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Management of Nitrogen in the Environment

Paper Type: Free Essay Subject: Environmental Sciences
Wordcount: 4548 words Published: 19th May 2020

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Contents

1. Introduction:

2. Literature Survey:

2.1 Impacts of Nitrogen on Environment:

2.2 Environmental Nitrogen management:

2.3 Nitrogen oxides emission report:

3. Requirements and criteria:

4. PROPOSED DESIGN:

4.1 Exhaust gas recirculation (EGR):

4.2 Compost Converter from Agriculture and food waste

5. COST ANALYSIS

6. TIMELINE:

7. Conclusion and recommendations:

8. References

Table of figures

Figure 1: Windsor : Population history

Figure 2: Major sources of Nitrogen emission [4]

Figure 3: Windsor: Trend of nitrogen emission [5]

Figure 4: Nitrogen content in fertilizers

Figure 5: Exhaust gas recirculation [6].

Figure 6: Assembly of food compost converter

1.    Introduction:

Being the most abundant element in the environment, Nitrogen is extremely important nutrient for living species. We animals- and our plant companions- just do not have right enzymes to capture, or fix, atmospheric nitrogen. Nitrogen is an integral component of many biochemicals including amino acids, proteins, nucleic acids, and human DNA.

The term nitrogen cycle refers to the movement of nitrogen through the air, water and soil of earth. The availability of biologically useful form of nitrogen is a common limiting factor in the productivity of plants. Nitrogen is made available to plants, which in turn ultimately sustain all animal life through a series of microbial transformations.

Atmospheric nitrogen is made available to earth by precipitation such as rain or snow. Once it reaches the soil it finds its way to the bacteria on the roots of the plant. At the roots, nitrogen is combined with hydrogen to form ammonia (NH3) through a process called nitrogen fixation. Lightning in the atmosphere can also perform this activity. Ammonia is toxic, hence additional bacteria combines it with oxygen by a process called nitrification. Now the by-product is called nitrite. Additional nitrifying bacteria convert nitrite into nitrate which are absorbed by the plant by a process called assimilation. However, not all the nitrite is absorbed by the plants. Some of them will be taken by denitrifying bacteria and released back to atmosphere. Animal will be getting this nitrogen by eating plants or other animals which eat plants. When animals die, they will decompose and release the nitrogen into soil, and this will undergo ammonification to form ammonia and it will continue its cycle [1].

However, this natural cycle is disturbed to a high extent by various human activities such as follows:

(1)   Air Pollution: Industrial emissions of various nitrogen oxides (NOx) and other volatile matter reacts to form ground level O3 in the presence of sunlight. This in turn damages the earth’s atmosphere ozone layer which causes life threatening diseases like skin cancer, lung cancer, other respiratory problems and many more.

(2)   Soil Pollution: Another major source of nitrogen is excess use of nitrogenous fertilizers. This affects the food quality and damages the fertility of soil. Crops containing excessive fertilizers has indirectly higher nitrogen content which affects human health.

2.    Literature Survey:

2.1 Impacts of Nitrogen on Environment:

Nitrogen being the primary nutrient for survival of all living organisms is present abundantly in the atmosphere. The Earth’s atmosphere has about 78% of nitrogen from various sources like water, air and soil. Majority of the nitrogen comes from industrial waste and fuel combustion in vehicles. Windsor is the automotive capital of Canada because of the presence of many automotive industries and recorded as the worst place in the province with a ground ozone level of 77 parts per billion over eight-hour monitoring period. Thus, there is a very critical threat on environment due to imbalanced nitrogen cycle [2].

Figure 1: Windsor : Population history

Another major source of nitrogen is the increased use of nitrogen is containing fertilizers in crop production. With the drastic growth of population of Windsor from 1960 to 2010 as shown in the graph, the food demand also increased. This led the farmers to use nitrogen-based fertilizers to fulfil the crop production needs. Thus, the agricultural soils contain high nitrogen compounds causing nitrogen imbalance in both soil and water (due to soil run-off into water).

2.2 Environmental Nitrogen management:

The government has laid a few plans to manage nitrogen in the environment.

(1)   Ontario government has implemented a limit on NOx emission to control its content in the atmosphere.

