Portable Biogas Plant for Home: Harnessing Sustainable Energy at Your Fingertips

Understanding Portable Biogas Plants

A portable biogas plant is a compact system that utilizes organic waste to produce biogas, a renewable source of energy. The plant consists of a digester, which acts as a container for anaerobic bacteria to break down organic matter, such as kitchen waste, animal manure, and agricultural residues. The digester’s design allows it to operate efficiently in small-scale settings, making it suitable for homes.

Benefits of Portable Biogas Plants

Renewable Energy Source: Portable biogas plants convert organic waste into biogas, a mixture of methane and carbon dioxide. Biogas is a clean and renewable energy source that can be used for cooking, heating, and even generating electricity. By using biogas, homeowners can reduce their reliance on fossil fuels and contribute to a greener future.

Waste Management: Organic waste, if not properly managed, can lead to environmental pollution and greenhouse gas emissions. Portable biogas plants offer an eco-friendly solution by utilizing waste materials as inputs for biogas production. This reduces the volume of waste, prevents the release of harmful gases, and mitigates the strain on landfill sites.

Cost Savings: By generating their own biogas, homeowners can save on traditional energy expenses. Biogas can be used for cooking, replacing conventional fuels like LPG or electricity. Additionally, the leftover slurry from the digester serves as a nutrient-rich fertilizer, eliminating the need for chemical-based fertilizers and reducing agricultural costs.

Independence from the Grid: Portable biogas plants provide energy self-sufficiency, especially in areas with unreliable or limited access to the electricity grid. Homeowners can produce their energy on-site, reducing dependence on external energy suppliers and enhancing resilience during power outages.

Functioning of a Portable Biogas Plant

A typical portable biogas plant consists of the following components:

Digester: The digester is a sealed container where organic waste is stored and decomposed by anaerobic bacteria. It is typically made of reinforced plastic or fiberglass and has an inlet for adding waste and an outlet for removing the biogas.

Inlet System: The inlet system facilitates the easy introduction of organic waste into the digester. It may include a shredder or grinder to break down larger waste particles and enhance the digestion process.

Gas Holder: The gas holder is an inflatable bag or floating drum that collects and stores the produced biogas. It helps maintain a constant pressure and regulates the flow of biogas to the point of use.

Outlet System: The outlet system allows for the extraction of biogas from the digester. It typically consists of a pipe connected to the gas holder, which leads to the desired usage point, such as a gas stove or a generator.

Slurry Outlet: As organic waste decomposes, it produces a nutrient-rich slurry that can be used as a fertilizer. The slurry outlet enables the removal and utilization of this byproduct.

Portable biogas plants present an exciting opportunity for homeowners to embrace sustainable energy practices. By converting organic waste into biogas, these plants not only provide a renewable energy source but also offer efficient waste management solutions. Looking for a portable biogas plant in Kerala or Portable biogas plant for home? Our home systems are easy to install and eco-friendly. Get yours today!

The new 'compost obligatoire' rules came into force on 1 January 2024. Here's what they entail.

As of 1 January 2024, organic waste recycling is mandatory in France under new 'compost obligatoire' rules.

With support from the government’s Green Fund, municipalities must provide residents with ways to sort bio-waste, which includes food scraps, vegetable peels, expired food and garden waste.

Households and businesses are required to dispose of organic matter either in a dedicated small bin for home collection or at a municipal collection point. Previously, only those who generated over five tonnes of organic waste per year were required to separate it.

The waste will then be turned into biogas or compost to replace chemical fertilisers. Alternatively, it can be composted at home.

The obligation is currently on local authorities to provide an easy means for households to compost or separate organic waste.

While facilities are rolled out, there will not be fines imposed for non-compliance. It is yet to be seen whether stricter rules will be imposed in future. 

One-third of household waste is bio-waste

Organic waste from food and gardens accounts for almost one-third of household waste. When it is mixed with other rubbish, it typically ends up in landfills or incinerators, where it produces heat-trapping greenhouse gases like methane and CO2.

Food waste is responsible for about 16 per cent of the total emissions from the EU food system, according to the European Commission. Globally, food loss and waste generates around 8 per cent of all human-caused emissions annually, the UN says.

It can also contaminate packaging destined for recycling like paper, plastic and glass.

In 2018, only 34 per cent of the EU’s total bio-waste was collected, leaving 40 million tonnes of potential soil nutrients to be discarded, according to NGO Zero Waste Europe.

In France, an estimated 82 kg of compostable waste per person is thrown away each year.

Is bio-waste separation mandatory in other European countries?

Under the EU’s Waste Framework Directive, bio-waste collection is being encouraged this year, but it stops short of setting mandatory targets.

In many European countries, organic waste separation has already been implemented at the municipal level.

Milan in Italy has been running a residential food waste collection programme since 2014. Households were given dedicated bins and compostable bags to kick off the scheme.

Elsewhere, taxes or bans on incinerating bio-waste have encouraged similar schemes, with separate bins and home composting widespread in Austria, the Netherlands and Belgium.

The UK announced plans to roll out separate food waste collection in 2023. It remains voluntary for households in England, but is more strictly enforced in Wales and for business owners.

How to sort your bio-waste

Ideally, all waste - including organic matter - should be kept to a minimum.

This can be achieved through careful meal planning. Consuming, freezing or preserving food before it expires along with using every part of an ingredient also help to reduce waste. Some food waste can even be repurposed into animal feed.

Any food waste that cannot be saved or repurposed should be either composted or separated for collection. This includes uneaten food scraps, baked goods, dairy products, eggshells, fruit and vegetables and their peels, mouldy food, pet food, raw and cooked meat and fish, bones, tea and coffee grounds.

Liquids, non-food products and packaging should not be placed in bio-waste bins.

