Sunday, November 9, 2008

Thesis on aircon - improved version

INTRODUCTION
Resource centers such as libraries are constructed to provide safe and comfortable internal study and research environment despite variations in external conditions. Maintenance of a desired interior condition in research centers without having high costs of expenditure is relied upon on a good building design and an air-conditioning design.
The primary intent of this study is to come up with appropriate air-conditioning designs that will intimately maintain good air quality and controlled temperature even during peak loads.
Cebu State College of Science and Trade is applying an accreditation to declare for a constant attunement of curricula. Accreditation is basically an inspection of the curriculum design, achievements of the school and the physical set-up.
Offices and Resource centers are not spare with the inspection. It is expected that centers inside the school will come up to the expectations of the inspectors.
The Library is the center of the academe. It is one of the important centers inside an academic institution. It is the venue to seek information and data on various issues and topics. Its provisions will include vehicle for data gathering and hall for studying purposes.
Ventilation for such centers is a compelling requirement not only to provide comfort to those who will choose to stay and study but to enhance the protection of library materials for longer usage. Air conditioning with its salient features such as controlling humidity will prevent the library materials to wear out.
The installation of a unit in the library will deface the possibility of the wearing out of library materials and may be a good attribute to a possible accreditation next school year.
OBJECTIVES OF THE STUDY
This study will be conducted to come up an installation design for air-conditioning units to be installed at the library of the Cebu State College of Science and Technology, Cebu City campus. Specifically, this study will be aimed to:
a. Determine the average number of users and the peak
hours of use.
b. Categorize the materials or equipments of College of Science and Technology-Main Campus Library.
c. Calculate the area for the installation of air-conditioning units.
d. Identify the type of units to be installed at the College of Science and Technology-Main Campus Library.
CHAPTER I
THEORITICAL FRAMEWORK
This chapter presents the relevant literature and studies conducted which are essential in the development of the conceptual and in providing directions for the study.
REVIEW OF RELATED LITERATURE
The primary objective of air-conditioning is to provide comfortable conditions of the people. From the thermal standpoint, the body is inefficient machine but a remarkably good regulator of its temperature. The human body receives full in the form of food, converts a fraction of the energy in the fuel into work, and rejects in the remainder as heat. It is the continuous process of heat rejection, which requires a thermal balance. The generation of heat occurs in cells throughout the body, and the circulatory system carries this heat to the skin, where it is released to the environment.
In a steady-state heat balance, the heat energy produced by metabolism equals the rate of heat transferred from the body by convention, radiation, evaporation and respiration.
If the metabolism rate is not balanced momentarily by the sum of the transfer of heat, the body temperature will change slightly.
Most people felt restless and uncomfortable if heat wrapped up the body. Concentration is destroyed and work is not organized.
The library is the place where most researchers meet. Some of them are cramming for some information needed to be researched. There are times when the library experienced constraints in terms of occupancy. White space is hard to find and the direct object to this is the warming of the whole area.
The surface area of the body is usually in the range of 1.5 to 2.5 m², depending upon the size of the person.
The heat-transfer coefficient depends upon the air velocity across the body and consequently also upon the position of the person and orientation to the air current.
Based on the discussion made by W.F. Stoecker which are properly dished out in his book Refrigeration and Air-conditioning, the skin temperature is controllable to a certain extent by the temperature-regulating mechanism of the body covered by clothing.
The clothing temperature will normally lie somewhere between the skin and the air temperature, unless lowered because it is wet and is evaporating moisture.
The human body is an adaptable organism. With long-term conditioning the body can function under quite extreme thermal conditions. Variations in outdoor temperature and humidity, however, go beyond the normal limits of adaptability, and it becomes necessary to provide modified conditions indoors in order to maintain a healthy, comfortable environment.
The body is continuously generating heat, which must be dissipated to maintain a constant body temperature.
For a person at rest of doing light in a conditioned space, the body dissipates heat primarily by convection (carried away by the surrounding air) and radiation (to surrounding surfaces that are at a lower temperature than the body temperature).
Most of the air-conditioning units in service provide comfort air conditioning, the purpose of which is to supply comfortable conditions for people. Summer cooling systems have become a standard utility in large buildings throughout the world. Even in climates where summer temperatures are not high, large buildings may have cooled in order to remove the heat generated internally by people, lights, and other electrical equipment. In hot climates, the existence of summer cooling systems is the difference between workers performing effectively and not.
This chapter does however, attempts to present the importance of air-conditioning to establishments, service areas and institutions.
Air conditioning embraces more than cooling. The definition of comfort air conditioning is “the process of treating air to control simultaneously its temperature, humidity, cleanliness and distribution to meet the comfort requirements of the occupants of the conditioned space” .
Air conditioning of medium-sized and large buildings. Most of the air-conditioning units in service provide “comfort air conditioning”, the purpose of which is to supply comfortable conditions for people. Even in climates where summer temperatures are not high, large buildings may have been cooled in order to remove the heat generated internally by people, lights, and other electrical equipment.
Computer rooms. The air conditioning system for computer rooms should control the temperature, humidity, and cleanness of the air. Some electronic components operate in faulty manner if they become too hot, and one means of preventing such localized high temperature in the computer room in the range of 20 to 23ÂșC. The electronic components in the computer function favorably at even lower temperatures, but this temperature is a compromise with the lowest comfortable temperature for occupants.
Residential air conditioning. In United States, approximately 5 million room air conditioners are sold each year, and most of them are used for residential service. Control of humidity is one of the primary reasons for air conditioning. There are several materials that are sensitive to changes in humidity and to a lesser extent changes in temperature. The role of air conditioning varies from one environment laboratory to another. Its role varies also from one job environment to another. For manufacturers of precision metal parts, air conditioning performs three services.
1. Keeping the temperatures uniform so that the metal
will not expand and contract.
2. Maintaining a humidity so that the rust is
prevented.
3. Filtering the air to minimize dust.
ASHRAE Trans., vol. 85 have elaborated the facts that
heat transfer have developed from a general set of concepts, based on observations of the physical world, the specific models, and laws necessary to solve problems and design systems. Mass and energy are two of the basic concepts from which engineering science grows.
As the physical world is extremely complex, it is virtually impossible to describe it precisely. One of the most significant accomplishments of engineering science has been the development of models of physical phenomena, which although they are approximations, provide both a sufficiently accurate description, and a tractable means of solution.