Table 1: NOx Emission Limit

(2)   NMAN is a software tool developed to determine the best way to store, treat and use manure in the farming land by the government in an effort to reduce to nitrogen content of soil [3].

 

2.3 Nitrogen oxides emission report:

The graph shows trend of nitrogen emissions in Ontario, Canada from 2004 to 2013 showing that major source nitrogen compounds is from transportaion.

Figure 2: Major sources of Nitrogen emission [4]

According to study report by students of University of Windsor, decrease in NOx emissions was observed. The graph below shows the decreasing trend of nitrogen compounds in Windsor’s air. This is apparent that Ontario government was succesful in curbing the levels of nitrogen (NOx) emissions in Windsor city.

Still, Windsor’s air is worst in Ontario for human health and is amongst the 10 cities in Canada whose air quality is in the offender list according to WHO guidelines.

Figure 3: Windsor: Trend of nitrogen emission [5]

Also, over the span of years the nitrogen content in the fertilizers has increased drastically as seen in the graph above which is a matter a great concern for human health.

Figure 4: Nitrogen content in fertilizers

3.    Requirements and criteria:

To reduce environmental pollution due to excessive Nitrogen content we are proposing the following two processes.

1)     Exhaust Gas Dilution Method

2)     Compost Convertor from agriculture and food waste

REQUIREMENTS:

  • AVAILABILITY OF RAW MATERIAL AND EQUIPMENT:

 

Exhaust Gas Recirculation Compost Convertor from agriculture and food waste
The main required materials are Hydrogen Peroxide and water, which are easily available in market. The main component is water, waste food and agriculture waste, which are easily available.
Extra equipment like electric pump, motor, nozzles etc. are readily available in market.  Same as Dilution method, extra required equipment like electric switch, timer, electric motor and batteries are readily available in market.

Thus, we can avoid delays because of unavailability of raw materials and equipment.

 

 

 

  • AMOUNT OF COMPOST AND HYDROGEN PEROXIDE REQUIREMENT:

 

We should consider the amount of compost required for Farming and amount of Hydrogen Peroxide required in industries of Windsor-Essex region, and accordingly we can find out the total number of Compost convertor and Exhaust Gas Dilution units to be installed.

CRITERIA:

We need to consider following criteria for successful implementation of our project.

         COST:

Cost is the most important criteria for finalizing the solution to problem.

Compost Convertor from agriculture and food waste Exhaust Gas Recirculation
It is not expensive, and it also reduces the food waste and agriculture waste collection cost for government It depends on the industrial requirement.
The most important point is the maintenance cost is almost zero and operation cost is also very low. If industry is large, then the equipment and material cost is high for dilution process, because the size and rating of the equipment and material varies as per company outcome. We also need to schedule monthly periodic maintenance.

 

         IMPLEMENTATION TIME:

Implementation time is the total time taken to complete and start the project. It depends on the proposal. After that, project should be completed within the given time period.

Compost Convertor from agriculture and food waste Exhaust Gas Recirculation
It is a household and compact device; it would not take much time to be installed and project implementation can be easily managed and completed within scheduled time. More time for installation and implementation. For installation process, short shutdown of industry is required. Moreover, some civil construction is also required for this process.

         MAINTENANCE REQUIREMENT:

Compost Convertor from agriculture and food waste Exhaust Gas Recirculation
Maintenance is less frequent and can be used for a very long period and; there are very less chance of breakdown. Periodic maintenance is must required

         RELIABILITY OF SYSTEM:

Compost Convertor from agriculture and food waste Exhaust Gas Recirculation
This device is compact and so it can be installed in house. It can be kept anywhere in house and hence it is very compatible for users. This is complex design and first the company needs to design the layout as it is large and fixed to the one place.

4.    PROPOSED DESIGN:

4.1 Exhaust gas recirculation (EGR):

This is method of reducing the amount of nitrogen oxides (NOx) in exhaust gases. During the combustion process in engine cylinder, the nitrogen dioxides are generated. To overcome the production of nitrogen dioxide we use this system in internal combustion engines. A part of the exhaust gases is recirculated into the main inlet stream of the charge to provide inert gases, which act as absorbents of heat in order to reduce the maximum temperature of the IC engine. By combining atmospheric Nitrogen and Oxygen we can produce Nitrogen Dioxide at high temperature and pressure. For the elimination of the production of Nitrogen Dioxide we are using Exhaust Gas recirculation Method.