-via EuroNews.Green, January 2, 2024

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Sinks are a necessary part of our home plumbing. To be honest, they’re one of the most important home plumbing appliances in existence, considering how much we use them on a day-to-day basis. From powder room sinks that are just used to wash your hands, to your kitchen sink which goes through thousands of pounds of fresh fruits, vegetables, meat, and other ingredients used for cooking, if there’s one appliance that we can’t live without, it’s a sink.

Now, you might think that a plumber should only be called if your sink is leaking or clogged, but that’s not really the case. When it comes to sink plumbing Ghana, we can replace an old sink, find new systems to ease the use of your sink, and even help keep the sink sealed and bolted down so that mold won’t grow.

Replacing an Old Sink Affordably

Look, for many homeowners, it’s not hard to tell that your sink is outdated. Perhaps you’re trying to renovate your kitchen and the look of your sink screams “1980s.” Or, maybe your sink just doesn’t work like it used to and you’d rather have a newer model that actually works as intended.

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The Future of Sustainable Living: Portable Biogas Plants for Home Use

As the world moves towards more sustainable living practices, the demand for renewable energy solutions has surged. One of the most promising innovations in this space is the portable biogas plant for home use. These compact, efficient systems offer a way to convert organic waste into clean energy, providing numerous benefits for both the environment and homeowners.

What is a Portable Biogas Plant? A portable biogas plant is a compact unit designed to convert organic waste, such as kitchen scraps and garden clippings, into biogas through a process called anaerobic digestion. This biogas can be used for cooking, heating, or even generating electricity, making it a versatile and sustainable energy source. The by-product of this process is a nutrient-rich slurry that can be used as a fertilizer, promoting a circular economy within the household.

Benefits of Home Biogas Plants Environmental Impact: By reducing the amount of organic waste that ends up in landfills, biogas plants help lower greenhouse gas emissions. Methane, a potent greenhouse gas, is captured and utilized instead of being released into the atmosphere.

Energy Independence: Homeowners can produce their own renewable energy, reducing reliance on fossil fuels and lowering utility bills. This is particularly beneficial in remote or rural areas where access to conventional energy sources may be limited.

Nutrient Recycling: The by-product of biogas production is an excellent organic fertilizer. It enriches soil health and reduces the need for chemical fertilizers, promoting sustainable gardening practices.

Cost-Effective: Over time, the savings on energy bills and fertilizers can offset the initial investment in a biogas plant. Additionally, some governments offer incentives and subsidies for renewable energy installations, further reducing the financial burden.

How Does It Work? A typical portable biogas plant consists of a feedstock input area, a digester, a gas holder, and an output for slurry. Here’s a simplified overview of the process:

Feeding: Organic waste is added to the plant’s feedstock input area. This can include food scraps, agricultural residue, and animal manure.

Digestion: Inside the digester, microorganisms break down the organic material in the absence of oxygen. This anaerobic process produces biogas, which is primarily composed of methane and carbon dioxide.

Gas Collection: The produced biogas is collected in a gas holder or storage unit, from where it can be piped to appliances like stoves or heaters.

Slurry Output: The remaining slurry is expelled and can be used directly as a fertilizer.

Installation and Maintenance Installing a portable biogas plant for home is relatively straightforward, but it does require some initial planning. Considerations include the amount of organic waste generated, space availability, and local climate conditions. Regular maintenance involves feeding the plant with fresh waste, monitoring gas production, and periodically removing and using the slurry.

Conclusion Portable biogas plants represent a significant step forward in the quest for sustainable living. They offer a practical solution for managing organic waste, reducing carbon footprints, and generating renewable energy at home. As technology advances and more people become aware of the benefits, these systems are likely to become a common feature in eco-friendly households worldwide.

With compliments from, The Directorate General Public Relations,

Government of the Punjab, Lahore Ph. 99201390.

No.1535/AbdulAli/Umer

HANDOUT (A)

CM PUNJAB CONDUCTS SEVEN-HOUR-LONG VISITS TO THREE HOSPITALS, AS MANY PARKS AND CTD HQ

LAHORE, Dec 29:

Chief Minister Punjab Mohsin Naqvi undertook comprehensive visits to three hospitals, as many parks, and the CTD headquarters from late night until morning, and from morning to evening. Over a span of seven hours, CM Naqvi reviewed the progress at Children's Hospital, PIC, and General Hospital. He also scrutinized plans to restore Shalimar Garden to its original historical status, as well as the recreational facilities at Jallo Park and Botanical Garden Jallo for potential improvements. During his visit, CM Naqvi inaugurated the CTD Training School and presided over a meeting.

Expressing keen interest in the welfare of children, he inquired about the treatment facilities provided in the Children's Hospital emergency and directed immediate enhancements, including fixing new tiles on the main corridor floor. He sought new counters' designs from IDAP within 24 hours adding that new tiles and counters fixing should be completed within ten days.

Furthermore, he inspected ongoing construction at the Punjab Institute of Cardiology, issuing directives to expedite the laying of biogas pipes underground within 24 hours. He also emphasized the need for optimal arrangements in the waiting area for attendants and ordered the relocation of the generator to a suitable place.

Turning his attention to the General Hospital, CM reviewed the upgradation work on all four floors of the Emergency Block. He emphasized the importance of safe and standard wiring for biogas and AC pipes, as well as infection-free operation theatres. Noting some sluggishness in construction activities, he ordered to accelerate the pace of work.

CM Naqvi's visit to Shalimar Garden involved a detailed review of its overall condition. Riding in a rickshaw, he affirmed his commitment to restoring the garden to its original historical state. The CM ordered the removal of illegal constructions around the garden, tasking the deputy commissioner Lahore with the responsibility. Additionally, he instructed the MD WASA to devise a sustainable solution for water drainage along the outer wall of the garden.