SYNTHESIS
The related literature and studies included in this study bearing the development of the conceptual framework. This study on the proposed installation of an air-conditioning unit in Cebu State of Science and Technology Main Campus library likewise moved into giving students a conducive area to study and providing a good chance for the school to edge ahead in facilities.
As intended by other studies conducted, this study also attempted to provide ample idea for the implementers to consider in the enhancement of the school’s layout.
CONCEPTUAL FRAMEWORK OF THE STUDY
The review of related literature and studies cited that design conditions of air-conditioning systems are not isolated. The estimation process includes assessment of the context, the inputs, the process and products of the organizations. These variables should inter-relate with one another in order to achieve clearly stated development goals.
The design conditions usually specified for estimating heating loads are the inside and outside dry-bulb temperatures. The set of conditions specified for cooling-load estimates is more complex and includes dry-bulb temperature, humidity and solar intensity. Variables of these kinds vary in different situations and conditions.
The Context Input Process Product Model (CIPP) Stufflebeam approach to evolution is rooted in its definition of evaluation as the process of deliberating, obtaining and providing useful information for judging decision alternatives. This model has four types of educational decisions namely:
1. planning decisions to determine objectives
2. structuring decisions to design instructional procedures.
3. implementing decisions to use, monitor and improve these procedures and
4. recycling decisions to judge and react to the outcome produced by these procedures
For each of these different types of decisions, a corresponding type of evaluation is recommended namely: context, input, process and product. This form of evaluation is the heart of the CIPP Model (Pophan, 1974). Hence, this study hinges on the CIPP Model using it as its conceptual framework.
Context evaluation is the most basic kind of evaluation used in this study. It runs down to every detail accumulated in the process of the research.
Input evaluation was then applied to get into the basic calculations to come up with the necessary data used in the exploration and propagation of the study.
Process evaluation was used to get the specific answers to the inquiries presented in this research to be able to get the fitted design of an air-conditioning unit to be installed in the Cebu State of Science and Technology Library.
In the context of this study, the inputs included the following funding, objectives, curriculum, administration, research, students, facilities and equipments.
The input explained above determines the process, which was divided into qualitative and quantitative outputs.
The input and process largely determine the product.
SIGNIFICANCE OF THE STUDY
The proposed installation of an air-conditioning unit in Cebu State of Science and Technology library will enhance usage of the library and the protection of the library materials. This will also provide a better chance for the library to come out with a good ranking for AACUP accreditation. Hence, this will help the College to gain an opportunity to gain better appraisal from accreditors.
We do believe that by the presence of the an air conditioning unit in the library more students will be encourage to avail of the service the research center could offer.
This, on the other hand can minimize the depreciation of the library materials such as books, journals and periodicals. This will eventually give these items a higher utility rate.
SCOPE AND LIMITATIONS
This study was focused on a proposed installation of an air-conditioning unit in which the group to come up with a better type of the unit to be installed studies salient features and design. The proposal was concerned itself with the study of existing clamor of students and frequent users of the library regardless of profession to the present condition of the library in relation to ventilation. It included the study of possible objectives that might be formulated for installation of the unit as well as the formulation and calculation of data to get the fitted unit that will be installed in the library.
The investigator limited the researches to be conducted during the months of July to October, which are basically school days to augment the necessary data to be gathered.
This study does not cover a wider scope of air conditioning. It merely focused on the data gathering and analysis to come with the type of unit that is fitted in the type of place to be conditioned such as College of Science and Technology-Main Campus Library. It does not seek to include the study of the volumetric, cooling and dehumidifying areas of air conditioning. It will only deal on the basics of heating and cooling-load calculations.
The coverage is not that wide for the span of time given to conduct this study is short and limited taking into account the various hindrances the researchers would have to face.








RESEARCH DESIGN
Experimental, Historical and Descriptive Methods of Research were used in this study. The descriptive method is a general procedure employed in studies that have their chief purpose description of the phenomena. The description of the existing problems encountered in the library in relation to its application for accreditation and general usage, its facilities, standard used, researches and survey of the proposed place to be conditioned were therefore the primary tasks of this study.
Experimental method was applied during which the researches devoted their time calculating the peak loads of their target site. It was the time when researches employed research strategies away from the laboratory conditions. Experimentations were made to come up with the specific designs for a system to be installed of the target place to be conditioned.
Historical method is a useful design, which involves critical writing of past experiences, events and developments in order to provide helpful information and direction for present and future action.
The method was used by the group to convey that an installation of an air-conditioning unit in centers like the library is a very salient factor in coming up with positive results in regards to study enhancement, provision of comfort air-conditioning and the like. This method will shed light on the issues, which will eventually lead to the discovery of the truth and enrichment of knowledge.
RESEARCH LOCALS
The respondents of this study were obtained from the heads, faculty members, and concerned students of Cebu State of Science and Technology – Main Campus.