Without affecting the air fuel ratio this exhaust removes some of the charge coming in the combustion chamber in a gasoline engine. A EGR also helps in increasing the efficiency of the Spark ignited engine as it reduces throttling losses, heat rejection and reduced chemical dissociation.

In the pre combustion mixture the Diesel engine helps to reduce the excess of the oxygen. Equilibrium of NOx and CO reintroduced in the combustion chamber by the gases which inhibits net production of the harmful gases and other pollutants when sampled on an average time.

Figure 5: Exhaust gas recirculation [6].

4.2 Compost Converter from Agriculture and food waste

We designed a food recycler for composing waste from agriculture and food. The parts for making this Converter are easy to find and can be purchased directly from the nearby market. We researched in the whole city of Windsor for getting the idea of how much compost converter we need so that we can decide how many units needs to be installed. Compost is the only alternative option of nitrogen-based fertilizers.  Compost is important when it comes to decompose organic material such as Agricultural and food waste. By using this we can help in reducing the garbage volume as well as less NOx in the environment.

NO. DISCRIPTION
1 Food and agriculture waste inlet
2 Electric motor
3 Start/Stop Switch
4 Water inlet valve
5 Grinder 1
6 Grinder 2
7 Compost outlet trey
8 Wheels
9 Waste materials and water outlet

Figure 6: Assembly of food compost converter

Food and Agriculture waste inlet – This is the inlet where we need to put all our waste in order to compose it. 

Electric Motor – This motor relates to the grinder. After getting the power the motor starts rotating and helps the grinder to run.

Start/Stop Switch – With the help of AC power we can run our converter. This switch is for turning on the power or turn it off. After turning this on the motor starts running.

Water inlet valve – This valve is for adding water with the small pieces of the wastes. This helps to make the mixture of the small pieces of the wastages and the water. Before making pulp mixture in the grinder 2 we need to mix water and this inlet valve helps us doing that.

Grinder 1 – After putting the wastes into the inlet this grinder helps to make them into small pieces.

Grinder 2 – After that the small pieces of the wastes are mixed with water. This grinder 2 helps to mix that and after that it convert our waste into pulp mixture.

Compost Outlet tray – When the mixture pulp is made by the grinder 2 we can take out our mixture through this outlet tray. 

Waste materials and water outlet – Sometimes for some waste like solid particles the extra water comes to the bottom of the converter and we can clean it easily with the help of this outlet.

5.    COST ANALYSIS

 

EXHAUST GAS RECIRCULATION:

COMPONENTS COST (CAD)
Motor 96
Electric Pump 400
Electrical Switches 50
Timer 45
Battery (rechargeable) 300
Hydrogen Peroxide (1 Gallon) 14
Labour Cost 200
Total Cost 1105

COMPOST CONVERTOR:

COMPONENTS COST (CAD)
Time switch 35
DC generator dynamo (5-24V) 20
12V 100AH battery (rechargeable) 160
Space heater 15
Assembly and fabrication cost 70
Total Cost 300

6.    TIMELINE:

 

The timeline is the most critical part in the project implementation. To successfully complete the project, the following steps will be required:

1)     STEP 1: Official permission from Council of Windsor-Essex county to implement

Firstly, awareness should be spread among the local public by various means of communication regarding the benefits of exhaust gas dilution method. After getting public support, we can present our model to government council members with a detailed explanation of exhaust gas dilution method.

Estimated Time: 15 Days

2)     STEP 2: Selection of industries for applying exhaust gas dilution method

Identifying the industries which are spreading more amount of Nitrogen oxides in the atmosphere needs to be targeted first. After that, we need to analyze if our designed system will work in different industries or not.

Estimated Time: 20 Days

3)     STEP 3: Installation

To implement the exhaust gas dilution method in the industries is a complex process, specially to assemble different individual components. Some industries have their own methods of reducing nitrogen oxides, so to convince them is also an important task. After the components are installed various test should be done to check the working of the system.