In his visit to Jallo Park and Botanical Garden Jallo, Mohsin Naqvi expressed dissatisfaction with broken roads and poor conditions in Jallo Park, demanding a plan for its upgrade. He directed the immediate transfer of park management from the forest department to the PHA, emphasizing the need for improvements.

Later, at the CTD headquarters, CM Naqvi inaugurated the CTD Training School, met corporals under training, and commended their professional training. Appreciating the efforts of IG police and AIG (CTD), he highlighted the exemplary role of CTD Punjab in suppressing terrorism. The CM was also briefed about successful intelligence-based operations. He praised AIG (CTD) for transforming CTD into an exemplary institution through effective teamwork. Assuring support, the chief minister stated that the Punjab government would provide the latest weapons and technology to enhance the operational and intelligence capabilities of CTD Punjab. He also shared plans for the construction of 313 new houses for Punjab Police, the establishment of 40 new smart police stations, the implementation of safe city projects in 20 cities by Jan 31 and the provision of land to 737 police stations by the same date.

IG police, home secretary, Addl IG (South Punjab), CCPO and others were also present.

*****

No.1536/AbdulAli/Umer

HANDOUT (A)

CM BRINGS SMILES TO YOUNG PATIENT AT CHILDREN'S HOSPITAL

LAHORE, Dec 29:

During his visit to Children's Hospital, Chief Minister Mohsin Naqvi was greeted by a heartwarming moment when a child patient flashed a smile at him. Engaging with the young patients in the emergency ward, the CM expressed genuine concern for their well-being.

Approaching the bedside of Mohammad Ahmad, a child receiving medical attention, CM Naqvi warmly shook hands, exchanged affectionate gestures, and inquired about the child's condition. Spending several minutes beside Mohammad Ahmad, the CM engaged in a conversation, holding the child's hand, who reciprocated with continuous smiles.

The child's mother took the opportunity to inform CM that her son is an admirer of his. Mohsin Naqvi enquired about the health challenges faced by Mohammad Ahmad.

The CM also sought updates from the attending doctor regarding Mohammad Ahmad's treatment and directed to ensure the provision of the best medical facilities. Extending his inquiries, CM also checked on the well-being of other children and sought feedback from their mothers regarding the healthcare services provided to them.

*****

From Plate to Tank: Tackling Food Waste Removal and Septic Tank Maintenance

In our everyday lives, we often don't consider what happens after we've enjoyed a meal. We scrape our plates into the sink, rinse them, and let the water carry away the remains. But have you ever wondered what happens to all that food waste? Or how it might affect your septic tank? This blog post will delve into food waste removal and maintenance of septic tanks and the essential role of waste tanker cleaning services in managing these crucial aspects of household and commercial waste management.

1. Food waste removal: A growing concern:

Food waste is a significant global issue, with households, restaurants, and food establishments contributing tons of waste each year. Improper food waste disposal can lead to clogged drains, foul odours, and even more severe environmental problems. This is where professional waste removal services come into play:

- Professional food waste removal:

Professional food waste cleaning services specialize in collecting and disposing of food waste efficiently and sustainably. These services use specialized equipment and processes to prevent food waste from ending up in landfills, where it can contribute to methane emissions.

- Reducing environmental impact:

You can reduce your environmental footprint by utilizing waste removal services for food waste. These services often divert food waste to composting facilities or anaerobic digestion plants, which can be converted into valuable resources like compost and biogas.

2. Septic tank maintenance: The unseen hero:

Proper septic tank maintenance is essential for homes and businesses that rely on septic systems to prevent backups, costly repairs, and environmental contamination. Neglecting your septic tank can lead to expensive consequences:

- Regular pumping:

One crucial aspect of septic tank clearance and maintenance is regular pumping. Over the period of time, solids starts to accumulate in the tank if it’s not cleaned timely, hence, reducing its capacity. Waste tanker services play a vital role by efficiently removing the accumulated sludge and scum from your tank.

- Preventing blockages:

Septic tanks are sensitive systems. Too much solid waste entering the tank can clog the system and cause backups. Regular maintenance, including waste tanker cleaning services, helps prevent these blockages and ensures a smoothly functioning septic system.

3. The role of waste tanker services:

Waste tanker cleaners are the unsung heroes of waste management. They provide essential support for both food waste removal and maintenance of septic tanks:

- Efficient collection:

Waste tank cleaners have specialized trucks equipped to collect and transport various types of waste, including food waste and septic tank waste. This efficiency ensures that debris is safely and hygienically removed from your property.

- Environmental responsibility:

Many waste cleaning service providers prioritize environmental responsibility. They adhere to strict waste disposal and recycling guidelines, ensuring that waste is managed to minimize environmental harm.

4. Synergistic approach:

The synergy between removing food waste and septic tank maintenance lies in responsible waste management:

- Minimizing food waste:

By reducing food waste at the source, you can lessen the burden on your septic system. Educate your household or staff about minimizing food waste to keep your septic tank in optimal condition.

- Regular maintenance:

Incorporate regular septic tank cleaning & maintenance into your waste management plan. This proactive approach can extend the lifespan of your septic system and reduce the chances of costly repairs.

 Conclusion: A greener future for waste management:

Responsible waste management is essential for both the environment and your wallet, from plate to tank. Septic tank or waste tanker services play pivotal roles in maintaining a greener and healthier environment.

By embracing the sustainable practices of professionals like Ashwaste Environmental Ltd., you can contribute to a greener future, reducing the environmental impact of food waste while ensuring your septic system operates smoothly for years to come.

