WASTE TIRES AND INNOVATION

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                   Figure. Creative use of Waste Tire by TGG Mentees Batch -II under Mentor                                                                    Anil Chitrakar 

                           Ever wondered about the tires which are no longer roadworthy after they are used? They are stockpiled, dumped in landfills, or just thrown away on roadsides. This linear product use approach results in a massive waste.

              Tires, whether it is electric, solar powered, gasoline, or hydrogen fueled vehicle, are indispensable components for the transportation industry. Scrap tires have potential to harm local environments and negatively affect human health. The most common problems associated with waste tires are open air fires and the creation of breeding ground for rodents and mosquitoes. It’s bad but it’s a fact. According to The Freedonia Group Report it is estimated that the world demand for tires is forecast to rise 4.7 percent per year through 2015 to 3.3 billion units, approximately same amount of tires are disposed of every year and almost 20% of them are illegally dumped in landfills, or just thrown away on roadsides.

              Is this the end of the story? No, a these approaches can ultimately lead towards right environmental choice and would also make good financial sense.

Circular Economy

              The alternative to the growing waste concerns is to develop a circular economy which goes much further than recycling and there is a strong business case for development. Building recycling industries to recover, recycle and process the waste tires – with the focus on the reduce and reuse principles, unemployed people can find gainful employment, SMEs can be developed and, the environmental disaster that waste tires represent can be economically and effectively addressed. Analysis by McKinsey estimates that shifting in this direction of circular economy model could add $1-trillion to the global economy by 2025 and create 100 000 new jobs within the next five years. It’s worth it!

Energy

              A normal used passenger car tire weighs 7.2 kg; it contains at least 238 MJ of thermal energy, which can be useful in some dedicated facilities. In thermoelectric plants, tires are fed into the hearth without any pre-treatment or slicing. This process is an economically viable alternative for used tires that cannot be effectively retreaded, generating a large amount of by-products. Each ton of input (as tires) generates 287 kg of solid residue made of zinc oxide, ferrous slag and gypsum, each with a well-defined market. The use of old tires as fuel has the advantage that it does not generate any waste beyond what is usually generated by a standard cement production process. Sliced tires can be fed into the kiln with the other raw materials. The energy in the rubber provides the heat while the combustion residues are incorporated in the cement without compromising the product’s quality. The ferrous material from the steel wire partially substitutes the large quantities of iron ore used in cement production. Several fuels are used in a cement plants including coal, natural gas and oil. The rubber may provide roughly 20% of the heat required in the kiln, generally at a lower cost than the other fuels. The high temperature of combustion, around 1400°C, under appropriate supply of oxygen, ensures complete burnout of the organic material.

Construction Applications

              Rubberized asphalt is an alternative to traditional paving material that combines the strength and versatility of asphalt and the longevity and flexibility of recycled rubber. Derived from scrap tires, the material is said to be longer lasting, safer, less costly and friendlier to the environment than traditional paving materials.

              Scrap tires can be processed into ground rubber to modify asphalt thereby creating rubberized asphalt and rubber asphalt concrete. Asphalt companies buy large quantities of shredded rubber crumbs to mix with their hot melt asphalt to make pavements cheaper. Other road construction companies purchase large quantities of medium sized shredder tires to use in road beds for minimizing vibrations and for highway sound barriers. Rubberized asphalt is not just sustainable, but actually better than the traditional alternative, better in every way.

              Old tires can be used in barriers such as collision reduction, erosion control, rainwater runoff, wave action that protects piers and marshes. With a blend of art and engineering, the civil engineering applications of waste tires are emerging.

Re-Purpose

              We can use old tires in child’s play areas. They’re great for setting up an obstacle course or making a sandbox or a tire swing. Tire mulch is also sold as padding for children’s playground. We can make soles for shoes or even entire pairs of flip-flops. We can make livestock feeders or pet house out of old tires. Used tires can be transformed into furniture with a little pie of skill and imagination. Since tires are black and they retain the heat from the sun easily, you can use them in your garden for growing your plants earlier. Basically, you can grow plants and veggies in tires earlier than in the ground. This trick works great with those species that require more warmth. You can make an outdoor storage bin using old tires secured together with some plywood and painted in your favorite color. Old tires can be transformed into a cool coffee table or other cool pieces of furniture. Just dive, there’s a world of thing you can do. Re- think!              

