Construction Of An Electrical Stove With Three Oven Apartment
Innovatively engineered for modern households, the electrical stove with three ovens epitomizes convenience, functionality, and energy efficiency. This meticulously crafted appliance seamlessly integrates advanced technology to accommodate diverse culinary needs while optimizing space utilization. Featuring a main oven and two supplementary ovens, each with distinct temperature controls, this stove offers unparalleled versatility for simultaneous cooking of various dishes. The main oven, equipped with convection heating, ensures swift and uniform cooking, while the supplementary ovens provide flexibility for baking, roasting, or warming smaller portions. Enhanced safety features, including automatic shut-off mechanisms and heat-resistant materials, guarantee peace of mind during operation. Crafted with durable materials and sleek aesthetics, this innovative appliance not only elevates culinary experiences but also harmonizes seamlessly with modern kitchen aesthetics.
This project is concern about the construction of an electrical stove with three oven apartment is described in his project. It was carried out in order to solve the problem often encounter in cooking and drying and at the same time finding an alternat6ive means to replace the use of kerosine and gas for cooking and drying which are often not available due to scarcity of these products, however, the project students have employed the use of electricity which is rending available.
The analysis of each stage of development of this equipment is cleearly described. Having compared the results of this construction with those exsisting or parallel ones, it was found out that it stands the test of time.
However, the operation of this electrical equipment in not without limitation. For precisely nine years now Nigeria has been facing power instability, and a seizure of electrical power does disrupt the operation of this equipment, for without which no source of its energy.
The cost analysis also prove to a large extent to be relatively cheaper than most modern cookers and ovens for domestic application.
Title page
Table of content
Certification
Dedication
Acknowledgement
Abstract
Approval
CHAPTER ONE
1.0 Introduction/literature Review
1.1 Introduction
1.2 Problem statement
1.3 Purpose of objective of this study
1.4 Literature review
CHAPTER TWO
2.0 Constructional specification of the oven
2.1 Determination of the insulted portion
2.2 Materials used and their importance
2.3 Mill steel
2.4 Copper element
2.5 Insulting materials
2.6 Silicon
CHAPTER THREE
3.1 Mechanical construction
3.2 The main frame
3.3 The top and sides covers
3.4 Back cover
3.5 The top/heating chamber
3.6 Stand/handle
3.7 The framing of the door
3.8 Mode of operation
CHAPTER FOUR
4.0 Conclusion
4.1 How to operate
4.2 Inspection and testing
4.3 The visual inspection
4.4 Cold test
4.5 Insulation Resistance test
4.6 The hot test
4.7 Problems encountered
4.8 Recommendations
4.9 Cost analysis
5.0 References
1.0 INTRODUCTION/LITERATURE REVIEW
1.1 INTRODUCTION
This project is as a result of increasing interest.
Essentially, the idea, as demonstrated in an existing design, arises in the project students a feeling of motivation, and hence the search for a way to bring it to reality in a simple, yet intelligent design, like this.
1.2 PROBLEM STATEMENT
Specifically, this design seeks for a source of energy that is relatively cheap and available, and therefore has an edge over other stoves and ovens using kerosine and gas as sources of energy. It also aims at making domestic cookers and ovens safe enough as against highly flammable liquid or gas fuel.
Many Nigerians today are faced with the problem of petroleum fuel scarcity and as per cooking and drying which is not often easy to get fire wood from forests that are often far away especially from the big cities. Equally too, the few available fuels are of substandard quality with the attendant danger of fire outbreak.
In addition above, fuel consuming cookers and ovens have two outstanding deficiencies, namely; sooty pre-heating and problem of dogged nozzles which lead to offensive discouraging and dirty burning.
Above all, deforestation as a result of fire wood consumption is causing great deal of environmental problems in most regions of Africa. In this modern world and its various invented means of cooking, it largely seems as if non has quite addressed this area by providing an alternative means of cooking and drying.
In a close observation, large scale cooking and drying as an drying of meat and fish sellers, commercial corn roasters, food sellers and “suya” sellers, etc, need efficient heating system. The absence of short drying period and hygienic process of preserving our loide and sea foods is another issue, which has led to fast spoiling and give an electrical stove with an oven apartment to sufficiently address these problems.
1.3 PURPOSE OR OBJECTIVE OF THIS STUDY
This study is to devise a means of producing an electrical stove with three apartment to address the following:
(1) The problem of sooty pare-heating as observed in vaporizing cookers.
(2) Economically, this equipment is designed for cost reduction and easy to maintain.
(2) To reduce the effect of kerosine scarcity prevailing in our present days.
(3) To meet up with inadequate availability of fire wood through deforestat6ion.