Step-by-Step Guide to Setting Up a Portable Biogas Plant in Your Home

Portable biogas plants offer an innovative solution for homeowners to convert organic waste into clean energy. With their compact size and simple setup, these plants can be installed in residential settings, providing a sustainable source of renewable energy. This step-by-step guide will walk you through the process of setting up a portable biogas plant in your home, empowering you to contribute to waste management and energy generation.

Assessing Feasibility: a. Evaluate available space: Determine the area in your home or backyard suitable for installing a portable biogas plant. b. Analyze waste generation: Assess the quantity and type of organic waste produced in your household, such as kitchen scraps, vegetable peels, or garden waste. c. Calculate energy requirements: Estimate your energy needs to determine the appropriate size of the biogas plant.

Choosing the Right Portable Biogas Plant: a. Research available options: Explore different models of portable biogas plants, considering factors like capacity, durability, and maintenance requirements. b. Consider safety features: Ensure the chosen plant includes safety mechanisms to prevent gas leaks and manage pressure.

Gathering Equipment and Materials: a. Biogas digester: Acquire a suitable biogas digester that matches your requirements and available space. b. Inlet and outlet pipes: Purchase high-quality pipes for waste input and biogas output. c. Gas storage unit: Obtain a gas storage system capable of safely storing the generated biogas. d. Gas stove or burner: If you plan to use the biogas for cooking or heating purposes, invest in a gas stove or burner compatible with biogas.

Preparing the Installation Site: a. Clear the area: Clean the designated space and remove any obstacles or debris. b. Level the ground: Ensure the installation site is leveled to provide stability for the biogas plant. c. Install a concrete base: Create a solid foundation using a concrete slab or base for supporting the digester.

Assembling the Portable Biogas Plant: a. Follow the manufacturer’s instructions: Refer to the provided user manual for specific assembly steps. b. Connect the inlet and outlet pipes: Establish a connection between the waste inlet and gas outlet pipes. c. Install the gas storage system: Position the gas storage unit in a safe and accessible location near the digester.

Introducing Organic Waste: a. Feed the digester: Begin adding organic waste to the digester, ensuring a balanced mix of carbon-rich (e.g., kitchen waste) and nitrogen-rich (e.g., green waste) materials. b. Maintain the appropriate temperature: Monitor and adjust the digester’s temperature to facilitate the decomposition process.

Collecting and Utilizing Biogas: a. Monitor gas production: Observe the gas storage system and check for the accumulation of biogas. b. Test the gas quality: Verify the purity of the biogas using appropriate testing equipment. c. Connect gas stove or burner: If desired, connect the gas stove or burner to the gas storage unit for cooking or heating purposes.

Maintenance and Troubleshooting: a. Regular maintenance: Follow maintenance guidelines provided by the manufacturer to ensure optimal performance and longevity. b. Troubleshooting common issues: Familiarize yourself with common problems such as gas leaks, clogging, or low gas production, and learn how to address them.

By following this step-by-step guide, you can successfully set up a portable biogas plant for home, contributing to waste management and renewable

New milestone passed by Veolia for delivery of renewable electricity to the UK

Veolia has passed a new milestone for delivering net zero power by delivering more than six times the renewable electricity to the grid than it uses across its 400 offices and sites across the UK.

The global resource management firm says that by generating 856 GWh of electricity using a combination of biomass, landfill gas, biogas and Energy Recovery facilities (ERF), that qualify under the Renewable Energy Guarantees of Origin (REGO) scheme, it is able to supply a secure annual equivalent to power 240,000 homes.

This exported electricity adds to the 2.5TWh of CHP, low carbon and renewable generation that serves around 500 customer sites spanning the industrial, healthcare, water, leisure, district heating, education and retail sectors. This output includes 134MWe of generation capacity using biogas, biomass, and solar sources which save around 200,000 tonnes of CO2 emissions each year for Veolia’s customers.

An added benefit of this electricity is the cogeneration of green heat with some of the plants supplying communities and businesses using district heating networks. These deliver around 2 GWh of heat equivalent to the heating needed for 120,000 homes. As an estimated 20 per cent of the nation’s carbon emissions are generated by domestic heating, due to a low standard of energy efficiency, using district heating from these sources lowers carbon emissions and can help reduce cost, and fuel poverty, in vulnerable groups.

Gavin Graveson, Veolia Senior Executive Vice President Northern Europe Zone said: “Energy market volatility, and the ability to deliver stable power has highlighted the importance of reliable sources of energy that can support our modern lives and the UK power infrastructure. By actively developing renewable and low carbon generation we can already produce the affordable and sustainable energy that is essential to support communities and businesses. 

“As more baseload generators such as nuclear, coal and CCGTs retire, stable renewable sources are set to play an increasingly important role as demand increases with population growth, adoption of electric vehicles, electricity to heat homes, and increased demand of the rapidly expanding internet of things. We are already demonstrating what can be achieved today to secure sustainable independent power for the UK, but to accelerate this development the UK now needs to act on the incentives for investment in decarbonisation, and realise the net zero future for power.”

2023 FMJ and Grundon Recycling and Waste Management Survey

FMJ in conjunction with Grundon Waste Management is pleased to launch the 2023 waste management and recycling survey which examines the ways in which FMs approach their waste management responsibilities.

In this, the sixth year for the annual appraisal, we know there is a greater opportunity than ever for FMs to reappraise their waste and recycling operations and help their organisations meet the growing pressure to achieve ESG goals.

We want to learn how FMs have adapted to the legislative, economic and societal changes of the past year and how they plan to meet the latest waste and recycling targets.

In this survey we’ve posed a series of questions which include insights into FMs’ waste management strategy and targets, how they’re moving towards zero waste targets, and the importance of not just meeting compliance targets but also ESG goals.

The results of the 2023 survey will be published in FMJ magazine and form the basis of a white paper co-written by FMJ and the experts at Grundon on how to approach waste and recycling strategies.

