Recycling of Lead-Acid Batteries: Perspectives

Lead-acid batteries are used on a mass-scale in all parts of the world for energy storage. Lead-acid batteries contain sulphuric acid and large amounts of lead. The acid is extremely corrosive and is also a good carrier for soluble lead and lead particulate. Lead is a highly toxic metal that produces a range of adverse health impacts particularly among young children.

lead-acid-battery-recycling

Exposure to excessive levels of lead can cause damage to brain and kidney, impair hearing; and lead to numerous other associated problems. On average, each automobile manufactured contains approximately 12 kilograms of lead. Around 96% lead is used in the common lead-acid battery, while the remaining 4% in other applications including wheel balance weights, protective coatings and vibration dampers.

Recycling Perspectives

Recycling of Lead-Acid Batteries is a profitable business, albeit dangerous, in developing countries. Many developing countries buy used lead-acid batteries (also known as ULABs) from industrialized countries (and Middle East) in bulk in order to extract lead. ULAB recycling occurs in almost every city in the developing world where ULAB recycling and smelting operations are often located in densely populated urban areas with hardly any pollution control and safety measures for workers.

Usually ULAB recycling operations release lead-contaminated waste into the environment and natural ecosystems.  Infact, Blacksmith Institute estimates that over 12 million people are affected by lead contamination from processing of Used Lead Acid Batteries in the developing world, with South America, South Asia and Africa being the most affected regions.

Associated Problems

The problems associated with recycling of ULABs are well-documented and recognized by the industry and the Basel Convention Secretariat. As much of the informal ULAB recycling is small-scale and difficult to regulate or control, progress is possible only through cleanup, outreach, policy, and education.

For example, Blacksmith’s Lead Poisoning and Car Batteries Project is currently active in eight countries, including Senegal, the Dominican Republic, India, and the Philippines. The Project aims to end widespread lead poisoning from the improper recycling of ULABs, and consists of several different strategies and programs, with the most important priority being the health of children in the surrounding communities.

Lead poisoning, from improper recycling of used batteries, impacts tens of millions of people worldwide.

Lead poisoning, from improper recycling of used batteries, impacts tens of millions of people worldwide.

There is no effective means of tracking shipments of used lead-acid batteries from foreign exporters to recycling plants in developing world which makes it difficult to trace ULABs going to unauthorized or inadequate facilities.

The Way Forward

An effective method to reduce the hazards posed by trans-boundary movements of ULABs is to encourage companies that generate used lead batteries to voluntarily stop exporting lead batteries to developing countries. These types of voluntary restrictions on transboundary shipments can help pressure companies involved in recycling lead batteries in developing to improve their environmental performance. It may also help encourage policy makers to close the gaps in both regulations and enforcement capacity.

Another interesting way is to encourage regeneration of lead-acid batteries which can prolong its life significantly. The advantage of battery regeneration over regular recycling is the reduced carbon footprint incurred by mitigating the collecting, packing, shipping and smelting of millions of tonnes of batteries and their cases. Most importantly, it takes about 25kWh of energy to remake a 15Kg, 12V 70Ah battery and just 2.1KWh to regenerate it electronically.

Bioenergy with Carbon Capture and Storage: Role in Climate Mitigation

With increasing concern and awareness of climate change, there has been a growth in the renewable energy sector through government subsidies and private investment, allowing for the replacement of current sources of energy with less carbon-intensive fuels. However, renewable energy technologies are yet to topple the traditional fossil fuel-powered electricity market. With the increasing trajectory of global emissions, climate research has been exploring other methods of climate mitigation, for instance, through the use of large-scale geoengineering technologies.

Biomass-Resources

A quick glance at popular biomass resources

Of particular focus are the carbon dioxide removal techniques, namely Carbon Capture and Storage (CCS) and Bioenergy with Carbon Capture and Storage (BECCS) that have been prominently featured in emission scenarios of climate models, particularly for their direct influence in reducing carbon dioxide emissions.

CCS involves capturing carbon dioxide emissions from industries and storing them under geological reservoirs either on shore or offshore. You can read more about this technology on a previous EcoMENA article.

