Safe Nutrient Recycling
Information from the course leader
Re-exam
Thursday the 25th of February, 13.00-18.00 the reexam will be given. Contact course leader Annika Nordin (annika.c.nordin@slu.se) if you are a student from previous year and want to retake the exam.
2020-10-23
Welcome to Safe Nutrient Recycling
Dear students During the course, we will use the student portal Canvas where you always will find the latest version of the schedule, as well as all other relevant files and information. Due to the situation with Covid-19 large parts of the course, in particular the lectures, will be online and if lecturers approves we will record the lectures so that you can view it during the course. Some activities are scheduled as Campus activites and we hope to keep it that way at least for the waste treatment laboratory exercise that constitutes a large part of the course and which gives a hands-on experience of waste treatment technologies. We will practice social distancing during the activities at campus and during the waste treatment laboratory exercise you will wear face masks and gloves. If you have your own lab coat please. SLU information to students about Covid-19 can be found at the Student web (https://student.slu.se/en/study-support/emergencies-and-incidents/information-about-the-coronavirus/study/ ) At SLU the students register them self to courses through the shortcut ”Ladok” (https://www.student.ladok.se/student/loggain) at the SLU student web (https://student.slu.se/en/ ). If you register your mobile number we can easily reach you through SMS if there is some late changes e.g. as if a lecturer gets sick. Please do not hesitate to contact me if you have questions. Warmly welcome to the course, looking forward to meet you all! Annika Nordin (course leader)
2020-09-08
Literature list for the course
Dear students, you will find the literature list for the Safe Nutrient Recycling course 2020 trough the link below. The litterature are either open access or will be provided to you during the course. Looking forward to meet you in the autumn! with kind regards Annika
Course evaluation
The course evaluation is now closed
MX0131-20138 - Course evaluation report
Once the evaluation is closed, the course coordinator and student representative have 1 month to draft their comments. The comments will be published in the evaluation report.
Additional course evaluations for MX0131
Academic year 2022/2023
Safe Nutrient Recycling (MX0131-20122)
2022-11-01 - 2023-01-15
Academic year 2021/2022
Safe Nutrient Recycling (MX0131-20099)
2021-11-02 - 2022-01-16
Academic year 2019/2020
Safe Nutrient Recycling (MX0131-20093)
2019-11-01 - 2020-01-19
Academic year 2018/2019
Safe Nutrient Recycling (MX0131-20071)
2018-11-05 - 2019-01-20
Syllabus and other information
Syllabus
MX0131 Safe Nutrient Recycling, 15.0 Credits
Säker näring i kretsloppSubjects
Environmental Science Biology Environmental science BiologyEducation cycle
Master’s levelModules
| Title | Credits | Code |
|---|---|---|
| Exam | 8.5 | 0202 |
| Laboration | 2.0 | 0203 |
| Project | 3.5 | 0204 |
| Computer exercise | 1.0 | 0205 |
Advanced study in the main field
Second cycle, has only first-cycle course/s as entry requirementsMaster’s level (A1N)
Grading scale
The grade requirements within the course grading system are set out in specific criteria. These criteria must be available by the course start at the latest.
Language
EnglishPrior knowledge
- 120 credits, including 90 credits in natural science- Knowledge equivalent to English 6 from Swedish upper secondary school
Objectives
The course intends to provide an understanding of systems for safe recycling of plant nutrients and organic matter from biological waste and wastewater to cultivation.
After completing the course, the student should be able to:
describe the sources of biological waste and wastewater and explain the characteristics of the different flows,
propose design criteria for safe recycling systems for plant and biological materials from biological waste and wastewater,
describe the difference between microbiological and macrobiological treatment with regard to the biology and processes and the value of the products
Describe the difference between aerobic and anaerobic treatment of solid and liquid waste, with respect to both biology and processes,
Evaluate treatment systems for composting, anaerobic digestion and small scale wastewater, including source separated sewage systems, with regard to microbial risk and environmental impacts of the systems,
suggest systems and processes that ensure that the recycled nutrients are properly hygienised, as well as describe factors that regulate the inactivation of pathogens,
evaluate results from different environmental systems analyses and microbial risk assessments,
write and orally present proposals for recycling systems for nutrition from biological waste and wastewater and describe the factors that regulate inactivation of pathogens.