To take part click .

The post New milestone passed by Veolia for delivery of renewable electricity to the UK appeared first on FMJ.

This content was originally published here.

India's Union Budget Highlights 2023, Change in New Tax Rates, Green Energy Boost, and More

Finance Minister Nirmala Sitharaman presented the Union Budget 2023 following the notion of Amrit Kaal, saying that the economic growth for the current year is estimated at 7%. For FY2024, the fiscal deficit will be at 5.9% from 6.4% in FY2023. The same may come down to 4.5% in 2025-26. New tax regime to become the default tax regime. It entails lower tax rates for Hindu Undivided Families and individuals if they do not avail of the specified deductions and exemptions such as interest on a home loan, house rent allowance, and investments as per Section 80C.

The new tax regime rates are nil for income up to Rs. 3 lakhs. 5%, 10%, 15%, 20%, and 30% is applicable for income bracket for Rs. 3 lakhs to Rs. 6 lakhs, Rs. 6 lakhs to Rs. 9 lakhs, Rs. 9 lakhs to Rs. 12 lakhs, Rs. 12 lakhs to Rs. 15 lakhs, and over Rs. 15 lakhs, respectively.

Individuals with income of Rs 15.5 lakh and beyond can benefit from a standard deduction of Rs 52,500 in the new tax regime.

But you can still choose to be under the old tax regime. The old tax regime will not apply taxes on income up to Rs. 2.5 lakhs. 5%, 15%, 20%, and 30% tax are applicable on the income bracket of Rs. 2.5 to Rs. 5 lakhs, Rs. 5 to Rs. 7.5 lakhs, and over Rs. 10 lakhs, respectively.

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Here are further updates announced in the Union Budget this year:

Relief for MSMEs by investing in green energy. An outlay of Rs. 35,000 crores for investment into energy transition.

A new scheme to supply food grains was implemented from 1 January 2023 to priority households and all Antaodaya for the next year. An agricultural accelerator fund for entrepreneurs in rural areas launching start-ups to develop innovative and affordable solutions for farmers.

16% hike in customs duty for cigarettes. Plan of 100 labs for 5G solutions for engineering colleges. Data embassies are to be set up in IFSC Gift City for digital continuity solutions. Government to set up a National Financial information repository.

Emergency Credit Line Guarantee Scheme (ECLGS) extended up to March 2023. Expansion in guarantee cover by Rs. 50,000 crores with a total of Rs. 5 lakh crores as cover. This added amount will be exclusively utilized for hospitality and related companies.

50 additional water aerodromes, airports, and landing grounds for regional air connectivity intended to push up the existing UDAAN scheme.

From April 2023, Rs. 9,000 crore corpus for Credit Guarantee for MSME.

Phase 3 of eCourts with an outlay of Rs. 7,000 crores, which will replicate the offline processes but on a digital platform.

To boost the tourism sector, 50 destinations are selected via challenge mode – virtual and physical connectivity, tourism guides, and security available on an application to improve the tourist experience.

Green credit program under the Environment Protection act. Green hydrogen production by 2030 to reach 5 million tonnes. The government will set up a battery storage capacity of 4,000 MWH.

5% compressed biogas mandate to every entity that markets natural gas in the country. It will facilitate the transportation segment with an increase in CBG production.

To access anonymized data, the government will build a national data governance framework.

Rs. 2.40 lakh crore for Indian Railways, a 9 times hike from the outlay stated in 2013-14.

Mission to eradicate sickle cell anemia by the year 2047. It will consist of universal screening of 7 crore people in the age group of 0 to 40 years in tribal areas.

Set up of Urban Infrastructure Development Fund to meet the shortfall in priority sector lending. Rs. 1000 crores annually allocated. National Housing Bank to manage this fund.

Replacement of vehicles by the central government in order to upscale sales of automobiles and electric vehicles.

PAN or Permanent Account Number will be a single business identifier across digital systems on an integrated system for state and central-level departments.

Preparation of a National Cooperative database for de-centralized storage capacity to facilitate the setting up of dairy cooperative societies, farms, and fisheries for the next 5 years in uncovered villages in order to promote allied agricultural activities.

National mission with Rs. 15,000 crore proposal for vulnerable tribes to help with clean water, health, basic infrastructure, sanitation, and sustainable livelihood opportunities.

National digital library to provide quality books to adolescents and children across the nation to make up for the losses in education because of the pandemic.

Compared to capital expenditure allocation in 2022-23 of Rs. 7.5 lakh crore, for 2023-24, the amount has been increased to Rs. 10 lakh crores to encourage investment activity. Outlay of Rs. 1.3 lakh crore for infrastructure investment by government and continuation of interest-free loans for 50 years to state governments in this respect.

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Miscellaneous Posts

12/16/22

South Korea now recycles 100% of its food waste, compared with only 2.6% in 1996! Curbside composting became mandatory in 2013, with homeowners separating food waste from trash, which is collected daily from homes and taken to reprocessing centers where it is turned into biogas, animal feed, and fertilizer.

The US has tapped into its existing weapons stockpiles 26 times since February, committing more than $19 billion insecurity assistance to Ukraine – certainly a large amount but only about 0.5% of the $1.64 trillion defense authorization in FY2022. For comparison, NATO ally Slovenia pledged 40% of its tanks and Norway 45% of its long-range weapon supplies but tiny Russian neighbor Estonia punches fare above its weight by takes the honors for giving one-third of its entire defense budget to Ukraine

Kudos to the VA for adopting a “Housing First” policy – in which homeless vets are placed in no-strings-attached housing and then given the comprehensive support they need to stay housed - under which one-half of homeless vets were housed during the 2010 to 2020 decade. Furthermore, thanks to $481 million in funding from Biden’s American Rescue Plan, the point-in-time count in January 2022 showed vet homelessness was reduced by an additional 11%, from about 37,000 to 33,000.