DEFINITION OF TERMS AND VARIABLES
The following is a list of terms that will be used in this study:
Air distribution. A crucial design requirement in handling the air properly within the conditioned space.
Blackbody. Perfect radiator.
Comfort air conditioning. Provision of comfortable conditions for people.
Dehumidifiers. An appliance to dehumidify air in homes and buildings.
Industrial air conditioning. Provision of at least a partial measure of comfort for workers in hostile environments but also to control air conditions so that they are favorable to processing some object or material.
Infiltration. Heat loss or heat gain due to the infiltration of outside air into a conditioned space.
Internal. Heat gain due to the release of energy within a space (lights, people, equipment, etc.)
Solar. Heat gain due to the transmission of solar energy through a transparent building component or absorption by an opaque building component.


CHAPTER II
RESULTS, DISCUSSION AND INTERPRETATION OF DATA
Energy Required for Cooling
Name: Cebu State College of Science and Technology, Main
Campus R. Palm St., Cebu City
Phone:
Use of Space: Library
I. Interior Room Dimensions:
Length: 64 feet Width: 52 feet Height: 10 feet
Windows:
Table 1
Facing
No of Windows
Sizes
South
4
5’2” x 3’8”
East
6
5’2” x 3’8”
West
8
5’2” x 3’8”
Total Area = 18 x 5’2” x 3’8” = 341 ft2
Doors:
Table 2
Facing
Sizes
Area
South
7’ x 8’
56 ft2
North
12’ x 8’
96 ft2
East
3.5’ x 8’
28 ft2

Door Type: Glass Door with Aluminum Frame
Total = 180 ft2


II. Heat Contributors:
Table 3
Contributors
No.
Electrical Data
People
128
None
Personal Computer
(desktop)
3
None
Impact Printer
3
None
Laser Printer
2
None
Copier
2
None
Fluorescent Lamp
28
35 Watts (Input)

Walls and Partitions
Table 4
Facing
Sizes
Area
South
66’ x 10’
660 ft2
North
52’ x 10’
520 ft2
East
76’ x 10’
760 ft2
West
64’ x 10’
640 ft2

Total = 2, 580 ft2
Note: The total area of the wall using this dimensions will be subtracted by the total door and window area.
III. Formulas and Data
A. For external load sources such as roofs, walls, glass (conduction), partitions, ceilings and floors.
Q = U x A x CLTD
Where:
Q = Design Cooling Load
U = Design Heat Transfer Coefficient
A = Area Calculated from Architectural Plans
CLTD = Cooling Load Temperature Difference
B. For Solar source
Q = A x SC x SHGF x CLF
Where:
Q = Design Cooling Load
A = Net Glass Area Calculated from Plans
SC = Shading Coefficient
SHGF = Solar Heat Gain Factor
CLF = Cooling Load Factor
C. For internal load sources
C-1. For Lights
Qef = watts x 3.42 x 1.25
Where:
Qef = gain from fluorescent lightning
C-2. For People
Sensible Qs = No. x Sens. H.G. x CLF
Latent Ql = Heat Gain
Where:
Q = Design Cooling Load
No. = No. of People
Sens. H.G. = Sensible Heat Gain
CLF = Cooling Load Factor
C-3. For Appliances and Equipment
Q = Heat Gain
D. Ventilation and Infiltration Air
Sensible Q = 1.10 x CFM x (to – ti)
Latent Q = 4840 x CFM x (Wo – Wi)
Where:
CFM = cubic feet per minute; volumetric flow of air
to & ti = Inside-Outside Air Temperature Difference, oF (oC)
Wo & Wi = Humidity Ratio, kgm / kga
IV. Cooling-Load Calculations:
A. Walls
Actual Wall Area = 2, 580 ft2 - 341 ft2 – 180 ft2 = 2, 059 ft2
q From Table 4E, Coefficients of Transmission (U) of Masonry Cavity Walls, (Chapter 23 of ASHRAE Handbook)
For Construction No. 1: U = 0.204
q From Table 4F, Coefficient of Transmission (U) of Masonry Partitions
For Construction No. 1: U = 0.308
q From Table 7-3, Design Temperature Difference (Section 7 of HVAC Design Data Source Book)
For Exterior Walls: CLTD = 17 oF
Therefore:
Q = U x A x CLTD = 0.204 BTU/hr.ft2.oF x 2,059 ft2 x
17 oF
Q = 7, 140.612 BTU/hr.
B. Glass
Total Window or Glass Area = 341 ft2
q From Table 13, Part A (Chapter 27 of ASHRAE Handbook)
For single clear glass with indoor shade and without storm sash, for summer: U = 0.81 BTU/hr.ft2.oF
q From same table, Part C Adjustment Factors (AF) for Various Windows; (same book)
For single glass with metal frame: AF = 1.0
q From Table 10, CLTD for Conduction through Glass; (Chapter 26 of same book)
For solar time of 12 hours: CLTD = 9 oF
Therefore:
Q = U x A x CLTD = 0.81 BTU/hr.ft2.oF x 341 ft2 x 9 oF
Q = 2, 485.89 BTU/hr.
Total door area = 180 ft2
q From Table 7-3, Design Temperature Differences; (Section 7 of HVAC Design Data Source Book)
For Glass in Partitions: CLTD = 10 oF
Therefore:
Q = U x A x CLTD = 0.81 BTU/hr.ft2.oF x 180 ft2 x 10 oF
Q = 1, 458 BTU/hr.ft2.oF
Total:
Q = (2,485.89 + 1,458) BTU/hr. = 3,943.89 BTU/hr.
C. Solar
Total Glass Area = Window Area = 341 ft2
q From Table 4-11 in Chapter four, Book of Ref. and Air Conditioning
For single plate glass, 6-12 mm. Thick with Venetian Blinds: SC = 0.64
q From Table 11 Solar Heat Gain Factor for Glass; (Chapter 26 of ASHRAE Handbook)
SHGF = 271 BTU/hr.ft2
q From Table 14, Cooling Load Factor if Interior Shading is Used; (same book)
For Solar time of five hours: CLF = 0.07
Therefore:
Q = A x SC x SHGF x CLF
Q = 341 ft2 x 0.64 x 271 BTU/hr.ft2 x 0.07 =
4,140.0128 BTU/hr.
D. Partitions, Ceilings, and Floors
Total Floor and Ceiling Area = (64 x 52) ft2 – 147 ft2 = 3, 181 ft2
q From Table 4H, Coefficient of Transmission (U) of Masonry Ceilings and Floors; (Chapter 23 of ASHRAE Handbook)
For Construction No. 2: U = 0.112 BTU/hr.ft2.oF
q From Table 7-3 Design Temperature Differences; (HVAC Design Data Source Handbook)
For floors above unconditioned rooms: DTD = 10 oF
For ceilings with unconditioned room above:
DTD = 10 oF