Estimated Time: 35 Days

4)     STEP 4: Continuous Evaluation and Project Completion

As the system is installed in industries various tests should be performed to check if it meets the targeted results. Also, regular maintenance of the system must be performed for its smooth operation. After getting expected results the system can be installed in different industries respectively.

Estimated Time: 30 Days

Tasks Start Date End Date Duration (Days)
  1. Official permission from Council of Windsor-Essex county to implement
2019-05-01 2019-05-16 15
  1. Selection of industries for applying exhaust gas dilution method
2019-05-16 2019-06-05 20
  1. Installation
2019-06-05 2019-07-10 35
  1. Continuous Evaluation and Project Completion
2019-07-10 2019-08-10 30
Total days 100

1)     STEP 1: Official permission from Council of Windsor-Essex county to implement

The advantages of compost convertor should be explained to local public by various modes of communication such as newspapers, flyers, radio and many more. Then, we can present our proposed model to the council members of Windsor-Essex county.

Estimated Time: 30 Days

2)     STEP 2: Forming project implementation team and developing financial plan

A group needs to be formed who will execute the proposed model into real life scenario as per expectations. Also, the detailed budget needs to be allotted for proper implementation of compost convertor.

Estimated Time: 40 Days

3)     STEP 3: Installation

The installation of compost convertor can be completed easily in very short time period. Also, it is not very expensive and the initial cost is also very low.

Estimated Time: 10 Days

Tasks Start Date End Date Duration (Days)
  1. Official permission from Council of Windsor-Essex county to implement
2019-05-05 2019-06-06 30
  1. Forming project implementation team and developing financial plan
2019-06-06 2019-07-16 40
  1. Installation
2019-07-16 2019-07-26 10
Total Days 80

7.    Conclusion and recommendations:

As the people are causing damage to the nitrogen cycle throughout the world compared to other cycles it is our responsibility of ours to protect the environment. More production of reactive nitrogen elements more damage we are causing to the environment and for ourselves too. We should fix and control the nitrogen leaks in the process starting from the field crops to recycling the food waste. Due to globalization, the pollution of various kinds was also increasing which is causing damage to the environment and we should address these problems immediately and should protect the environment.

The concern of air pollution though has been dealt seriously still needs improvisations; as we know that collecting each and every drop of water, we can create an ocean. Via this study we propose an EGR system to control the emission of NOx while not disturbing the efficiencies of diesel and petrol vehicles.

Compost production would be increased after the installation of food waste recycler and would have enough compost to replace nitrogen-based fertilizers; which are being used currently by growers in Windsor-Essex region. Around 23,581tons of compost will be produced in a year and approximately 50% of nitrogen emission can be reduced by this solution; as the nitrogen-based fertilizers are the main source of excessive nitrogen emission

8.    References

[1] Ministry of Agriculture, Food and Rural Affairs, “Environmental Impacts of Nitrogen Use in Agriculture,” Nov 2005. [Online]. Available: http://www.omafra.gov.on.ca/english/engineer/facts/05-073.htm. [Accessed 10 July 2019].
[2] I. M. Newton, “Environmental and Natural Resource Management: Cycles,” 21 JAN 2012. [Online]. Available: https://www.eoi.es/blogs/ianamalaga/2012/01/21/environmental-and-natural-resource-management-cycles/. [Accessed 10 July 2019].
[3] Ministry of agriculture, food and rural affairs, “Using NMAN for Best Management Practices,” 2016. [Online]. Available: http://www.omafra.gov.on.ca/english/nm/nman/nman3.htm#1. [Accessed 10 July 2019].
[4] Ontario Government, “Air Quality in Ontario 2014 Report,” Queen’s Printer for Ontario, 2012–19, 2016.
[5] T. Zhang, “Temporal variations and trend of ground-level ozone based on long-term measurements in Windsor, Canada,” ATMOSPHERIC CHEMISTRY AND PHYSICS , p. 7335–7345, June 2019.
[6] Samarins, “How Exhaust Gas Recirculation (EGR) system works,” 19 Dec 2018. [Online]. Available: https://www.samarins.com/glossary/egr-system.html. [Accessed 10 July 2019].

 

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