What is Bioenergy with Carbon Capture and Storage

One of the main concerns about CCS is the use of fossil fuels for its operations. In the pursuit for greener climate mitigation technologies, Bioenergy with Carbon Capture and Storage (BECCS) has emerged as a climate saviour, featuring in prominent emissions scenarios and climate models to achieve the 1.5-degree target.

In the place of fossil fuels, biomass is instead used as the primary fuel source for BECCS as seen in the picture below. The two-step absorption of carbon dioxide, first during the growth of the biomass, and second through capturing of the biomass emissions, makes BECCS, in theory, a net negative emissions technique.

Source: Can we deploy enough BECCS to achieve climate targets? AVOID 2

Of the 116 climate scenarios suggested by the IPCC, BECCS was seen to have a significant role in 101 of the scenarios to help prevent global temperature rise above the 1.5-degree target. In fact, UK electricity generator Drax, has chosen to invest in the BECCS technology and started its first trial earlier this year, making it the first of its kind in Europe.

Risks associated with BECCS

While the combination of bioenergy and CCS provides an ideal carbon negative mitigation strategy, it also combines the existing risks associated with both technologies. In addition to lack of investment and long-term economic policies for CCS, large scale deployment of BECCS is hindered by uncertainties such as land, water and resource availability. Studies have shown concerns regarding the carbon intensity and the scale of land and resources required to sustain the bioenergy component required for BECCS.

While the net negative aspect of BECCS may work in theory, studies have revealed significant proportions of emissions associated with indirect land use change for biomass production for BECCS. In addition to technical challenges, one of the key constraints for the deployment of such climate technologies is social acceptance, where sections of the general public, or specific stakeholders, remain unconvinced with certain aspects of the technology due to ethical or political reasons.

Conclusion

As such, while CCS and BECCS may offer the ideal climate saviour solution to reduce overall carbon dioxide emissions, the technologies are still overcast with various technical and social challenges that limit their commercial usage for climate mitigation.

How to Minimize Air Pollution While Growing Cannabis

As the medical marijuana, recreational marijuana and CBD markets each grow into multi-billion dollar industries, the demand for cannabis is at an all-time high — and canny entrepreneurs across the country are starting commercial cannabis grow operations in earnest. However, institutions like the Colorado Department of Public Health and Environment (CDPHE) are studying the potential effects of cannabis farms on air pollution and finding worrying results.

Aurora, Colorado, which is the second most popular locality in the nation for commercial cannabis farming operations, currently has the country’s 8th worst air quality according to the American Lung Association. The CDPHE asserts that this has much to do with cannabis farms and their output of what are known as volatile organic compounds, or VOCs.

cannabis-growing-tips

What are VOCs, and why are they a problem?

VOCs are naturally released by a wide range of plant life, and are generally harmless on their own. An example of well-known VOCs are terpenes, which are present in everything from lavender to black peppercorns. The terpene profiles of different cannabis strains give them their respective identities, like the Lime OG strain which is incredibly popular among consumers.

The problem with VOCs occurs when they combine with combustion gases and become harmful to the ozone. Cannabis farms are commonly positioned along stretches of highway, with frequent car traffic through all times of day. This makes them uniquely problematic, as unlike other VOC-emitting plants like lavender, they are positioned to release VOCs en masse to combine with automobile exhaust and produce air pollution.

We can’t alter the release of VOCs in agriculturally and industrially-grown crops like marijuana at present, but there are ways farmers can offset these emissions with the use of environmentally-friendly alternatives to onsite operations. In this post, we go over three important examples of how cannabis farms can reduce or counter their own VOC emissions with little to no impact on productivity.

Strategic Positioning of Cannabis Farms Using Road Hierarchy

The first and most obvious step that can be taken to reduce the harmful interaction of VOCs produced by cannabis farms with motor vehicle exhaust is to position them along less traffic-intensive roads. The current road hierarchy within the United States and Canada is as follows:

  • Freeways are categorized as interstate or intercity roads, limited access roads and on- and off-ramps.
  • Arterial roads are designed to accommodate plenty of traffic throughout the day, and are subdivided into minor and major arterials for urban and rural areas respectively.
  • Collector roads are the convergence points for local roads, ultimately distributing local street traffic to different arterials.
  • Local roads carry low traffic volume and can typically be found in residential areas or specialized districts. In rural areas, these are sometimes unpaved depending on budgetary constraints or development timelines.