The US gained a lot of good will by becoming the largest donor of emergency and recovery assistance aid to Pakistan (nearly $100 million) during and following its recent devastating flooding.

We all need to always remember - Not a single Republican Senator voted to pass the American Rescue Plan, which did so much to save our most needy and vulnerable from destitution. I know it is burned in my memory.

Biogas plant for home: A Sustainable Solution for Home Energy Needs

What is a biogas plant for home?

A biogas plant for home is a small-scale system that utilizes organic waste, such as kitchen scraps, food leftovers, garden waste, and animal manure, to produce biogas. The process takes place in a biodigester, which is a sealed container that facilitates the decomposition of organic matter by bacteria in the absence of oxygen. As the waste breaks down, it produces biogas, primarily composed of methane (CH4) and carbon dioxide (CO2), along with trace amounts of other gases.

Setting up a biogas plant at home:

Setting up a biogas plant for home use requires careful planning and consideration. The following steps provide a general overview of the process:

a. Site selection: Choose an appropriate location for the biogas plant, considering factors such as accessibility, availability of organic waste, and space requirements.

b. Biodigester construction: Construct or acquire a biodigester suited to your needs. Biodigesters can be made from various materials, including concrete, plastic, or fiberglass.

c. Feedstock preparation: Collect organic waste materials such as food scraps, vegetable peels, and animal manure. Chop or blend them to increase their surface area and enhance decomposition.

d. Feeding the biodigester: Add the prepared organic waste into the biodigester, ensuring an appropriate mix of carbon-rich (e.g., food waste) and nitrogen-rich (e.g., animal manure) materials.

e. Gas collection and utilization: Connect the biodigester to a gas collection system and a gas storage unit. The collected biogas can be utilized for cooking, heating, or generating electricity through biogas stoves, heaters, or microturbines.

Benefits of a biogas plant for home:

a. Renewable energy source: Biogas is a clean and renewable energy source that reduces reliance on fossil fuels and lowers greenhouse gas emissions.

b. Waste management: By utilizing organic waste materials, a biogas plant helps divert waste from landfills, mitigating the environmental impact associated with waste decomposition.

c. Cost savings: Biogas production can significantly reduce household energy expenses, particularly for cooking and heating purposes.

d. Fertilizer production: The residue left after the digestion process, known as digestate, is an excellent organic fertilizer that can be used in gardens or agricultural activities.

e. Self-sufficiency: A biogas plant empowers homeowners to generate their energy, reducing dependence on external energy providers and fostering a sense of self-sufficiency.

A biogas plant for home offers an innovative and sustainable solution to meet energy needs while simultaneously addressing waste management challenges. By converting organic waste into valuable biogas and organic fertilizer, homeowners can contribute to a cleaner environment and reduce their ecological footprint. While setting up and maintaining a biogas plant may require initial investment and effort, the long-term benefits make it a worthwhile endeavor for those committed to sustainable living and responsible energy consumption.

 Are Commercial Solar Panel Installations Affordable?

Introduction: we are in a world blitz of a solar revolution. There are many in favor of more solar installation and usage. And there is an urgency to it pointing to the global warming concerns and the environment. However, for most would-be users, the questions that often arise are its costs. Is it affordable initially and eventually? Are there practical proofs for solar panels cost for commercial buildings? How can the cost of solar panels and usage be gauged & calculated? These and more questions will receive answers from the best solar installation contractors.

Why Are Solar Commercial Solar Panels Cheaper than Grid Power?

(a). It's fairly cheaper to generate electricity with sunlight than conventional systems. When compared to other forms of electricity, solar panels can generate more than enough power to run basic and other advanced business systems and machines. It makes a business' energy bill to drop due to self-sufficiency in energy production and usage.  

(b). It is a sustainable, renewable, and cleaner form of energy. It is unlike nuclear, thermal, hydroelectric, biogas, or other electric generation forms. The presence of the sun is enough to guarantee the ability to generate and store surplus power. That makes it have a lower or zero effect on the environment. The cleaner mode of generation is another key ingredient. 

(c). It's easy to set up and highly durable & reliable. The best part is that it won't take weeks, months, or years to see the benefits of your solar investment. The benefits are instant, and the durability factor is a big plus. It frees the business from the high-rising and unstable grid power supply issues. It is reliable, dependable, and sustainable. Businesses can operate at lower power or energy bills & costs.

(d). The panels have unlimited capacity to generate electricity for several years. Whether there is sunlight directly or not. The sun constantly emits radiative power that is easily turned into energy.

(e). There is easy access to government and private sector funding. Any solar power initiative will get better funding at better interest rates.

(f). It's easy to evaluate and analyze going by performance per year, monthly, or quarterly.

What is the Average Solar Maintenance Cost in Kent?  

A commercial solar power system's cost and maintenance depend on a few things. They are:

(a). Silver - 995 pounds + VAT per annum.

(b). Gold - 1,855 pounds + VAT per annum.

(c). Platinum - 2,350 pounds + VAT per annum.

Businesses (small, medium, and large) can have solar maintenance plans based on their power needs. It will lower grid energy use and help cut operating energy bills. The business is on the benefitting side.

So, what is the answer to the question at the start? Yes, there are many low-cost solar panel options. And with the commercial solar panel installer, businesses have a range of solar service offerings.

Summary: today, there are more commercial solar installations as there are several long-term advantages & benefits to businesses. It's easy to overlook the initial cost of installation for the benefits that come with energy savings. There are many options for solar panels for businesses. It's possible and easy for any business to find the right fitting commercial solar PV installers with the greatest service and product bargains.

