallet.

For example, the Daintree snazzy shower head, a 4 star Water Efficiency Labelling and Standards (WELS) rated product uses flexible 5 spray technology to deliver an economical 7.5 litres per minute. The same model also boasts the most notable energy saving trick in the form of a cleverly concealed nozzle that lets you switch between four different sprays – all while using only a fraction of the hot water your regular shower head uses.

If you're looking for the perfect energy efficient shower head NSW, check out the Daintree - a top of the range model with free installation to boot. It's the best way to save on water and energy bills while keeping your bathroom smelling fresh and feeling luxurious.

#powersave company #emerald energy #nsw energy saver scheme #energy efficient shower head #energy efficient hot water system #energy efficient heating and cooling system #power saver australia #powersave australia #emerald energy advisor #australian power savers company #accredited power saver #power saver electricity #saver electricity #electricity saver #led light rebate nsw #nsw led light rebate #led lighting rebates nsw #led lighting rebate nsw

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jupitersolar · 17 days

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Estimating the Cost and Energy Efficiency of Solar Water Heaters

Solar water heaters present an effective and eco-friendly way to reduce energy bills and carbon footprints. By harnessing the sun's energy, these systems offer substantial savings and enhanced energy efficiency. In this comprehensive guide, we explore the intricacies of estimating the cost and energy efficiency of solar water heaters.

Estimating the cost and energy efficiency of solar water heaters involves several factors, including the amount of hot water used, system performance, geographic location, available financing and incentives, and the cost of conventional fuels. Here are some key points to consider:

Cost Estimates:

The cost of solar water heaters varies by collector type and system configuration, ranging from $50 to $424 per square foot (sf) or $1000 per square meter (m2.

A typical household-sized solar water heater system might cost around $4,000, with a simple payback period of 15.3 years compared to natural gas and 14.5 years compared to electricity.

Energy Efficiency:

Solar water heaters are more efficient than traditional water heaters, with solar energy factors (SEF) ranging from 1.0 to 11. Systems with SEF of 2 or 3 are common.

The solar fraction (SF) measures the portion of the total conventional hot water heating load that is covered by solar energy, typically ranging from 0.5 to 0.75.

Annual Operating Costs:

To estimate annual operating costs, you need to know the system's SEF and the cost of the auxiliary tank fuel (gas or electric).

For example, with a gas auxiliary tank system and an SEF of 1.1, the estimated annual operating cost would be $149.83.

Comparing Costs and Determining Payback:

Compare the costs of solar water heaters with those of conventional systems to determine the payback period.

The payback period is the time it takes for the solar system to break even by saving money on fuel bills.

System Selection:

When selecting a solar water heater, consider factors such as system size, cost, and performance metrics like SEF and SF.

Evaluate your site's solar resource and local codes, covenants, and regulations before installation.

Maintenance:

Regular maintenance is crucial to ensure the system runs smoothly. For active systems, maintenance requirements include replacing parts after 10 years.

Applications:

Solar water heaters can be used in various applications, including homes, community centers, hospitals, and industries, offering significant savings on electricity or fuel bills.

By considering these factors, you can effectively estimate the cost and energy efficiency of solar water heaters and make an informed decision for your specific needs.

Ready to transform your energy savings and sustainability? Discover the power of Jupiter Solar Water Heaters today! Visit our website www.jupitersolars.in or call us now to learn more and schedule a free consultation. Take the first step towards a greener future with Jupiter Solar!

Understanding Solar Water Heating Systems

Solar water heating systems use solar collectors to absorb sunlight and convert it into heat. This heat is then transferred to a storage tank, providing hot water for residential or commercial use. There are two main types of solar water heating systems:

Active Systems: These use pumps and controls to circulate water or a heat-transfer fluid through the solar collectors.

Passive Systems: These rely on natural convection or gravity to move water through the system.

Key Components and Their Costs

Solar Collectors

Solar collectors are the heart of the solar water heating system. There are two primary types:

Flat-Plate Collectors: These are the most common and consist of a flat, insulated box with a transparent cover and a dark-colored absorber plate.

Evacuated Tube Collectors: These consist of rows of parallel glass tubes, each containing an absorber tube that captures sunlight more efficiently than flat-plate collectors.

Estimated Costs:

Flat-Plate Collectors: $2,000 - $4,000

Evacuated Tube Collectors: $4,000 - $8,000

Storage Tanks

Storage tanks are essential for holding the heated water. Depending on the system type, these tanks can vary in size and insulation quality.

Estimated Costs:

Standard Tanks: $1,000 - $2,500

High-Efficiency Tanks: $2,500 - $4,000

Heat Transfer Fluid

In active systems, a heat transfer fluid is used to convey heat from the collectors to the storage tank. This fluid can be water or a non-freezing liquid.

Estimated Costs:

Initial Cost: $100 - $300

Annual Maintenance: $50 - $150

Pump and Controller

Active systems require a pump and a controller to manage the flow of the heat transfer fluid.