Cannabis-friendly states like California, Oregon and Colorado would benefit from the creation of more specialized farming counties and districts, where cannabis farms are positioned along local roads connected to a single collector a respectable distance away. This would prevent anything other than essential traffic, such as transport or supply vehicles to and from the farms themselves, from being in frequent proximity to the VOCs produced by onsite crops.

cannabis

Use of Biofuels in Tractors, Tillers & Other Onsite Utility Vehicles

Continuing on from the concept of using road hierarchy in positioning cannabis farms: the risk of VOC conversion from approaching transport or supply vehicles could be further diminished if they were either electric vehicles (EVs) or made use of currently available biofuels.

This also applies to utility vehicles operated onsite, such as tractors, diggers and tillers, all of whose emissions are in contact with VOCs far more often than those from logistics vehicles.

Green Energy to Power Onsite Machine Processes

While they may not yet have the output specifications to effectively power entire farms, solar panels can provide ample energy for common onsite machine processes, such as the extraction of cannabinoids and terpenes to make isolates or the wet-mixing of hemp hurds to make hempcrete.

Depending on the products onsite facilities are purposed to manufacture, the use of green energy could be feasible for several farms across the country that haven’t already made the switch.

Why Energy Access to Refugees Matters?

There is a strong link between the serious humanitarian situation of refugees and lack of access to sustainable energy resources. According to a 2019 UNCHR report, there are more than 80 million displaced people around the world, the highest level of human displacement ever documented. Access to clean and affordable energy is a prerequisite for sustainable development of mankind, and refugees are no exception. Needless to say, almost all refugee camps are plagued by fuel poverty and urgent measure are required to make camps livable.

refugee-camp-energy

Usually the tragedy of displaced people doesn’t end at the refugee camp, rather it is a continuous exercise where securing clean, affordable and sustainable energy is a major concern. Although humanitarian agencies are providing food like grains, rice and wheat; yet food must be cooked before serving.

Severe lack of modern cook stoves and access to clean fuel is a daily struggle for displaced people around the world. This article will shed some light on the current situation of energy access challenges being faced by displaced people in refugee camps.

Why Energy Access Matters?

Energy is the lifeline of our modern society and an enabler for economic development and advancement. Without safe and reliable access to energy, it is really difficult to meet basic human needs.

Energy access is a challenge that touches every aspect of the lives of refugees and negatively impacts health, limits educational and economic opportunities, degrades the environment and promotes gender discrimination issues. Lack of energy access in refugee camps areas leads to energy poverty and worsen humanitarian conditions for vulnerable communities and groups.

Energy Access for Cooking

Refugee camps receive food aid from humanitarian agencies yet this food needs to be cooked before consumption. Thus, displaced people especially women and children take the responsibility of collecting firewood, biomass from areas around the camp. However, this expose women and minors to threats like sexual harassments, danger, death and children miss their opportunity for education. Moreover, depleting woods resources cause environmental degradation and spread deforestation which contributes to climate change. Moreover, cooking with wood affects the health of displaced people.

Access to efficient and modern cook stove is a primary solution to prevent health risks, save time and money, reduce human labour and combat climate change. However, humanitarian agencies and host countries can aid camp refugees in providing clean fuel for cooking because displaced people usually live below poverty level and often host countries can’t afford connecting the camp to the main grid.

So, the issue of energy access is a challenge that requires immediate and practical solutions. A transition to sustainable energy is an advantage that will help displaced people, host countries and the environment.

Energy Access for Lighting

Lighting is considered as a major concern among refugees in their temporary homes or camps. In the camps life almost stops completely after sunset which delays activities, work and studying only during day time hours.

Talking about two vulnerable groups in the refugees’ camps “women and children” for example, children’s right of education is reduced as they have fewer time to study and do homework. For women and girls, not having light means that they are subject to sexual violence and kidnapped especially when they go to public restrooms or collect fire woods away from their accommodations.

Rationale For Sustainable Solutions

Temporary solutions won’t yield results for displaced people as their reallocation, often described as “temporary”, often exceeds 20 years. Sustainable energy access for refugees is the answer to alleviate their dire humanitarian situation. It will have huge positive impacts on displaced people’s lives and well-being, preserve the environment and support host communities in saving fuel costs.