              It has been years since we dumped the opportunities for business through valuation of the waste. But, an era is evolving to turn the wastes in every bin into something really spectacular and create value. It is a new shift in the resource management approach, a transition to the unexplored territory and it provides battle against the traditional inertia of waste management. This is the way towards sustainable economies and eco-innovation, and can drive development across the board. This benefits all of us.

About the authors:

Bipin Karki is a graduate student of Renewable and Clean Energy at University of Dayton, and Former TGG Mentee at WWF Nepal (carried out project to reuse tires). He can be reached at bpn_krk@hotmail.com

Bishnu Parajuli is a undergraduate student of Industrial Engineering at Institute of Engineering, Thapathali Campus and the President of Society of Industrial Engineering Students – Nepal. He can be reached bishnu.parajuli13@gmail.com.

As Published in : http://www.sajhapost.com/2017/01/11/58081.html

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Himalaya & Sun

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                     This is story of every household of Nepal’s Himalayan region when you climb above 3000 m altitude. Most of household including hotels, lodges, restaurant are equipped with solar panel turned into direction of sun. Due to lack of transmission line to transmit hydro power generated electricity, solar power is only viable source of power for people living here. People are cent percent dependent on solar power to charge mobile battery, lighting small portion of house and watching selected television program. Although it is costly and provide minimum amount of power to run daily life still it is boon for them. There is no clue for survey of transmission line and searching alternative power.

                     So solar technology is not only environment friendly but it has been only hope of people to lighten their house. Thus government should be able to provide subsidy and encourage use of solar power. This is not only be Eco-friendly but also save forest from deforestation. If you want to see real life use of solar technology pack your bag and move toward Himalayas.

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Hydraulic Ram Pump : Zero Energy Solution

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               The hydram is an automatic pumping device powered by falling water. The hydram uses a large amount of water falling through a small height, to lift a small amount of that water to a much greater height.

                 Each cycle happens very quickly, about 60 times a minute or once a second (although the cycle can be between about 30 and 120 times a minute). Since the cycle happens very quickly it is easiest to explain how it works by looking at the four stages:

Acceleration

                        When the waste valve is open, water flows down the drive pipe and comes out the open valve. The water flowing past the open valve drags past it, trying to close it. The flow down the drive pipe through the impulse valve gets accelerates. As it gets faster, it drags harder on the valve until it is strong enough to drag it closed.

Compression

                         When the waste valve closes, the water flowing down the drive pipe cannot escape through it. At the moment valve closes, the water is travels very fast and suddenly it has nowhere to go. As the water increased speed, it gains momentum. Since the water cannot escape, the momentum changes to pressure-energy and the water in the pump body compresses. This leads to a sudden rise in pressure, called a “water hammer”. The water pressure rises to a much higher level that the pressure in the pump’s air chamber.

Delivery

                        Because the pressure rises higher than the pressure in the air vessel, the delivery valve is pushed open and water flows through it. The pressure in the pump body drops quickly to equal the pressure in the air vessel. The water coming down the drive pipe slows down and the pressure in the pump body drops. As soon as the pressure falls enough to be lower than the pressure in the pump’s air vessel, the delivery valve closes. The delivery valve is a one-way valve, which stops water flowing back from the air vessel into the pump.

Recoil

                              When the delivery valve closes, there is still some pressure in the pump body and drive pipe. The valves in the pump are closed, so the only direction in which the water can move is back the way it came. The water coming down the drive pipe has stopped, so the pressure energy can be released by moving back up the drive pipe. The water in the pump body bouncing back makes the pressure in the pump body fall low enough for the waste valve to reopen. The waste valve reopens because of its own weight. The low pressure in the pump body means that a small amount of air is sucked in through the snifter valve. This air waits under the delivery valve until the next cycle when it will get pushed into the pump’s air vessel. This makes sure that the air vessel always stays full of air.

                                    Figure. Ram Pump Installation at Badegaun, Godawari

                        During each pumping cycle only a small amount of water is pumped. Most of the momentum harvested from a large amount of water is transferred into a small amount of water. The high pressure in the pump body pushes water through the delivery valve and into the air vessel. It provides the power to push the small amount of water much farther uphill than the big amount of water fall downhill.