Therefore:
Q = U x A x CLTD
Q = 0.112 BTU/hr.ft2.oF x 3,181 ft2 x 10 oF
Q = 3, 562.72 BTU/hr.
This calculated heat load would be multiplied by two for floor and ceiling.
Q = 2 (3,562.72) BTU/hr. = 7,125.44 BTU/hr.
E. Lights
No. of Fluorescent Lamp = 28 @ 35 watts
Therefore:
Q = (Watts x 3.42 x 1.25) No. of lights
Q = (35 watts x 3.42 x 1.25) 28
Q = 4, 189.5 BTU/hr.
F. People
No. of People in the space = 128
q From Table 18, Rates of Heat Gain from Occupants of Load Spaces; (Chapter 26 of ASHRAE Handbook)
Degrees of Activity
Typical
Application
Sensible Heat
BTU/hr.
Latent Heat
BTU/hr.
Seated, light work, typing, writing
Offices, Hotels, Libraries

285

255

q From Table19, Sensible Heat Cooling Load Factor for People; (Chapter 26 of ASHRAE Handbook)
Total Hour in Space
Cooling Load Factor
Hours after each entry
2
0.58
2

Therefore:
For Sensible Qs = No. x Sens. H.G. x CLF
Qs = 128 x 285 BTU/hr. x 0.58
Qs = 21, 158.4 BTU/hr.
For Latent Ql = 128 x 255 BTU/hr.
Ql = 36, 480.0 BTU/hr.
Total:
Q = (21,158.4 + 36,480) BTU/hr.
Q = 57,638.4 BTU/hr.
G. Equipment
From Table 7.4, Typical Heat Gain Rates for Several Kinds of Equipments; (Chapter 7 of Heating and Cooling of Buildings Book)
Equipment
Heat Gain
Comments
Personal Computer
(Desktop)
170-680

Impact Printer
34-100 (Standby)
Increase about two folds during printing
Equipment
Heat Gain
Comments
Laser Printer
510 (Standby)
Increase about two folds during printing
Copier
500-1000 (Standby)
Increase about two folds during printing

Note: Use the maximum range of heat gain and assume the equipments are on operation for the maximum calculation of loads.
Therefore:
Qpc = 680 BTU/hr. x 3 =2,040 BTU/hr.
Qip = 100 BTU/hr. x 3 x 2 = 600 BTU/hr.
Qlp = 510 BTU/hr. x 2 x 2 = 2,000 BTU/hr.
Qc = 1000 BTU/hr. x 2 x 2 = 4,000 BTU/hr.
Total = 8,640 BTU/hr.
H. Ventilation and Infiltration Air
q From Table 7-8 Cooling Load High Check Figure
Building Classification
Occupancy,
ft2 / person
Air Quantities
cfm / ft2
Libraries & Museums
40
1.4

Therefore:
CFM = Air Quantities x Occupancy
CFM = 1.4 cfm/ft2 x 40 ft2/person = 56 cfm/person
q Base from the record shown of Cebu PAG-ASA Complex Climatology Normals (1973-2001). The highest record of temperature of Cebu during summer is 96.8 oF with a Relative Humidity of 75%.
q Base from the Air-conditioning standards, if a person is wearing appropriate clothing, the following ranges should usually be acceptable:
Operative temperature. 68 to 78.8 oF
Humidity. A dew-point temperature of 35.6 to 62.6 oF
Therefore:
For Sensible Qs = 1.1 x CFM x (to – ti)
Qs = 1.1 x 56 cfm/person x (96.8 – 68) oF
Qs = 1774.08 BTU/hr.
q From Table 4-Recommended Inside Design Conditions-Summer (Part 1 Chapter 2 of Air Conditioning System Design Handbook)
For General Comfort: Dry Bulb Temperature – 77-79 oF
Relative Humidity – 50-45%
q Use Psychometric chart in order to get the humidity ratio difference by plotting the dry bulb temperatures and relative humidity.

