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Recycling and material recovery are gaining more grounds in applicability as viable options to sustainable solid waste management especially in Municipal Solid Waste Management (MSWM) schemes. In this dissertation a critical analyzes is made of the MSWM problem in Cameroon and an assessment of the role Small- and Medium-Size Enterprises have been playing in the area of recycling and material recovery. The main research methods applied in this research include: fieldwork, administration of questionnaires, interview and literature review. Using two case study localities (Limbe and Buea municipalities), the various practices in MSWM are elaborated, the constraints and challenges faced by management discussed and proposals for either expanding/upgrading existing schemes to be more sustainable as well as strategies to initiate new systems presented. Innovations within collection systems such as the introduction of household bins and specialized collection of specific waste could be quite beneficial to existing schemes. Waste Electrical and Electronic Equipment (WEEE) which constitute one of the fastest growing waste streams presents greater management challenges. Two case study localities (Buea and Kumba) are used to analyze the problem of WEEE in Cameroon. An overview of the handling of Electrical and Electronic Equipment (EEE) at end-of-life (EoL) in Cameroon is made with special focus on households and repair units. At household level, WEEE is disposed of alongside other waste arisings in the available disposal facilities for given household. Repair units represent a very vital connection between dysfunctional EEE and EoL forms as all users of EEE tend to bring these devices to these units for repairs. An inventory of the various EEE at repair units for these two localities shows that above 40% percent of such equipments are totally out of use. In Kumba, Classes 1 and 4 EEE (according to EU WEEE directive classification) dominate while class 3 is almost absent. In Buea, Class 3 and 4 are dominant. These results show that socio-cultural, economic and even climatic factors influence the choice of EEE that people in this area acquire. The intense level of repair activities and recovery of useful parts by repair units show that there exist adaptable options to handle WEEE in especially economically and environmentally beneficial ways. The recycling of aluminum for production of household utensils represents a very basic and adaptive industrial set-up, which can easily be operated and run at very cheap cost and with a little manpower. While this venture seems apparently successful in economic terms as an option to poverty alleviation through income generation, it is plagued by some problems which, if given due consideration will render it a prospective option for poverty alleviation (through small enterprise business development) and environmental sustainability (as an option to sustainable MSWM). In this dissertation, a model is thus presented, which can be utilized by stakeholders to improve on the sector. An assessment of efforts and constraints to implementing comprehensive recycling and recovery schemes in Cameroon was also carried out. Results show that there are existing practices on which comprehensive recycling and recovery can be built upon that would be beneficial to both councils and engaged schemes – mostly SMEs and NGOs. The challenges faced and likely to be faced and the way forward to implementing any broad scale recovery and recycling are presented. If municipal councils choose to operate existing MSWM schemes without significant changes, then collective collaboration will be highly required. Such collaboration will present benefits to both waste collection and disposal. On the other hand, if they wish to expand schemes or create new schemes, adaptive innovation would be highly recommended. Such adaptive innovation would have to incorporate local practices and approaches of MSWM as well as socio-economic considerations so as to ensure new or expanded schemes survive within local socio-economic context. A greater challenge in enhancing recycling and material recovery in particular and MSWM in general, in Cameroon is on the role the government takes on designing appropriate policies and legislative frameworks to cover such activities in economically and ecological beneficial ways. In the absence of these, SMEs, councils and NGOs (working in partnership with other specialized groups) concerned with activities related to recycling and material recovery may be left with the option of regulating activities within their sectors as such activities stand to alleviate poverty and also present ecological benefits.
Der weltweite Anstieg des Bedarfs an Primärenergie und das Wachstum des weltweiten Bruttoinlandsprodukts geht einher mit der Zunahme damit verbundener Emissionen. Aktuellen wissenschaftlichen Studien zufolge beträgt der Anteil des Energiesektors (Energiewirtschaft, Industrie und Verkehr) 83 % der weltweiten Treibhausgasemissionen. Der Klimawandel und die Projektion der Auswirkungen von Treibhausgasemissionen auf die Atmosphäre werden inzwischen auch auf politischer Ebene akzeptiert und weitergehende Maßnahmen diskutiert. Da aber Zugang zu Elektrizität und nachhaltige Entwicklung untrennbar verknüpft sind, stellt sich die Frage, wie diese Aufgabe innerhalb der nächsten Jahre gelöst werden kann. Weiterhin ergibt sich gleichzeitig durch die verbleibende Laufzeit des aktuellen Kraftwerksparks, je nach Szenario, für Deutschland im Jahr 2020 eine Versorgungslücke von bis zu 12.000 MWh. Ein Teil der Lösung dieser Problematik liegt in der nachhaltigen Gestaltung von Kraftwerken. Die Erstellung der Lebenszyklusanalyse eines GuD-Kraftwerks aus Sicht eines Herstellers in höchster Detailtiefe bildet daher den Hauptbestandteil dieser Arbeit. Erst die Darstellung des gesamten Produktsystems sowie der Bilanzierungsergebnisse ermöglichen das Aufzeigen von Verbesserungspotentialen. Die Systemgrenzen für die Ökobilanz umfassen alle Abschnitte des Produktlebenszyklus (Materialien, Fertigung, Transport, Betrieb, Wartung und End of Life). Die Erfassung der Materialmengen und Energiedaten liefert die Sachbilanz für alle Komponenten und Lebensphasen. In der Interpretation der Ergebnisse der Ökobilanz, insbesondere für die Kategorie Globale Erwärmung in kg CO2e überwiegen die Emissionen der Betriebsphase naturgemäß. Die Ergebnisse wurden aber für alle Wirkungskategorien und Lebensphasen erarbeitet. Auf Basis der erarbeiteten Module der Ökobilanz wurden die Umweltprofile verschiedener Konfigurationen und Betriebsszenarien dargestellt und stehen damit als Entscheidungshilfe bereits während der Produktentwicklung zur Verfügung. Die Darstellung der Auswirkungen von Designentscheidungen auf den ökologischen Fußabdruck des Produktsystems in einer aggregierten Form vereinfacht das Verständnis für Kunden und kann damit in die Kaufentscheidung einbezogen werden. Weiterhin wurde die Basis für ein Reporting der Treibhausgasemissionen nach dem GHG Protokoll erstellt. Die Ergebnisse werden außerdem in Form einer Typ II Produktumwelterklärung nach ISO 14021 veröffentlicht und als Referenzwert für die Berechnung der Emissionsfaktoren für den jeweiligen Strommix bereitgestellt.