Content
The course combines theoretical learning in lectures with practical laboratory exercises to achieve an increased understanding of the subject. The practical exercises are a composting laboratory exercise, a computer exercise, a study visit to a waste facility and a project assingment on risk assessment.
The focus of the course is biological treatment, safe hygienic treatment, environmental assessment and microbial risk assessment of biological waste and decentralized wastewater systems. This is discussed in literature and lectures.
Lectures, literature, calculations and study visits cover amounts and compositions of different fractions of biological waste and sewage and how these can be treated in different aerobic and anaerobic processes for waste and wastewater. Examples of these treatment techniques are composting, fly larvae composting, anaerobic digestion, infiltration and drainage ponds. During the course, we go in-depth in the process microbiology, thermo- and process dynamics, dimensioning, emissions, resource utilisation, hygiene and practical implementation as well as the value of the products as feed and fertilisers. We also cover other parts of the return systems, such as collection, distribution and application.
Two laboratory exercises are carried out. In one of these, biological treatment is practiced. The other is a computer exercise in which an environmental system analysis is conducted. In a case study, application of microbial risk assessment is practiced. A compulsory study visit is carried out at a waste facility
Grading form
The grade requirements within the course grading system are set out in specific criteria. These criteria must be available by the course start at the latest.Formats and requirements for examination
The course is examined in written tests, written laboratory reports, written and oral project reports and a compulsory study visit.
For approved course, approved tests, approved reports and project reports are required, as well as approved participation in compulsory moments. Compulsory elements of the course are the implementation of and approved report from:
projects in microbial risk assessment
practical composting
computer exercises in environmental systems analysis
Furthermore, participation in a study visit at a waste facility is required
- If a student has failed an examination, the examiner has the right to issue supplementary assignments. This applies if it is possible and there are grounds to do so.
- The examiner can provide an adapted assessment to students entitled to study support for students with disabilities following a decision by the university. Examiners may also issue an adapted examination or provide an alternative way for the students to take the exam.
- If this syllabus is withdrawn, SLU may introduce transitional provisions for examining students admitted based on this syllabus and who have not yet passed the course.
- For the examination of a degree project (independent project), the examiner may also allow the student to add supplemental information after the deadline for submission. Read more in the Education Planning and Administration Handbook.
Other information
The right to participate in teaching and/or supervision only applies for the course instance the student was admitted to and registered on.
If there are special reasons, students are entitled to participate in components with compulsory attendance when the course is given again. Read more in the Education Planning and Administration Handbook.
Responsible department
Department of Energy and Technology
Further information
Grading criteria
MX0131 Safe nutrient recycling
Course objectives
After completing the course, the student should be able to:
- describe the sources of biological waste and wastewater and explain the characteristics of the different flows,
- propose design criteria for safe recycling systems for plant and biological materials from biological waste and wastewater,
- describe the difference between microbiological and macrobiological treatment with regard to the biology and processes and the value of the products
- Describe the difference between aerobic and anaerobic treatment of solid and liquid waste, with respect to both biology and processes,
- Evaluate treatment systems for composting, anaerobic digestion and small scale wastewater, including source separated sewage systems, with regard to microbial risk and environmental impacts of the systems,
- suggest systems and processes that ensure that the recycled nutrients are properly hygienised, as well as describe factors that regulate the inactivation of pathogens,
- evaluate results from different environmental systems analyses and microbial risk assessments,
- write and orally present proposals for recycling systems for nutrition from biological waste and wastewater and describe the factors that regulate inactivation of pathogens.