For outside temperature of 96.8 oF & Relative Humidity of 75%:
W = 0.029 kgm/kga
For inside temperate of 68 oF & Relative Humidity of 50%:
W = .0057 kgm/kgs
Therefore:
Ql = 4840 x CFM x (Wo – Wi)
Ql = 4840 x 56 cfm/person x (0.029 – 0.0057) kgm/kga
Ql = 6,315.232 BTU/hr.
Total:
Q = (1,774.08 + 6315.232) BTU/hr.
Q = 8,089.312 BTU/hr.
V. Total Cooling Loads
Load Sources
Calculated Loads
BTU/hr.
Walls
7,140.612
Glass
3,943.89
Solar
4,140.0128
Partitions, Ceilings & Floors

7,125.44
Lights
4,189.5
People
57,638.4
Equipment
8,640
Load Sources
Calculated Loads
BTU/hr.
Ventilation and Infiltration Air

8,089.312

Total = 100,907.17 BTU/hr.
q If by Tons of Refrigeration

Total Heat Load = (100,907.17 BTU/hr.) / (912,000 BTU/hr.)
Total Heat Load = 8.4089 Tons of Ref.
q For Cooling Capacity of the Unit
Cooling Capacity = 9 TR (108,000 BTU/hr.): if the unit will be use is having 3 TR (36,000 BTU/hr.) of cooling capacity each.
Cooling Capacity = 10 TR (120,000BTU/hr.): if the unit will be use is having 5 TR (60,000 BTU/hr.) of cooling capacity each.
VI. Specifications of the Unit
Type of Air-Conditioning Unit: Ceiling Exposed Type (Split Unit)
Cooling Capacity of the Unit: Either 3 TR (36,000BTU/hr.) or 5 TR (60.000 BTU/hr.)
No.of Units: Three units, if 3 TR is to be installed
Two units, if 5 TR is to be installed
CHAPTER III
SUMMARY AND CONCLUSION
SUMMARY:
It was the main purpose of this study to determine the feasibility of the installation of an air-conditioning unit for the library in Cebu State of Science and Technology- Main Campus Library. Specifically; the study involved the following problems:
1) How did the study of the existing problems confronting the library users of the Cebu State of Science and Technology Library- Main Campus help in the coming up of the study for the installation of an air-conditioning unit?
2) What procedural objectives may be formulated in the installation of the air conditioning unit?
3) What standards could be established for the installation of the unit?
a) design
b) site
c) personnel involved
d) cost
4) What other problems that might be eased out in the existence of a conditioning system in the library most specifically on the effects of the installation to the application for an accreditation of the college?
5) What possible input would the proposal create in improving the ratings of the school in AACUP accreditation schema?
Recommendations:
On the basis of the findings of this study, the researchers recommends the following which are indispensable in the installation and maintenance of an air-conditioning unit in the library of Cebu State of Science and Technology- Main Campus. Backed up by strong feasibilities of the study, the researchers were able to come up with the following possibilities:
q It is very advisable and better to put indoor shading for windows like Venetian blinds, curtains and etc., in order the solar heat cannot directly penetrate to the space to be conditioned. By this way we can minimize the operating cost since it reduces the heat load or added to the conditioned space.
q A glass door will be put to the door openings facing south and north in order to prevent too much infiltration of air, which can contribute a lot of heat load that leads to the discomfort of the occupants. Other way of preventing this infiltration of air is to put an air curtain, which could be strategically be located inside and above the door opening, this would only be used when the door is permanently open during the usage of the conditioned space.















REFERENCES:
ASHRAE Handbook; McGraw Hill Book Company, 1965.
“Environmental Control in Industrial Plants”, Symp.,PH79-1, ASHRAE Trans, vol.85, p.30, 1979.
Handbook of Air Conditioning System Design; McGraw Hill Book Company, 1965.
Kreider, Jan F. and Ari Pabl. Heating and Cooling of Buildings; Design for Efficiency, 1964.
Parmley, Robert O. HVAC Design Data Source Book, 1994.
Stoecker, Wilbert F. Refrigeration and Air Conditioning: 2nd ed., 1964.

Thesis on Aircon- thesis writing

PROPOSED INSTALLATION DESIGN OF AIR CONDITIONING UNITS IN CEBU STATE COLLEGE OF SCIENCE AND TECHNOLOGY – MAIN CAMPUS LIBRARY

By:
Cantago, Eric BSME V - A
Gungob, Jayson BSME V – A
Heyrana, Rewel BSME V - A

INTRODUCTION:

The Library is the center of the research academe. It is the venue to seek information and data on various issues and topics. Its provisions will include vehicle for data gathering and hall for studying purposes. Ventilation for such centers is a compelling requirement not only to provide comfort to students who will choose to stay and study but to enhance the protection of library materials for longer usage. Air conditioning with its salient feature such as controlling humidity will prevent the library materials to wear out.
Depreciation of library materials is defaced in the presence of air conditioning unit which responsibility lies on the regulation of temperature and quality of air.
The air-conditioning system in libraries will control the temperature, humidity, and cleanness of air. Some electronic components found in library equipments such as computers operate in faulty manner if they become too hot, and one means of preventing such localized high temperature is to maintain the air temperature in the area in the range of 20 to 23°C.
On one hand, air conditioning covers not only for cooling purposes; its uses have diverse functional operations that will provide affirmative results to its users. Though, categorically, the uses of air conditioning installation vary from one user to another. It may be so due to the needs of the users.
Importance of the unit installation is practically based on the depth of the need to install. Instances will justify the installation such as:
a. Summer cooling systems have become a standard utility in buildings in order to remove the heat generated internally by people, lights and other electrical equipments.
b. The installation need in the hospitals will prevail to remove static electricity that will lead to provide a spatial medical operations.
c. In libraries, such units will ease out the extra energies exerted by student-researchers to come up with outputs. Energy in getting comfort will lower down in the provision of air-conditioning unit inside the center.
Resource centers such as libraries are constructed to provide safe and comfort
For study and research despite variations in external conditions. Maintenance of the desired interior condition in resource centers at low costs is relied upon on a good building and an air – conditioning design.
Comfort air-conditioning is the process of treating air to control simultaneously its temperature, humidity, cleanliness and distribution to meet the comfort requirements of the occupants of the conditioned space.
Most of the air conditioning units in service provide comfort air-conditioning; cooling systems have become a necessity in commercial and industrial buildings. Even in climates where summer temperatures are not high, large buildings may have to be cooled in order to remove the heat generated internally by the occupants.