Also, humanitarian agencies should work away a way from business as usual approach in providing aid, to be more innovative and work for practical sustainable solutions when tackling energy access challenge for refugee camps.

UN SDG 7 – Energy Access

The new UN SDG7 aims to “ensure access to affordable, reliable, sustainable and modern energy for all”. SDG 7 is a powerful tool to ensure that displaced people are not left behind when it comes to energy access rights. SDG7 implies on four dimensions: affordability, reliability, sustainability and modernity. They support and complete the aim of SDG7 to bring energy and lightening to empower all human around the world.

All the four dimensions of the SDG7 are the day to day challenges facing displaced people. The lack of modern fuels and heavy reliance on primitive sources, such as wood and animal dung leads to indoor air pollution.

Energy access touches every aspect of life in refugee camps

Energy access touches every aspect of life in refugee camps

For millions of people worldwide, life in refugee camps is a stark reality. Affordability is of concern for displaced people as most people flee their home countries with minimum possessions and belongings so they rely on host countries and international humanitarian agencies on providing subsidized fuel for cooking and lightening.

In some places, host countries are itself on a natural resources stress to provide electricity for people and refugees are left behind with no energy access resources. However, affordability is of no use if the energy provision is not reliable (means energy supply is intermittent).

Parting Shot

Displaced people need a steady supply of energy for their sustenance and economic development. As for the sustainability provision, energy should produce a consistent stream of power to satisfy basic needs of the displaced people.

The sustained power stream should be greater than the resulted waste and pollution which means that upgrading the primitive fuel sources used inside the camp area to the one of modern energy sources like solar energy, wind power, biogas and other off-grid technologies.

For more insights please also read this article Renewable Energy in Refugee Camps 

What Determines the Price of Home Solar Panel Installation?

People are leaning toward installing solar panels to have a “green” source of energy that would eventually cost them nothing. However, the price point is one of the major concerns that worry homeowners. People feel more inclined to check the price tag on solar panels to decide whether they are going to go for them or not. Just like any renewable source of energy, the initial cost may sound very expensive, however, afterwards, the fuel price comes down to zero. The average cost swings between $15k and $25k, this gap in the range of prices depend mainly on the solar panel size.

But other than the size of solar panels, what other factors affect the price of home solar panel installation?

1. The Size Of Solar Panels

The cost of solar panels is calculated by dollar per watt depending on how much electricity you need to generate. A bigger system requires more work to install and that’s how the size affects the cost of installing solar panels. 2kW would averagely cost around $4k, while solar panels that would generate 25 kW costs $53k.

Crunching the numbers, it does sound that solar panel cost a lot more than average electricity bills paid per month, thanks to low-interest solar installment plans, buying big solar panels won’t cost you an arm and a leg.

2. Variation Of Price Between States

Solar panel prices may seem like they’re all the same across all states, however, you can use the same exact solar panels at two different states and you will get different costs. The reason behind these variations depends on the cost of electricity in every state. Let’s take Washington, for example, the cost of 6kw generated from a solar panel will cost around $9k, while the same in New York will cost $12k.

Solar panels are becoming more accessible, for homeowners and businesses

The prices definitely seem costly, however, if one thought about the overall cost of electricity from solar energy and normal sources, solar is definitely cheaper.

3. The Quality

Prices differ according to the manufacturer brand; prices can range from $13k up to $17k. The local Sandbar Solar not only provides high-quality panels, complex commercial and residential setups, but also cares about the community by sponsoring many events with their eco-friendly Solar Trailer.

Other than the panel brand you are going to choose, other factors must be kept in mind; the experience of the installer, racking equipment, cost of electricity by state and the location also affects the prices. So, when you are choosing the brand for the solar panel installation project, you need to be careful and consider all the factors and aspects.

Clean Energy

Choosing a renewable source of energy is the best thing one can do these days. The greenhouse effect that is caused by coal, petroleum, and gas will put an end to the earth at some point. It’s our responsibility to go “green” to save the Earth for a better world.

Other than that, even if you don’t care about the environment, a clean source of energy that depends on wind or the sun, would definitely cost you a big amount at the beginning, but in the long run, they are cheaper sources of electricity.