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Ev Installation Kent

Commercial Solar Power System Cost

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Harnessing Sustainability: A Guide to Implementing a Biogas Plant for Home Use

Introduction: In an era where sustainable living practices are gaining traction, the concept of home biogas plants emerges as a viable solution for both environmental conservation and energy production. This article delves into the intricacies of setting up a biogas plant for home right at your doorstep, offering insights into its benefits, implementation process, and the transformative impact it can have on household sustainability.

Understanding Biogas Production: Biogas, a renewable energy source, is generated through the anaerobic digestion of organic materials such as food scraps, agricultural waste, and animal manure. This process, facilitated by microorganisms, produces methane-rich gas that can be harnessed for various household energy needs.

Benefits of Home Biogas Plants: Installing a biogas plant at home presents a myriad of benefits. Firstly, it offers a sustainable solution for managing organic waste, reducing the environmental burden of landfills and methane emissions. Additionally, biogas production provides households with a reliable source of clean energy, ranging from cooking fuel to electricity generation, thereby promoting energy independence and cost savings.

Implementing Your Biogas Plant: Setting up a biogas plant for home use requires careful planning and execution. Begin by assessing your household’s waste generation and energy needs to determine the appropriate scale and design of the plant. Next, select suitable materials and construction methods for building the digester and gas storage system. Consider factors such as location, temperature, and feedstock selection to optimize biogas production efficiency.

Operating and Maintaining Your Biogas System: Once the biogas plant is operational, proper management and maintenance are essential for optimal performance. Follow startup procedures to initiate biogas production and monitor gas output regularly. Implement feeding protocols to maintain a balanced microbial ecosystem within the digester and ensure proper gas storage and utilization. Regular inspections and maintenance tasks will prolong the lifespan of the system and maximize energy output.

Conclusion: In conclusion, the integration of a biogas plant for home into residential settings offers a sustainable solution for waste management and energy production. By harnessing the power of organic materials, households can reduce their environmental footprint, lower energy costs, and embrace a more self-sufficient lifestyle. As we strive towards a greener future, the adoption of home biogas systems represents a tangible step towards sustainable living practices.

Gobar Gas से CNG कैसे बनाई जाती है !! || Biogas to CNG making & Refilling in India

Gobar Gas से CNG कैसे बनाई जाती है !! || Biogas to CNG making & Refilling in India

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TSA joint project: Diving into the design process

16 December 2020. The first meeting starts at 8 a.m. Project: Hostel, East Africa

In addition to facilitator Pablo, the other Fellows are in the online conference - this time via Zoom - joined by the local architect and his team, and former TS Fellow Achilles Ahimbisibwe (Associate Dean at Uganda Martyrs University) as an on-site consultant. The "pilots" Michelle Hur and Mohammed Hamza are present; Monika Lauster and Bertram von Negelein are listening in; it is also important to record this stage of the first joint project of the TSA7 Fellows.

After the round of introductions, the first questions reveal details. Edge certification* is being heavily considered but will not be analysed in detail for the time being. Uganda's grid electricity comes mainly from hydropower, but the infrastructure is not very reliable. The power can be out for long periods of time, and it is expensive. For this reason, too, it is planned not to install any power sockets in the dormitory rooms. In addition, no one will be tempted to cook secretly in the dormitory. The trainees will receive their food from the school.

In Uganda, it rains on average twice as much as it does here in Europe, so water is not actually in short supply, but this does not mean that it is not an issue, especially since the city's plumbing system is not particularly well developed.

How are the trainees normally dressed? This question is allows the Fellows to calibrate comfort measures according to clothing level. The usual school uniform of skirts for girls or trousers  for young men allows the locals to be comfortable in this climate. There are no set routine for dorm occupancy. Classes are variable; trainees return to their dorm rooms intermittently  during break periods. They generally stay on site during the semester; hardly anyone goes home for the weekend.

Sandhiya presents various options for shading for consideration. She shows examples made of bamboo. The architect emphasizes that a robust solution should be aimed for, requiring as little maintenance as possible. Eucalyptus wood is popularly used in Uganda. The desire to hang clothes in front of the east windows to dry should not conflict with shading strategies.

Ana proposes ventilation strategies. We learn that fans are rarely used in Uganda. "We don't need them," we are told. Whether this is primarily driven by power costs and maintenance remains an open question. On the other hand, there is sometimes so much wind that one would  close the window from time to time. By the way: mosquito nets are never used there with openable windows, only with permanent ventilation openings they are standard. The humidity in Kampala is said to be not as high as in more northern regions of Uganda. The example of ventilating the rooms naturally and with little technology via solar chimney arouses curiosity. It is true that noise transmission via the air duct from room to room and possible additional costs have to be considered. However, these costs must be weighed against the potential savings from the reduction in windows or in window sizes. Transsolar has examples of schools in its portfolio which demonstrate successful implementations of stack ventilation (with good air flow and no acoustic problems).

Francis takes his turn. He presents options for water collection, use and treatment, which include capturing and collecting rainwater from the roof, using gray water for flushing toilets or for irrigation. Four showers and four WCs are planned for each floor; on top of that there will be laundry areas where trainees can wash their clothes. Black water is typically collected on site in a septic tank and emptied as needed. A septic digester, on the other hand, could be used to produce biogas for further use. Another option would be to use composting toilets, which require urine to be collected separately and require an absorbent material such as sawdust or ash for the solids. Also, a biological treatment plant is theoretically possible; this would require the construction of a vegetated pond. A sketch shows how the fresh, rain-, grey- and blackwater systems interconnect. And again, the question arises, which system requires the least amount of maintenance? In the event of an operational problem, it usually takes quite a long time to resolve the problem, in the architect's experience. To move forward here and to estimate costs for comparison, Francis now needs to estimate of all sorts of values: How much water should optimally be stored on the roof, to balance structural costs and the daily water demand? How big do the main rainwater cisterns in the ground have to be? How much gas can be extracted from solid waste?  What water requirements can be expected? Achilles can obtain and pass on values for this.