This study will extract some of the fundamental principles that are important for calculation used in the design and analysis of the thermal system to be installed in CSCST-library. The presentation of these principles, which is an inclusion in this study, will not exactly cover a full range discussion but will deal only with the basics.
The human body is an amazingly adaptable organism. With long-term conditioning, the body can function under quite extreme thermal conditions. Variations in outdoor temperature and humidity, however, often go beyond the limits of adaptability, and it becomes a necessary to provide modified conditions indoors in order to maintain a healthy, comfortable environment.
Four environmental factors influence the body’s ability to dissipate heat: air temperature, the temperature of the surrounding surfaces, humidity, and air velocity. The amount and type of clothing and the activity levels of the occupants interact with these factors. In designing an air-conditioning system, one must turn his attention to the control of these factors. In the Philippines, the operative temperature is 20 to 26°C with a dew-point temperature of 2 to 17°C and average air velocity that accounted up to 0.25 m/s.1
Based on research conducted by our group, the specified degrees for cooling in typical climates like Philippines is 24 - 26°C. The set of conditions specified for cooling-load estimates include dry-bulb temperature, humidity and solar intensity. Peak load calculations usually correspond to the peak-outdoor-air temperature. It is therefore, a necessity to make several calculations at different times of the day or times of the year to fix the appropriate maximum-cooling-capacity-requirements.2
The high cost of energy since the 1970’s has been a significant factor in stimulating technical changes in resource centers. Innovative approaches towards improving efficiency, which are considered impractical must receive consideration, and given ample time to prove to be economically justified. Researches have shown that recovery of low-temperature heat by elevating the temperature level of this energy through using a specific system. Accurate load calculations and intensified study of the occupants in the library will be factors in a good air-conditioning design as will be discussed in the later chapters of this study.
OBJECTIVES OF THE STUDY:
This study will be conducted to come up an installation design for air-conditioning units to be installed at the library of the Cebu State College of Science and Technology, R. Palma St., Cebu City. Specifically, this study will be aimed to:
a. Calculate the area for the installation of air-conditioning units
b. Determine the average number of users and the peak hours of use
c. Identify the type of units to be installed at the CSCST- library.
d. Categorize the materials/equipments at the CSCST-library





SCOPE AND LIMITATION OF THE STUDY:
The coverage of this study will only be limited to the definitive aspect of air-conditioning as a cooling system, its significance and its basic components and systems as practical guides in choosing the design to be installed in CSCST library.
The provisions of this research will include calculation of the area of the proposed place to be conditioned and the determination of the average level of occupancy of the same place.
1 “Environmental Control In Industrial Plants”, Symp., PH-79-1, ASHRAE Trans, vol.85, p.30, 1979.
2 W.F. Stoeker,et.al. “Applications of Refrigeration and Air-conditioning”, McGraw-Hill Company, pp.57-59, 1982.

Volleyball-sample sports news

Volleyball

Journalists belles stun Campus Writers, 25-18, 25-27

Budding journalists lurched the upset axe on early crowd favorite Campus Writers in the volleyball exhibition game for the School Press Conference, Sept.6.
Journalists conquered the Campus Writers in straight sets, 25-18, 25-17 in massive win in its battle for the reign.
Campus Writers was leading in the middle of the first set, 17-14 but Sheryl Benitez prompted a searing 7-1 run to hand the Journalists the lead for good, 24-15.
A deeper bench was a plus factor for the Journalists to win the match.
Journalists squad bugged by the noise of the crowd stumbled in the opening session but swept the following sets in emphatic fashion to shore up their bid to clinch crown.

History of Canduman NHS

History of Canduman National High School


Canduman National High School was formally established in the year 1981, through the efforts of the Barangay Councils of Canduman, Casili, and Cubacub. The founding was with the support of the parents of the first year students of the school year 1981-1982.

Hon. Magno Dionson, City Councilor, passed a resolution to the city council instituting a creation of a high school in the barangay, making him the “Father and the Mentor of Canduman National High School”.

The approval of the application for the opening of the first year level of Canduman National High School for school year 1981-1982 was made effective on August 21, 1981 by Deputy Minister Abraham Felipe.

The school was manned by four personnel during its first year of operation. Mrs. Manuela Guanzon, assistant principal, Mrs. Virginia Mendoza, high school coordinator, Mrs. Editha Cinco and Mrs. Carmelita Mendoza, secondary teachers.

On its first year until 1993, the school is integrated with the elementary. Both departments had only 1 principal for 10 years. The separation was made 1993 with Mrs. Rosario F. Casilagan as principal for the high school department.