Renewable Energy in Refugee Camps

Access to clean, affordable and renewable energy is a prerequisite for sustainable development of mankind, and refugees are no exception. Refugee camps across the world house more than 65 million people, and almost all refugee camps are plagued by fuel poverty. Needless to say, urgent measure are required to make camps livable and sustainable.

dabaab-refugee-camp

Rapid advancements in renewable energy technologies have made it possible to deploy such systems on various scales.  The scalability potential of renewable energy systems makes them well-suited for refugee camps, especially in conflict-afflicted areas of the Middle East, Asia and Africa.

Renewable energy in refugee camps can be made available in the form of solar energy, biomass energy and wind energy. Solar panels, solar cooking units, solar lanterns, biomass cookstoves and biogas plants are some of the popular renewable energy technologies that can improve living standards in refugee camps. It is important to focus on specific needs of refugees and customization of technology towards local conditions. For example, solar technologies are better understood than biogas systems in Jordan.

1. Solar Energy

Solar energy can provide long-term resilience to people living in refugee camps. With many camps effectively transformed into full-fledged towns and cities, it is essential to harness the power of sun to run these camps smoothly. Solar cookers, solar lanterns and solar water heaters are already being used in several refugee camps, and focus has now shifted to grid-connected solar power projects.

The 5MW Azraq solar project is the world’s first grid-connected renewable energy project to be established in a refugee camp. The project is being funded entirely by Ikea through the Brighter Lives for Refugees campaign. The program, now in its third year, seeks to improve the lives of refugees around the world by providing access to sustainable energy supplies.

2. Biomass Energy

Due to lack of land and resources, refugee camps puts tremendous pressure on natural vegetation, especially supply of fuel wood to camp-dwellers. Replacement of traditional stoves with efficient biomass-fired cook stoves can save as much as 80% of cooking fuel.

Instead of wood, it would be also be a good option to use agricultural wastes, like husk and straw. Another interesting proposition for refugee camps is to set up small-scale DIY biogas plants, based on human wastes and food residuals. The biogas produced can be used as a cooking medium as well as for power/heat generation.

3. Wind Energy

Small wind turbines can also play a key role in providing energy to dwellers of refugee camps. Such turbines are used for micro-generation and can provide power from 1kW to 300kW. Majority of small wind turbines are traditional horizontal axis wind turbines but vertical axis wind turbines are a growing type of wind turbine in the small wind market.

Small wind turbines are usually mounted on a tower to raise them above any nearby obstacles, and can sited in refugee camps experiencing wind speeds of 4m/s or more.

Solar lights in Azraq Refugee Camp (Jordan)

Solar lights in Azraq Refugee Camp (Jordan)

Conclusions

Renewable energy systems have the potential to improve living standards in refugee camps and ease the sufferings of displaced and impoverished communities. Solar panels, biogas system, biomass stoves and micro wind turbines are some of the renewable energy systems that can be customized for refugee camps and transform them into a less harsh place for displaced people.

Waste Management Challenges in Middle East

Middle East is one of the most prolific waste generating regions worldwide with per capita waste production in several countries averaging more than 2 kg per day . High standards of living, ineffective legislation, infrastructural roadblocks, indifferent public attitude and lack of environmental awareness are the major factors responsible for growing waste management problem in the Middle East. Lavish lifestyles are contributing to more generation of waste which when coupled with lack of waste collection and disposal facilities have transformed ‘trash’ into a liability.

garbage-middle-east

Major Hurdles

The general perception towards waste is that of indifference and apathy. Waste is treated as ‘waste’ rather than as a ‘resource’. There is an urgent need to increase public awareness about environmental issues, waste management practices and sustainable living. Public participation in community-level waste management initiatives is lackluster mainly due to low level of environmental awareness and public education. Unfortunately none of the countries in the region have an effective source-segregation mechanism.

Waste management in Middle East is bogged down by deficiencies in waste management legislation and poor planning. Many countries lack legislative framework and regulations to deal with wastes. Insufficient funds, absence of strategic waste management plans, lack of coordination among stakeholders, shortage of skilled manpower and deficiencies in technical and operational decision-making are some of the hurdles experienced in implementing an integrated waste management strategy in the region. In many countries waste management is the sole prerogative of state-owned companies and municipalities which discourage participation of private companies and entrepreneurs.