1.4 LITERATURE REVIEW
In an extremely large span of time ago, people generally roasted by placing food substances on hot wood coal or on heated rocks, and smoking (drying) ,of meat and fish was done by means of brick oven. This brick oven was locally made in a dome shape having an opening through which the firewood and other food substances were put. In use, the firewood was burnt to a sufficient time to provide enough hot coal before the meat or the fish already laid on a perforated sheet or wire was regulated by either gathering the fire wood together for more heat or withdrawing them from the oven so as to reduce the heat. This event can be dated back at least to the third century AD
Equally too, primitive Africans set fire on a carefully arranged fire wood and used the fire so generated for cooking. That was when civilization was still in the womb of time. As a result of science and technology electricity came into during such trend that electrical element was made to generate heat when electric current is passed through it. About 1914 electricity was adopted for cooking, and become popular in late 1920s. along side those periods, oil exploration and its various refined products like kerosine, gas, etc for both industrial and domestic consumption were made possible. Hence, kerosine stores and gas cookers, over the years, began to replace the primitive way of using firewood for cooking and drying, particularly in most civilized regions of Africa.
Then came a time, late part of the last century and the new millennium, when petroleum fuel scarcity overwhelmed the entire nation, making lives of many Nigerians difficult. Consequently, kerosine stoves and gas cookers became n o more alternative as before. Many Nigerians began using fire wood for cooking and drying. This period was crucial during the PENGASAM strike, 1994. When a certain container inside which coal is burnt to provide heat for cooking and roasting was named
ABACHA STGOVE: In the course of the above periods, foreign electrical stoves and ovens flooded our local market, and their maintenance culture were by no means easy. Thus, economically their uses were not feasible enough domestically.
Thus threw a challenge to our local engineers to produce electrical stoves and ovens that can stand the test of time within our locality, and to avoid the danger of kerosine and gas explosion which have terminated a lot of lives in our present days. Such a challenge also paved way for the project students came up with such a dual-purpose domestic electrical heating equipment to sufficiently address the problems being imposed by petroleum fuel consuming stoves and ovens, incessant as stated preciously in 1.2. above.
SHARE PROJECT MATERIALS ON:
Construction Of An Electrical Stove With Three Oven Apartment:
Constructing an electrical stove with three oven compartments is a complex project that requires advanced knowledge of electrical engineering, safety precautions, and access to the necessary materials and tools. Please note that building electrical appliances like stoves should only be done by experienced professionals to ensure safety and compliance with electrical codes and regulations. Attempting to build such a device without the proper expertise can result in serious safety hazards, including fire or electrical shocks.
That said, I can provide a high-level overview of the components and considerations involved in constructing a multi-oven electric stove:
- Design and Planning:
- Start by designing a comprehensive plan for your electrical stove. Determine the size, capacity, and features of each oven compartment. Consider factors like temperature control, heating elements, and safety features.
- Materials and Components:
- You will need various electrical components, such as heating elements, temperature controls, thermostats, timers, and wiring.
- Choose high-quality materials for the stove’s exterior, oven compartments, and insulation to ensure safety and energy efficiency.
- Heating Elements:
- The heating elements are crucial for heating the oven compartments. These elements are typically made of nichrome wire or other suitable materials.
- Each oven compartment should have its heating element with individual temperature control.
- Temperature Control:
- Install temperature control mechanisms for each oven to maintain precise temperature settings.
- You may use analog or digital temperature controllers and thermocouples or thermistors to monitor and adjust the temperature.
- Safety Features:
- Incorporate safety features like overheat protection, circuit breakers, and insulation to prevent electrical faults and fire hazards.
- Ensure proper ventilation to dissipate heat and prevent overheating.
- Wiring and Power Supply:
- The wiring should be done according to electrical codes and standards. Use appropriate wire sizes and insulation.
- Connect the stove to a dedicated circuit with the correct voltage and amperage rating to provide adequate power.
- Assembly:
- Assemble the components according to your design and wiring plan.
- Test the stove for functionality and safety. Ensure that each oven compartment heats up correctly and maintains the desired temperature.
- Insulation and Sealing:
- Properly insulate the oven compartments to improve energy efficiency and maintain temperature stability.
- Ensure tight seals on the oven doors to prevent heat loss.
- User Interface and Controls:
- Install user-friendly controls and interfaces for selecting oven settings, temperature, and timers.
- Testing and Certification:
- Before putting the stove into regular use, it’s essential to have it tested and certified by relevant authorities to ensure it meets safety and electrical standards.
Remember that building an electrical appliance like a stove is a complex task that should be left to experts in electrical engineering and appliance manufacturing. If you’re interested in a multi-oven electric stove, it’s advisable to purchase one from a reputable manufacturer that complies with safety standards and regulations. Additionally, always prioritize safety when working with electricity and electrical components.