These course objectives above are related to three different themes of the course and the grouping of the objectives and what criterias the themes are examined in relation to is shown in the table that follow.
|
Theme |
Grade 5 |
Grade 4 |
Grade 3 |
Grade U |
|
Management systems for safe nutrient recycling including composition of the waste and methods for evaluating the systems regarding environmental impact and hygiene (Objectives 1, 2, 5 and 7). |
Shows excellent ability to combine different material compositions and criteria with management systems for optimised fertiliser production. Shows excellent understanding of some available tools for evaluation of environmental impact and microbial risk assessment Show good ability to present pathogenic risks within the recycling system |
Shows good ability to combine different material compositions and criteria with management systems for optimised fertiliser production. Shows good understanding of some available tools for evaluation of environmental impact and microbial risk assessment Show ability to present pathogenic risks within the recycling system |
Shows ability to define the criteria for different management systems with the aim of producing safe fertilisers from waste and wastewater - Shows ability to evaluate possible nutrient fractions from society and the following treatment systems regarding their environmental impact and microbial risk |
-Shown ability falls below grade 3 |
|
Treatment technologies for treatment of municipal solid biodegradable waste and wastewater for production of safe fertilisers (Objectives 3, 4 and 6). |
Show good ability to, with motivation, propose treatment alternative for different substrates for safe nutrient recycling. Including process description and risks within the process. Show good ability to combine factors that regulate the inactivation of pathogens with different process option for treatment of waste and wastewater
|
Show ability to, with motivation, propose treatment alternative for different substrates for safe nutrient recycling. Including process description and risks within the process. Show ability to combine factors that regulate the inactivation of pathogens with different process option for treatment of waste and wastewater
|
Show ability to separate the functionality of aerobic and anaerobic treatment. Show the ability to compare different sanitisation methods regarding function and efficiency Show ability to give some factors that regulate the inactivation of pathogens
|
-Shown ability falls below grade 3 |
|
Communication skills, including oral and written presentation (Objective 8). |
-Shows excellent ability to efficiently communicate, orally and in writing, options for recycling systems for biological waste and wastewater, i.e. using concise and correct language well targeted to the target group |
-Shows ability to efficiently communicate, orally and in writing, options for recycling systems for biological waste and wastewater, i.e. using concise and correct language targeted to the target group |
-Shows ability to communicate, orally and in writing, options for recycling systems for biological waste and wastewater with mainly correct language. |
- Shown ability falls below passing. |
Requirement for passing the course
|
Detail |
Requirement for passing |
Part in achieving goal |
Contributes to grade % For grade 3 all parts must be passed |
|
1. Study visits |
Participation |
1, 2 |
0 |
|
2. Compulsory parts |
Participation |
1, 2 |
- |
|
3. Compost lab hand-in |
Passing report |
1,2,3 |
20* |
|
4. ORWARE hand-in |
Passing report |
1, 3 |
5* |
|
6. Project hand-in |
Passing report |
1, 2, 3 |
25* |
|
7. Examination part 1 |
Passing |
1, 2, 3 |
30 |
|
8. Examination part 2 |
Passing |
1, 2, 3 |
20 |
* Late delivery lowers the grade one step. By delivering a new, substantially improved version within 2 weeks, the grade can be improved 1 step, and for initially failing reports 2 steps.
Grading
|
Course component |
5 |
4 |
3 |
|
Compost lab hand-in Grade translates to |
95% |
80% |
60% |
|
ORWARE hand-in Grade translates to |
95% |
80% |
60% |
|
Project hand-in, presentation and opposition |
95% |
80% |
60% |
|
Examination part 1 Grade limits |
≥85 |
≥70% |
≥50% |
|
Examination part 2 Grade limits |
≥85 |
≥70% |
≥50% |
|
Course grade, grade limits on cumulated weighed sum |
≥85 |
≥70% |
≥50% |