Estimated Costs:

Pump: $500 - $1,000

Controller: $300 - $800

Installation Costs

Professional installation is crucial for ensuring the efficiency and longevity of the system. Installation costs can vary based on system complexity and local labor rates.

Estimated Costs:

Basic Installation: $2,000 - $4,000

Complex Installation: $4,000 - $8,000

Total Cost Estimate

The total cost of a solar water heating system can vary widely depending on the specific components and installation requirements. On average, homeowners can expect to spend between $7,000 and $15,000.

Energy Efficiency and Savings

Energy Savings

Solar water heaters can significantly reduce energy consumption for water heating, which typically accounts for 14-18% of a household's energy use. Depending on the system and local solar resources, solar water heaters can provide 50-80% of the hot water needs.

Environmental Benefits

By using solar energy, solar water heaters reduce greenhouse gas emissions and reliance on fossil fuels. A typical solar water heater can prevent over 1,000 pounds of CO2 emissions annually.

Payback Period

The payback period for a solar water heater depends on various factors, including local energy costs, system efficiency, and available incentives. Generally, the payback period ranges from 5 to 10 years.

Incentives and Rebates

Several federal, state, and local incentives can significantly reduce the initial cost of a solar water heating system. These include tax credits, rebates, and grants. Homeowners should explore available incentives to maximize their savings.

Maintenance and Longevity

Regular Maintenance

Proper maintenance is essential for optimal performance. Annual inspections should include checking the collectors, storage tank, pump, and controller. The heat transfer fluid may need to be replaced every 3-5 years.

System Longevity

With regular maintenance, solar water heating systems can last 20-30 years, making them a long-term investment in energy efficiency and sustainability.

Conclusion

Investing in a solar water heating system is a cost-effective and environmentally friendly decision. By understanding the components, costs, and benefits, homeowners can make informed choices that lead to substantial energy savings and a reduced carbon footprint. Explore local incentives and ensure professional installation and maintenance to maximize the system's efficiency and lifespan.

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climastarukofficial · 9 months

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Electric Boilers: A Cost Benefit Analysis

#electric boiler #home heating #home energy efficiency #hot water system

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feckcops · 1 year

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Hot air: five climate myths pushed by the US beef industry

“While fossil fuel consumption has done the most to put us on our dangerous path to climate catastrophe, a widely cited 2020 study in the journal Science argued that we can no longer avoid the worst of the climate crisis by cutting fossil fuels alone. Staying below the average global temperature rise of 2C – a threshold that scientists say will lead to systems collapse, mass extinctions, fatal heat waves, drought and famine, water shortages and flooded cities – will require ‘rapid and ambitious’ changes to food systems.

“The single most impactful food-related change we can make, according to their findings, is not increasing yields, ramping up agricultural efficiency or cutting food waste, though those approaches all would help. It’s adopting a plant-rich diet.

“While building out energy infrastructure can take years, changing our diet is something we can work toward today.”

#meat industry #beef industry #beef #diet #meat #western diets #plant-based #vegan #vegetarian #overconsumption #emissions #greenhouse gases #climate crisis #climate breakdown #climate change #climate #ecological crisis #usa #the west

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shamelest · 6 months

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ZARAHEATİNG - DEVASA+ (2)

Zara Heating: Your Trusted Partner in Boiler Installation and Maintenance

At Zara Heating, we take pride in being the leading choice for comprehensive boiler services, including installation and maintenance. With a commitment to excellence and customer satisfaction, our team stands ready to provide top-tier solutions for Worcester, Vaillant, and Baxi boilers.

Worcester Boiler Installation: Quality Craftsmanship

When it comes to Worcester boiler installation, Zara Heating excels in delivering quality craftsmanship. Our certified technicians ensure the seamless integration of Worcester boilers into your home, maximizing efficiency and performance. Trust us to bring warmth and comfort to your space with our expert installation services.

Vaillant Boiler Installation: Cutting-Edge Heating Solution

For cutting-edge heating solutions, Zara Heating offers Vaillant boiler installation services tailored to your needs. Vaillant boilers are known for their reliability and energy efficiency, and our team ensures a flawless installation process, providing you with a reliable heating system that stands the test of time.

Baxi Combi Boiler: Efficient and Space-Saving Heating

Looking for an efficient and space-saving heating solution? Zara Heating specializes in Baxi combi boiler installations. Baxi combi boilers combine heating and hot water in one compact unit, providing both convenience and energy savings. Let us optimize your home's heating system with our expert Baxi installations.

Vaillant Boiler Service: Preserving Performance and Efficiency

Regular servicing is crucial to maintaining the performance and efficiency of your Vaillant boiler. Zara Heating offers professional Vaillant boiler service, ensuring that your heating system operates at its best. Trust our skilled technicians to conduct thorough inspections and necessary maintenance to keep your Vaillant boiler in peak condition.