Cameroon has vast renewable energy resource potentials, with a hydropower potential of about 55,200MW, second only to the Democratic Republic of Congo in Africa. So far, its energy needs are met by 4.8% hydropower (which accounts for less than 5% of its total hydropower potential), 0% wind and 0% solar. Cameroons’ energy sector still goes through insufficient electrical energy production, especially during the heart of the dry season, which runs from December through March. Coincidentally, the wind and solar power potentials for Cameroon are at their peak during these months and could conveniently supplement for the shortfalls in generation during these periods. In this research, technical analysis were carried out to determine the wind and solar energy resource potentials for Cameroon using the RETScreen software tool provided by CANMET Canada. These analysis revealed that the northern regions of Cameroon had higher wind and solar resource potentials than any other location in Cameroon. A 2MW installed wind energy capacity would be capable of generating well over 1.5GWh electrical energy per year, while a 2KW installed solar energy capacity will be capable of generating well over 3MWh electrical energy per year. In the final sections, financial analysis were carried out to determine the economic viability of such projects and the possibility for self-financing. Emission analyses were also done based on the ability for such projects to offset greenhouse gas emissions and ensure sustainability in the energy sector. The analysis for Maroua revealed that 78.6tCO2/yr for wind and 0.1tCO2/yr for solar could be reduced by those installations. Finally, the legislations and legal frameworks governing the energy sector in Cameroon were dissected to determine possible weaknesses and constraints limiting the use, promotion and development of the full potential of Cameroon’s renewable energy resources.
This study closely examined how oil exploration has caused environmental degradation and untold hardship to the local communities in the Niger Delta region of Nigeria. Nigeria is known to be the sixth largest producer of crude oil among the Organization of Petroleum Exporting Countries (OPEC), and thelargest in the African continent. The crude oil that puts Nigeria in this position is being produced in the Niger Delta region of the country. Nigeria’s economy is based on crude oil exports. Despite this enormous wealth coming from the Niger Delta, there is pervasive poverty and despicable environmental damage as a result of crude oil mining activities going on in this region. Suffice it to say that, there is total neglect of the region in terms of infrastructural development and economic empowerment of its local populace by the government and oil companies operating in the region. This has led to youth restiveness and hostage taking in the area. A sound methodological research approach was developed and utilized in this study. Both primary and secondary data were collected from questionnaires, structured interviews, personal observations, relevant literature, documentation from government agencies and oil companies. These data were analyzed, and they synthesized the discussions contained in this study. This study is all about charting a new course in the way the oil companies operating in the Niger Delta region carry out their activities in order to ensure the environmental sustainability of the region, and improve the economy of the rural communities in the region at the same time. It identifies the constraints to effective implementation of Nigeria’s environmental laws and policies especially the Environmental Impact Assessment (EIA) as it concerns oil prospecting, which has hitherto contributed in hindering her environmental sustainability. It also unveils the critical issues concerning the deplorable state of the economy of the local populace of the region. After identifying the various problems contributing to the environmental woes, and the poor economic growth of the region, this research proffers recommendations that should be conscientiously and vigorously implemented to reverse the trend. Although, the oil companies have made some efforts towards providing the necessary infrastructures needed in the region, they need to do more in the area of capacity building, and use of green technologies to ensure healthy environment of their host communities. The government on her part should strengthen the various Ministries and Agencies vested with the responsibility of protecting the Nigerian environment, by providing them with the necessary incentives for maximum efficiency. This study therefore emphasizes a concerted approach from all the stakeholders in the Niger Delta region for the successful implementation of the recommendations herein to ensure the sustainable development of the region, and Nigeria in general.