Ketan leads the electricity discussion. From the design team, we learn that    excess power from a photovoltaic array  can only be fed into the public grid in special cases in Uganda. This unfortunately means that there is no option to sell the surplus electricity of a PV system during the day and to get paid for it. If there is only lighting with LEDs in the building, a small area on the roof equipped with photovoltaics would be sufficient. However, the 2600 m² roof has a much larger potential  to generate energy. Its amount also depends on the angle of inclination at which the panels should be placed, so that they clean themselves without maintenance, even when it rains. The energy generated would have to be used during the day, not just by pumping water onto the roof. It is conceivable that it could be used in the school about 100 m away, and a battery system would be used to store electricity for the night.

Finally, more questions  are asked, and other open points are collected: How big do the windows need to be to get enough daylight into the rooms, or is daylight needed from both sides of the rooms? For sure, the students sleep in the rooms, but the curriculum is irregular, school hours are intermittent throughout the day; trainees frequently return to their rooms then. It should also be noted that it can rain buckets in this area: A good stormwater management plan would be advantageous. A few material options are also open. A skeleton of reinforced concrete will support the building, the use of Zero Carbon Panels (special sustainably produced panels based on straw by-product) is certain. For the washrooms and showers, a wall design which allows air and light transmission is desired and remains open for discussion.

By next week, before Christmas, Transsolar will put together a "Booklet of Options," a compilation of possibilities. The next meeting is scheduled for January 13, 2021.

*Example: to achieve the EDGE standard, a building must be 20 percent more efficient than a standard building at that location in three categories: energy, water and gray energy of materials.

The Richmond Vale Academy’s Contribution to the SDGs

One local venture in St. Vincent and the Grenadines that is contributing significantly to the United Nations, 2015 sustainable development goals is the Richmond Vale Academy (RVA). The RVA is in Chateaubelair which is located on the northern, rural part of St. Vincent. This local organisation is a non-profit research and training institution that offers both local and international students the opportunity to participate in courses focused on poverty reduction, environmental preservation, and climate change awareness. As such, the RVA encompasses many of the seventeen sustainable development goals into its mission and at the centre of the courses extended to its students.

 The Richmond Vale Academy is committed to helping build a sustainable future through ecological farming and environmental courses, Jeffers 2022.  The courses offered at the academy includes Climate Compliance, Permaculture Design, Fighting with The Poor, an Environmental, Climate Change and Biodiversity Course along with a range of short courses to help facilitate with eco-tourism such as Advanced Open Water Diving, Rescue Diving, Master Scuba Diving, Open Water Diving and Horse Training. Most of the courses provide students with the prospect of becoming a climate change activist and skills essential to develop sustainability leadership.

The academy contributes to the achievement of the United Nations, 2015 sustainable development goals and specifically Goal No. 2, Goal No. 7, Goal No. 14, Goal No. 15 and Goal No. 17. Here is how the RVA is making a difference and promoting a more sustainable future.

·       Goal 2- End Hunger, achieve food security and improved nutrition and promote sustainable agriculture, is supported by the academy’s ‘Sustainable Home Gardens’ project. This project has successfully completed more than 100 home gardens in local villages and intends to meet the target of 1000 gardens by 2025.

·       Goal 7- Ensure access to affordable, reliable, sustainable, and modern energy for all, is championed by the academy’s ‘How to Build a Biogas Plant’ project which teaches locals about sustainable energy that can be employed for home cooking use. In addition, the academy utilizes solar panels for its own energy purposes and stores this solar energy on-site using batteries.

·       Goal 14- Conserve and sustainably use the oceans, seas, and marine resources for sustainable development, is advocated by the academy through projects focusing on coastal restoration where coastal nurseries are to be created in the Grenadine islands and on the mainland of St. Vincent. According to the RVA, their plan is to reproduce 10,000 Elkhorn corals and 30,000 staghorn corals which transforms to roughly 40 hectares of reefs that will be improved in the area between St. Lucia and down to Petit St. Vincent. Furthermore, the academy is dedicated to the mangrove restoration at the Richmond coastal wetland, “which supports the overall biodiversity of many species of fish, shellfish, birds and marine mammals” (The Richmond Vale Academy, 2007).

·       Goal 15- Protect, restore, and promote sustainable use of terrestrial ecosystems, sustainably manage forests, combat desertification, and halt and reverse land degradation and halt biodiversity loss, is promoted by the academy as it has its own organic food gardens and makes use of the forest food which has about 800 trees that were planted over a 10-year period. The academy also utilizes crop diversification to help minimise land degradation.

·       Goal 17- Strengthen the means of implementation and revitalize the global partnership for sustainable development, is incorporated into the operations of the RVA. The academy partners with various other organisations ranging from schools, and farmers groups to governmental ministries and international developmental agencies to ensure “a more just and climate compliant future” (The Richmond Vale Academy, 2007).

References

 Jeffers, G., 2022. The Richmond Vale Academy: Its Contribution to a Sustainable Future. [Interview] (25 January 2022).

 The Richmond Vale Academy, 2007. The Richmond Vale Academy. [Online] Available at: https://richmondvale.org/en/about/richmond-vale-academy [Accessed 19 January 2022].

 United Nations , 2015. Department of Economic and Social Affairs: Sustainable Development. [Online] Available at: https://sdgs.un.org/goals [Accessed 24 01 2022].

 United Nations, 2015. Transforming Our World: The 2030 Agenda for Sustainable Development, New York: United Nations .