                        While a hydram is working, water flows out of the waste valve. This happens during the ‘acceleration’ stage of each pump cycle. It is the noise of the “water hammer”, the splashing of water, and the closing of the waste valve that people notice when they see a working hydram. The noise varies from pump to pump. The water leaving the waste valve is often called ‘waste’ water. Although ‘waste’ water is not delivered by the hydram it is the movement-energy harvested from this water that pumps the water that is delivered. A better name for ‘waste’ water would be ‘used’ water.

                                     Figure. Ram Pump Installation at Badegaun, Godawari

Components Of A Hydram And Their Functions

  1. Intake: structure at source that diverts flow of water to the hydram system;
  2. Feed pipe or canal: delivers water from the source to the drive tank;
  3. Drive tank: provides storage to ensure a constant flow to the hydram and removes sediment from the water;
  4. Drive pipe: feeds water to the hydram;
  5. Hydram: pump unit that delivers a small amount of the drive flow to the delivery pipe;
  6. Pump house: to protect the pump and fittings from accidental damage or theft;
  7. Delivery pipe: delivers water from the hydram to the delivery tank;
  8. Delivery tank or pond: stores the water pumped by the hydram. Can be a cement based structure or a lined pond;
  9. Distribution system: distributes water to the users. Piping can take water to households, tap-stands or fields.

Starting a pump

                Although ram pumps often start very easily they can require a little coaxing particularly the first time that they are run. Procedure varies according to drive head in the system with large drive head requiring extra care to starts a pump.

  1. Open the waste vale fairly quickly.
  2. Water will flow out through the open waste valve until it suddenly shuts.
  3. If waste valve automatically reopens, the pumps should continue to run on its own. Some time you need to reopens the waste valve until it creates delivery head.
  4. If waste valve does not reopen automatically for long time, you must prime the delivery system manually by filling the delivery pipe until sufficient delivery head is available for the pump to operate.

    Figure. Installed Ram Pump at Dhungkharkha, Kavre

Source: Centre for Rural Technology/Nepal(CRT/N). All right reserved to CRT/N.

Solar Training and Capacity Building : Power to the People

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                                    March 29, 2016 Before dawn of warm and fuzzy morning I woke with sharp shrill of mobile alarm at 5:00 am. As it was planned to meet at 5:45 am at Old Bus Park to move into another adventurous travel on off load leading to Dhunkharka, Kavre. The bus ride from Old bus park took us to Panauti via Bhaktapur, Sangha, Banepa. The real journey began from here accompanied by Mr. Subash Lamichane and Mr. Kancha Tamang. The 14km dusty, bumpy, narrow and scary road begun from Panauti steadily uphill climb in bus cramped with people, animals (chickens), kids crying, people yelling at each other. It was perfect like Hindi film melodrama at bus. Irony was that we were not able to get any seat through out two hours ride. Even within bus we had to wear mask and continuous shake up really made me tired. But internal motivation to go there and help people to sort things out, teach them, connect them to more reliable energy was continuously pushing me up.

                                        After travel of 2 hours we reached Dhunkharka. The bus stop was on top of hill to reach to our destination we had to go downhill and again uphill. The slow down hill walk began interacting with each other knowing about peculiar things about location. It was good to be back on hills among tress, clam and serene country side where nothing bothers you except cool breeze, birds chirp and perennial flow of river. I encountered various rural technology like water mill, hydraulic ramjet pump, fodder cutting machine, solar system. The very delicious meal was waiting for us, prepared from organic vegetables, grains crushed from water mills, cooked in improved cooking stove, rice grown in nearby fields. This was perfect amalgamation of technology with rural livelihood.

                       The training sessions began at 11:00 am. The 22 owners of solar system were present in upper floor of cowshed. It was great to see energy and enthusiasm in people. The training started with introduction of speakers and participants. The training was planned for 2 hours and following topics were discussed:

  • The initial session explained about what is renewable energy, Solar as renewable energy.

  • Participants were introduced about solar system and its components like Panel, Battery, Charge Controller and Load.

  • Installation do how and safety handling was demonstrated with system present on the location.

  • Various Procedure for Repair and Maintenance were provided.

  • Specific care handling, minor damage and quick repair locally was provided about battery, charge controller and loads.

  • Final solar power use calculation was done and how much load people can use with technology given to them was shown.