Many Middle East nations lack legislative framework and regulations to deal with urban wastes.

Many Middle East nations lack legislative framework and regulations to deal with urban wastes.

Due to lack of garbage collection and disposal facilities, dumping of waste in open spaces, deserts and water bodies is a common sight across the region. Another critical issue is lack of awareness and public apathy towards waste reduction, source segregation and waste management.

A sustainable waste management system demands high degree of public participation, effective laws, sufficient funds and modern waste management practices/technologies. The region can hope to improve waste management scenario by implementing source-segregation, encouraging private sector participation, deploying recycling and waste-to-energy systems, and devising a strong legislative and institutional framework.

The Way Forward

In recent year, several countries, like Qatar, UAE and Oman, have established ambitious solid waste management projects but their efficacy is yet to be ascertained. On the whole, Middle East countries are slowly, but steadily, gearing up to meet the challenge posed by waste management by investing heavily in such projects, sourcing new technologies and raising public awareness.

However the pace of progress is not matched by the increasing amount of waste generated across the region. Sustainable waste management is a big challenge for policy-makers, urban planners and other stake-holders, and immediate steps are needed to tackle mountains of wastes accumulating in cities throughout the Middle East.

Is Green Car Fuel A Reality?

drop-in-biofuelsVehicles remain a huge global pollutant, pumping out 28.85Tg of CO2 in Maharashtra alone, according to a study by the Indian Institute for Science in Bangalore. However, vehicles cannot be discarded, as they form the lifeblood of the country’s towns and cities. Between electric vehicles and hybrids, work is being done to help rectify the situation by making use of green car fuel and technological advancements.

Emissions continue to be a huge issue, and there are two main options for helping to rectify that. The first is electric, which is seeing widespread adoption; and the second, biomass fuel, for more traditional vehicles. Between the two, excellent progress is being made, but there’s much more to be done.

How electric is helping

Electric cars are favoured heavily by the national authorities. A recent Times of India report outlined how the government is aiming for an all-electric vehicle fleet by 2030 and is pushing this through with up to US$16m of electric vehicle grants this year.

Green vehicles are obviously a great choice, improving in-city noise and air pollution whilst providing better vehicular safety to boot; a study by the USA’s MIT suggested that electric vehicles are all-around safer than combustion.

However, where EVs fall down to some extent is through the energy they use. As they are charged from the electricity grid, this means that the electricity is largely derived from fossil fuels – official statistics show that India is 44% powered by coal. Ultimately, however, this does mean that emissions are reduced. Fuel is only burned at one source, and oil refining isn’t done at all, which is another source of pollutants. However, as time goes on and the government’s energy policy changes, EVs will continue to be a great option.

The role of biofuels

Biofuels are seeing a huge growth in use – BP has reported that globally, ethanol production grew 3% in 2017. Biofuel is commonly a more favoured option by the big energy companies given the infrastructure often available already to them. While biofuel has been slow on the uptake in India, despite the massive potential available for production, there are now signs this is turning around with the construction of two US$790m biofuel facilities.

Biofuels are increasingly being used to power vehicles around the world

The big benefit of biofuel is that it will have a positive impact on combustion and electric vehicles. The Indian government has stated they intend to use biofuel alongside coal production, with as much as 10% of energy being created using biofuel. Therefore, despite not being emission-free, biofuel will provide a genuine green energy option to both types of eco-friendly vehicle.

Green car fuel is not entirely clean. The energy has to come from somewhere, and in India, this is usually from coal, gas, and oil. However, the increase in biofuel means that this energy will inevitably get cleaner, making green car fuel absolutely a reality.

3 Things To Think About When Installing Solar Panels

If you’re looking to join the green movement and install solar panels on your home, we’ve got the perfect article to share and help you learn if you should make the solar investment.

1. The cost of installing solar panels

Installing solar panels is going to be slightly costly. One of the reasons behind this is that scaffolding will have to be placed around your home, and roofers will need to attach fixings to your rafters.

It’s important to discuss with your solar panel installer before proceeding with the installation. Still, a surveyor should visit your home to help you understand all the costs associated with installing solar panels.

electrical-engineering

The size of your home will also change the price of solar panels as a larger house tends to use more electricity and will require more panels. This increases the costs, and your solar panel installer will explain any extra hidden costs behind the solution.