Baxi Boilers: Reliability and Innovation

Zara Heating recognizes the reliability and innovation that Baxi boilers bring to homes. Our expertise in Baxi boilers allows us to offer installation services that align with their cutting-edge features. Whether you're considering a new Baxi boiler or need professional maintenance, Zara Heating is your trusted partner.

Why Choose Zara Heating?

Expertise: Our team comprises certified technicians with extensive expertise in Worcester, Vaillant, and Baxi boilers.

Customer-Centric Approach: We prioritize customer satisfaction, tailoring our services to meet your specific requirements.

Quality Assurance: Zara Heating ensures quality craftsmanship in every installation and maintenance service.

Reliable Solutions: From Vaillant boiler services to Baxi combi boiler installations, we provide reliable solutions for diverse heating needs.

Choose Zara Heating for unparalleled boiler installation and maintenance services. Visit ZaraHeating.co.uk today to explore how we can enhance the efficiency and comfort of your home's heating system.

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the-rogue-that-goes-stab · 1 month

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SSC Derrima

Based on the imagery of water bending but solar plasma, the SSC Derrima (named after the Derrima stellata, or Pink Star Moth) is a frame exploiting SSC's use of singularity tech for energy. The Derrima uses a miniature singularity for power and uses it to launch powerful plasma currents.

A member of the Lux Iconic line, the Derrima's gimmick of an internal singularity generator is realized with a trait which happens to be named Contained Singularity. This system fits into my similar gimmicks of fundamentally changing how health systems work (see the Tarrasque and Allip) by reversing the functionality of the Heat Self for the Derrima. Rather than Heat being how much heat it's reactors can handle before risking meltdown, the Derrima's heat (which I would love to rename to Energy) represent how much stored up power it has. Thus heat self drains heat rather than inflicting it. This also causes heat systems (and overcharge) to be unusable without heat. To better supply the Derrima with this energy system, it can set itself to its danger zone at the start of a scene as well as has access to an action that makes it take the next step of overcharge as heat (similar to the Allip, overcharge drains the Derrima's energy).

[A brief amendment to explain why this exists: so there is a way of harvesting energy from a black hole. It's called the Penrose Principle. It's basically yeeting a object through the "safe" parts of a blackhole to then launch something from the object deeper into the blackhole, this allows for energy gain at the cost of the object feed into the singularity. The Derrima in lore uses this technique to fuel itself, sending (likely) specialized nanites through the exterior of the singularity to harvest that sweet sweet energy. Now back to your regular trait programming.]

The other traits of the Derrima are having a super heated Hull that causes burn on improvised attacks (a reference to an old project) and Insulated (yippee, burn immunity).

Mount wise it's just double flex mounts for either its own weapon or any number of heat self weapons (Catalyst Pistols, Shock Knives, etc)

For its core power, it's an efficient protocol that puts the Derrima to its Heat Cap and allows it to Overcharge twice this turn. At the end of your turn, you lose all heat.

Playstyle wise, the Derrima is basically an SSC Genghis, just less aoe focused for the benefit of dodging and area lock down

License:

1) Antiphoton Paneling (system) - it's sunglasses for your mech. Yippee, immunity to effects similar to Shock Wreathe or Flash Powder that blinds you (Blind should have been a condition from lancers creation even if it was only used by Metalmark because now we either have to manually recreate the blindness effect or have numerous copies of the same status)

1) Superhot Munition (mod) - yippee, free burn damage and heat self to a weapon

2) frame

2) Plasma Channeler (weapon) - based on the original inspiration of a spellcasting mech, this main launcher weapon fires globes of plasma that deal burn. While probably needing to be removed for proper balance, the weapon also lights you on fire because rolling controlled plasma over your hull will do that to you. As just described, this isn't a gun, more like a hull augmentation that provides grooves for hot plasma from the reactor to be channeled forth into a projectile.

2) Wall of Light (deployable) - this system gives an action to deploy a wall of plasma. This wall is Line 4, three spaces tall, provides hard cover and blocks line of sight. The first time a character enters (or just starts its turn in it) they take 2 burn. The wall lasts until the end of the scene or the action to deploy it used again, the oldest wall then fizzling out and dealing 1 Burn to any one overlapping the wall. Oh also using this action deals self heat and a bit of burn.

3) Energy Absorption (system) - a system granting you a reaction to use when you take damage, it reduces the damage you take by 1 at the "cost" of receiving 1 heat

3) Vortex Singularity (system) - a limited system that allows you to create a non-damaging blackhole that sucks characters at the start of their turn. For every character that is consumed, the more it pulls in characters. When a character is pulled into the singularity, they are harmlessly removed from the battlefield. After the singularity eats enough characters, it pops and allows for the reshuffling of characters that were eaten.

#lancer #lancer rpg #new stelia #homebrew #ssc

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