Training Outcomes

                          The people have been following malpractice about solar system handling. The solar panel were hung as photo frame in walls, no safety precaution were taken, people were brining in & out panels in rains, their perception was heat generated more power than light. About training accomplishment participants got chance to learn about each components of solar system. They are now able to assemble and dis-assemble the system on their own. The standard parameters like facing panels on south direction, keeping panels at 30/45 degrees, keeping battery far from heat source, use of loads according to power generation, sustainability of battery system, various light symbols and their meanings present on charge controller, minor repairs was provided. Overall looking after longevity of solar system with efficient use was provided.

                  After completion of training we visited two hydraulic pump operation at Chanaute and Ladkhu. We learned about bio-char preparation, its use.

                           The return was one of the most memorable journey of my life. The last seat of bus squeezed between a women with child and old grand pa. The lady by side was vomiting throughout journey while grand pa was drunk, mumbling and fumbling with words and directions. The smell from both side was killing me, as I sat contemplating about life. I endured situation, just invigorated into circumstance.

                                              This was one of my life awakening journey. What surprised me was humbleness and subtlety of people. Obviously they are cutoff from mainstream media attention still they are happy to be living there. There are numerous challenges but somehow they have managed to be living well. I hope to see better road access, sustainable clean energy supply, educational facilities, better health facilities and access to ICT be within their reach. The natural serenity shall not be disturbed, only right technology along with nature can develop Dhunkharkha.

Pani Ghatta : A Grinding Machine

                       Water mill is one of the clean and appropriate technology for grinding at local level. The most of part of Nepal still remains far from electric grid connection. The rural electrification has been catch word just to remain safely in vaults of Planning commissions.. Nepal faces one of the longest hour of blackouts as energy crunch nation we are struggling with basic right to energy access. The geographical terrain, improper settlements of housing system, challenges of hindrances on scenic beauty and landscape as tourism being one of major attraction, losses on transmission lines might be counter acting such kinda of electrification initiative.

                       The appropriate technology is recognizing need of local people, meeting their aspirations and bringing them one step closer to energy access. There is flow of water from higher hills to lower plains. Here gravity does most of the work. The Kinetic energy of water can be directly used for generating energy. Traditionally we have been harnessing such energy through water mill. Still today lots of people in rural areas are highly dependent on traditional water mill for grinding all required household goods such as flour, rice, wheat, spices and also oil in some cases.

Working Mechanism:

                       The water from head of 20m or above is brought in open or closed conduit. Traditionally wooden blades are used as turbine on which water jets are strike upon, jets rotates the bigger wheel mounted on smaller wheel. There is continuos feed of grains in between grinds into finer particles.

A story form DhunKharkha, Kavre

                           The village has perennial source of water, water mill is located near river close to the source of water. The villagers have been using water mill for grinding their grains. It was happy to encounter old mother who was grinding her maize on mill. She was so delighted to use it, as it has reduced efforts and time that people used to devote for grinding in traditional way. She explained although she is weak and fragile, she can help her family in some way. The use of water mill popularly known as pani ghatta is free to use. The opening and closing is as simple with supplying and cutting off water supply to mill. She is happy and proud user of water mill.

                                 This is what appropriate and proper technology can transform rural life. Helps in bridging gap in energy and technology use.

Journey form Training to Trainer : As Light of Hope Continues

                           

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                      Energy has been one of the basic requirement of human beings. The traditional use of fossil fuel is gradually shifting with advent of cleaner and greener technology. And change in people perception and consciousness about climate impacts, global warming and green house effects. RAN (Robotics Association Nepal) is one of Nepal’s best institutions trying to promote technology for generating holistic relation between machine and human.

                             The #LIGHTOFHOPE is audacious project initiated by RAN with agenda to connect rural livelihood to basic energy use like lighting and charging system. The process is to connect rural and earthquake affected area to primary energy use. The deprivation of energy & energy crunch is not only hampering economic activities but education of students. So #lightofhope aims to bring back hope to people to re-start life. Everything is broken but there stands only hope that things will get better. #LightofHope tires to embolden resilience, empathy and provide strength to return to normal living for Nepalese people who are beyond electric grid connection.

                                The Shree Nawalpur Secondary School was place for solar training and distribution. The place being in vicinity of Melamchi, still lacked proper road and electric connection. The event was already planned and well arranged by local partner YUWA Nepal. Primary task was to train ninety student, equip them for repair & maintenance, and distribute 5W solar system with light and charging system. We could see curious, energetic and bold ninety students, school authority, local experts being in school. We were really glad despite public holiday of Saturday people were kind enough to show up. The main objective was to give introduction about renewable energy, detail about solar system, component of solar system, repair & maintenance and about how solar can good business opportunity.