Helms of history rolled, reshuffling of school heads made way for Dr. Fay Luarez to charge administrative recitals beginning school year 2002 and was then replaced by Mrs. Nimfa D. Bongo and most recently, Mrs. Arlina Y. Amante.

Student population increases each year and such fact made it impossible for the school to accommodate the enrollees that is reason why makeshift classrooms are built for temporary shelters. But then competitive learning experiences continue.

Modernizing Agriculture - Oratorical Piece

Modernizing Agriculture and Fishery through Quality Statistics

Have you ever dreamed of creating a masterpiece? You don’t think you have the talent? Well, you may not have Handel’s musical genius or Michaelangelo’s painting brushes, BUT you can create a masterpiece with your chosen subject.

The requisites maybe to land into a first-rate subject for your creation is to be newsy on the roundabouts and to be determined to finish the craft. One good focus is our country.

Our nation today needs a feasible rehabilitation in most aspects. It needs the practical face-lift in-order to come out to be a well-restored nation. A nation which could be seen as a showground of progress and modernization that will pose immense contributions in the global arena.

Philippines the so-called “Pearl of the Orient Seas” is an archipelago that most of its inhabitants rely much on fishery and agriculture being an agricultural land. About 19 percent of the total land area of the Philippines is arable, or suitable for cultivation.

The location of the Philippines just north of the equator gives the republic a moderate tropical climate suited for the cultivation of export crops.

Coconuts are one of the most important cash crops, and the Philippines is one of the world’s leading exporters of coconut products, including coconut oil and copra. Other forestry industries remain viable because their products are based on more easily renewable sources.

Agriculture has long formed the backbone of the economy.

Fishing on the other hand, is an important industry in the Philippines. The average annual fish catch exceeds 2 million metric tons. Shrimp and prawn exports to Japan are a significant source of foreign exchange.

Does anyone here care for an upgrade? modernization? of these two sectors? I don’t think nobody will deny the fact that transformation could be a golden key for the golden gates of the global arcade.






We should opt for the modernization of these economic segments. These could be our vehicles to progress which is our undying dream to become a masterpiece.

Agriculture surpassed last year’s performance as it grew by 5.06% in 2004, crops sub sector generated a 4.89% output increase this year, poultry raisers had an output expansion of 4.23%, farm gate prices of agricultural commodities increased by 12.71%, fishery has a gross value of production amounted to 139.1 billion. These are statistics, my friends. They sound too numerical but they played a lot of value.

Statistics is an imperative tool in experiment design and decision making. Though it appears to be merely numerical data but such is a valuable device to implement changes.

How, then, do agri- scientists uncover declines in production? On price depreciation? Impressive percent gains? Well, what do you think? Correct! They used percentage statistics to provide production estimates.

This is a valuable scale to fabricate strategies to come out with a remarkably detailed findings for an opt for a larger production.

Quality statistics attributes eminence. Improvements in production and prices rely much on the upshot of statistics. Increments and decrements can be determined through statistical information.

How important quality statistics in the modernization of agriculture and fishery sectors? Gross earnings and marked improvements in prices in both which statistics have shown will ascertain volume of production.

Figures will define the need of a notable increase in gross receipts through acquisition of modern cogs and theories. Figures picked up bright colors to enhance illustration.

Roundscad, anchovies, fimbriated sardines, slipmouth, skipjack, big-eyed scad and frigate tuna. Wow! sounds sea-faring. These are price catch in the Philippine waters. Do we dare to leave these resources adrift? Why not foster these wherewithals? We can through quality statistics.

Statistics publishes information that helps officials to develop and administer agricultural and aqua cultural policies and programs. It then prepares estimates of production, price, and supply figures concerning agri - fishery commodities.






The upswings of production percentages can be monitored via statistical details. The escalation and the downfall of agricultural and fishery sectors are transparent in numbers. Simple numbers they are, ladies and gentlemen, but they are couriers of an efficient decision for better outputs.

Recorded drop and improved level of a certain production is a good benchmark for a study. Procurement of necessary levels of modernization can be effortlessly done with the aid of accurate and quality statistics.

I wish to enjoin everyone, to be grateful with the agency which gave us the quality statistics that we’ve been using ever since to come up with indispensable step-up in our basic industries.

Statistics, such remarkable reference in trailing production shifts, you’re putting us online on the websites of updates.

I salute statistics and to the people behind the numerical records. I wish you a punch! Not a hit but the energy to keep you going.

Now, your and our country could be a masterpiece.

Action Research - Study Groups

ACTION RESEARCH


I. PROBLEM IDENTIFICATION
Low performance level of students in math and science and depleted oral participation in most of the subjects.

II. PROBLEM ANALYSIS
First year – students are found out to be very passive and have a low interest to assert in oral participation during classroom discussions and have low performance level in math and science as stipulated in the form XVI.
One of the root causes of the students’ setbacks is on study habits. Studies inhabit only 40% of students’ time. Coercion sometimes plays important role in developing study habits. It was also found out that 80% of the students come from a minimal-income threshold in which there is only a solitary bread-earner.
During interviews, most responses settled on the following (as ranked)
a) Have to do some home errands such as fetching water, taking care of poultry, swine and hogs and other related matters.
b) Have to attend to sari-sari stores until late hours in the evening.
c) Attended local disco activities in nearby sitios.
d) Viewed “teleseryes” on TV.




III. FORMULATION OF HYPOTHESIS
After a series of personal interviews and home visits, a notion to improve the performance of students in relation to their oral participation during classroom discussions must be ministered. It has been studied that a student could not practically assert on something if he has no insights on a particular topic, it is then that a distinct study groups shall be created and formed for the purpose.