Once installed, solar panels do not require much maintenance and should last for a long time. However, you may run into problems over the years and need pigeon proofing solar panels to avoid birds from nesting underneath and a general clean every few years, adding some maintenance costs.

Our recommendation is to contact as many solar panel installers as possible and ask for quotes from all of them. Then, compare the quotes you have received and a breakdown of the expected energy savings from your solar panels and make an educated decision if solar panels are the correct solution to your energy problems. The initial investment can be costly, but over time you should make that back with savings.

2. Is your home suitable for solar panels?

Depending on which country you live in and the angle of your roof, your home may be more suitable for solar panels than others. However, you should never install solar panels on a home that receives relatively no sunlight due to shade caused by trees, buildings and any other object.

solar-battery

Other factors to consider is that if you work in an office, you will not receive the full benefits of the panels

Some countries such as the UK require planning permission for solar panels to be installed on listed buildings or buildings within conservation areas.

3. Problems with your solar panels

Commonly, you may run into a solar panel problem during the time you have them in your home; the most common problem highlighted tends to be the inverter which causes no usable energy to be transmitted from your system.

solar-panels-pigeon-issue

Other common solar panel issues include birds nesting under solar panels, panels building up dirt, electrical problems and isolator problems.

Most issues can be resolved by yourself, but the main problem is finding out the cause of the case. Which usually means you have to call in a solar panel installer or expert.

If you’re still undecided on solar panels for your home, don’t feel pressured; solar panels are a costly and lengthy investment, and you have to be sure that you want to go ahead with the acquisition.

How to Manage Your Business Maintenance Waste

Just 6% of businesses consider their maintenance department to be well established, showing just how little attention companies are paying to this area. No employee likes trash piling up in the bins around the office. The only solution to this problem is to help arrange a Roll Off Dumpster Berks County that can be placed under the company building and emptied on specific days of the week. This can get your business to be more organized just by making waste removal services more accessible.

As a result, wastage is often high, which eats into profit margins. When an office is refurbished, there will inevitably be some waste created, which the company must pay for. In order to mitigate the damage, business managers should put more attention into their maintenance strategy, acting preventatively rather than reactively. This way, business maintenance waste will be limited. The resulting maintenance waste can then be converted into energy, thus becoming a money maker rather than a drain on resources.

Benefits of Sustainability for Business

Sustainability is really a no-brainer from a business perspective, yet many companies are failing to hit a sustainable level of waste management. US consumers are beginning to care more about a business’s environmental impact over the price of their products, with 67% supporting an end to single-use plastic straws. Not only will restructuring your waste strategy save you money on cleanup, but it will improve the image of your company. In these eco-conscious times, this is essential.

Furthermore, a recent poll by Michigan State University found that 88% of Americans take steps to reduce their food wastage. This shows how high a priority this is for the average customer. If you can target more resources towards sustainable waste management, then you are bound to see increased profits in other areas.

Scheduling and Planning

Cutting waste is all about taking preventative actions rather than reacting to circumstances as they arise. By planning your maintenance ahead of time, it is possible to identify areas where wastage will occur and take steps to avoid this. Work with the most experienced maintenance waste managers for the best results. You are probably already a top planner when it comes to marketing and sales, but are you using these skills when maintenance work needs carrying out?

Before any big construction or renovation project, have an expert identify the quantity of waste that will be produced. You will then be able to schedule in workers to come and remove it immediately, increasing efficiency and lowering costs. It is then up to you to dispose of this waste in a way which is responsible.

Profit From Your Waste

The average business uses between 15,000 and 25,000 kWh per year. This energy has to come from somewhere. Given the amount of waste produced by a typical company, why not put this back into your operation by converting it to energy or transforming it into useful products? This is a win-win situation. You get to carry out the necessary maintenance to keep your business running, while receiving free energy to power your company and promoting an eco-friendly brand image.

Maintenance is an important part of every business, but many managers neglect the cost of waste. Staying on top of your business maintenance waste is guaranteed to cut costs and boost profits. Have a waste management schedule in place and use the trash to provide a sustainable energy source as well as useful products.