                                      Personally there is great difference in being with the crowd and handling the crowd. Being in training helped me to learn and nurture self. I was always obliged and felt privileged to get such opportunities. This was time to pay back or simply spread good vibes for others. I tried as much as being basic about facts and in mean time holistic. The major point I was careful not to let voids between by talks and student listening. The sessions was quite interactive, reaching student asking them and they asking back their queries. I was able to reach their psyche to some extent inspire them to lead from grass root. It was amazing to teach, hear, learn and share among students. The latter solar as business opportunities was carried out by Binod Pangeni. This session was especially designed to promote business opportunities that can or comes with solar technology. The main idea behind this was to encourage student to find solution within country and to remind them there are possibilities as well as potentialities developing country and making money in Nepal.

                                                    The journey to and fro Sindhupalchowk was full of fun. It was great conversation with fellow travelers local resident Aunt who rose my curiosity about place, her experience after earthquake, how grateful she was to have young people like us helping them, the hardship they have been through, hope & resilience they had despite their homes were completely turned down, her future dream to rebuilt house. Thanks to volunteers from Australia and Germany for being here selflessly to be part of re-construction. It was great to catch up with you guys. Oh! Driver dai, your story and reasoning and loud music system made us inexhaustible throughout travel. It simply helped us to be cheerful. Many many thanks to Bikash Gurung dai for providing wonderful opportunity to actually go to different part and shade some knowledge I had. It was great to reach people in local level and empower them. #LightofHope continues for adding hope for rural livelihood and re-construction after earthquake, shading light raising people’s aspiration.

Cheers.

About Robotics Association Nepal.

Robotics Association of Nepal (RAN), is not-for-profit, non-governmental organization which is continuously working in the field of robotics and electronics automation since its establishment (2010). Each year we celebrate festival of art, science and technology “Yantra”. Robotics Association of Nepal has built a network of students RAN Representatives (RR).

YOUTH TRAINING ON PROJECT INITIATIVE by ECCA

                                    Environmental Camp for Conservation Awareness , organization working for bringing changes on environment by nurturing young minds, training youths as trainer, implementing clean energy to changing mindset of people for sustainable growth and development of local level. The ECCA has been regularly providing training and facilitating various programs.

                                 Youth Training On Project Initiative was training of youth to be trainer. The main objective was to produce capable youths trainer of 20 people so that they will be equipped enough to train youths, children and stake holders of school in various part of Dolakha.

                                                                 Day 1

Introduction of ECCA by Mr. Dipesh Gurung

                The session briefed about ECCA’s mission, vision and initiatives. The proud history of ECCA as independent and influential organization. The contribution and changes it brought in society were highlighted.

Activities and Current Projects orientation by Mr. Bipin Shrestha

       The session provided us details about current activities and projects that ECCA was going through. The initiatives like solar tuki project, Improved Cooking Stove, Envirolift cook stove, various school environment program, empowering local youths activities and many more.

School And Schooling – Mr. Birendra Khadka

              The difference between school and schooling were discussed. The structure of schooling and role of teachers, parents, student and stakeholders were elaborated.

Result Based Management, Appreciative Inquiry and Introduction to vision, Mission, Goal, objective, Activities – Mr. Siddhi Bajrachyra

             The session provided detail information about result based management approach(Participatory and team based management, effectiveness & sustainability, accountability, changed in behaviors and livelihood of beneficiaries ) and appreciative inquiry(co-operative search for the best in people, their organizations, and relevant world ; discoveries of what gives life to a living system ).

                                                                      Day 2

Domains of Concern, Expenditure and Structure of School – Mr. Birendra Khadka

Personal Visioning – Mr. Siddhi Bajrachyra

Explains the status of Finnish schools & Difficulties in Nepali Education system – Ms. Lydia

First Aid Principles And Practice – Dr. Hangsha Limbu & Dr. Hom Bahadur Gurung

                                                                        Day 3

Social Audit -Mr. Birendra Khadka

Strategic and Constructive Visioning for school – Mr. Siddhi Bajrachyra

WASH session – Mr. Rabindra Khatri

 

Environmental Camps for Conservation Awareness (ECCA) has been a leading organization in the sector of social mobilization and community development. ECCA works closely with youths and school children to encourage positive change and to develop innovative ideas so as to make a brighter and greener future for generations to come.