IV. IMPLEMENTATION AND ACTION
Starting July 2005 - present through the collaboration of the parents, subject teachers and classroom officers , STUDY GROUPS were formed. These groups will meet every 4-5pm (MWF) and when the need arises in their respective classrooms with specified topics to review. Student leaders are designated to initiate the discussions and student- monitors to follow-up the attendance.
Topics provided will be in accordance to the recommendations of the subject teachers. Topics are merely centered on the least mastered topics of the week. Oral activities will also be provided for practice.

V. EVALUATION
Students are assisted to attend to their assignments and to get better grades. Tutorial sessions gave them the proper venue to practice their oral skills. Feedbacks from teachers pointed out that a better response to making experiments and board work are enhanced.
Oral skills are slowly practiced. Involvement in group activities has now find a slot in most of the students’ attention.

Water - Oratorical Piece

Listen to the cry of the distressed

Listen carefully and see. Water is there – frenetic, frantic, and desolate with the challenging cuff of life. Its compounds are inconsolably running in its anemic veins. Its soul’s voice cries out in distress as it looks at the melancholic state of its realm.

Listen! It is there. Crying out in toe-curling pain. It feels the sharp poke of the destruction that tears its importance. Its red-rimmed eyes roll up. In confusion and rage.

Listen to the cry of the troubled.

Look around you. Look at water. Its angst-ridden eyes mirrored the regrets it feels. Look at its composition, now a mass of rotting fluid which are dregs of sharpen arrows of selfish notions thrust unto it.

You see water could be a distinct personality. It could be a notable figure in the public, if you will let it be.

It could be a noteworthy provider if you will allow it to be.

Its chances to stay were selfishly taken away. Its rights to excel as a mighty contributor to life were unjustly abused by many selfish ambitions. Oh my! How venal people are, that they have exchange reverence to greediness.

Listen to water’s helpless cry.

You may have thought that it is nothing but a lifeless creation and excessive use will never matters.

Many continued to waste water. Many did not care to conserve.

Many think that water never depletes. Its abundance never ceases. But it does.

Water, had always wanted to be a puissant source to preserve life more than anything in this world. It is invincible and indomitable. It continuously aspired to be such.

Water is the major constituent of living matter. From 50 to 90 percent of the weight of living organisms is water.

Live without food, you will have thirty days. Live without water and you merely got four days. Lucidly, water is essential for man to survive.

Water resource reinforces diverse and valuable ecosystems. Not only is the availability of fresh water in itself vital to sustaining life, but it also supports lush vegetation and abundant insect life that form the base of the food chain.

Help conserve water! A trendy premise that calls for an action. An action that will bring change, transformation and make-over. A profound feat that will spell the difference.

Conservation conflicts arise when water shortages develop in the face of steadily increasing demands from a growing human population. Controversy frequently surrounds how water should be used, or allocated, and for whom.

The challenge of water conservation is to understand the complex connections of such and balance resource use with protection to ensure an adequate supply for future generations.

In order to accomplish this goal, a variety of conservation methods are used. These include reducing consumption of resources; protecting them from contamination or pollution and fully lend a hand to preserve a vital source of life.

The significance of water transcends survival. Hence, conservation and management requires a balanced approach, with us sharing the costs equitably in a partnership that recognizes the importance of water as a global natural resource.

We must show foresight, we must look ahead. As a unified people in the country, we not only enjoy a wonderful measure of present prosperity but we must think to sustain it.

We must look ahead, there must be a realization of the fact that to waste, to destroy, our water resources, to skin and exhaust the waterbeds instead of using it so as to increase its usefulness, will result in undermining in the days of the young generation the very prosperity which is ought by right to be handed down to them amplified and developed.

The conservation of our water resources is a subject which has had little attention; but it is so simple, so elementary, but many could not figure out its depth. That is the crux of the whole matter. We have been so busy getting rich, developing, and growing, so proud of our growth, that we have let things go on until some intolerable abuse has compelled immediate action to cut it off.

It is time that we put an end to this kind of opportunism, of mere drifting.

How much does it all matter? Friend…you may not dare to count the worse of the worst and even the better of the best but remember that you will come to realize how important water is to you when IT IS GONE.

Hello (Jazz Chant Piece)

Hello, who’s speaking?

This is Watt.

I’m sorry. What’s your name?

Yes, Watt’s my name.

Is this a joke? What is your name?

John Watt.

John What?

Yes. Look, who’s this?

Are you Jones?

No, I’m Knott.

Will you tell me who you are?

Will Knott.

Why not?

My name is Knott.

Not what?

You see, you need you need to pronounce to pronounce
WHAT?? the words well

Hey hey, you you
Let’s do some word games

Say the letter R with me
RRRRR superman,
RRRRR wonderwoman,
RRRRR batman

Batman? Its not letter R

Oh sorry then!




It was raining, raining, raining hard
It was falling on my head
It was falling on the stars
It was falling on my shoes
I got soaking wet,
I got soaking wet
But I stayed outside
I stayed outside
The rain was sweet
The rain was warm
The rain was soft reminded me of home
It was raining, raining,raining, raining hard
It was falling, falling, falling on the stars
It was raining, raining, raining hard
It was falling, falling, falling on the stars
Soft rain raining, raining
Sweet rain raining, raining
Warm rain raining, raining
Sweet soft raining, raining
Warm rain Raining, raining
Sweet soft raining, raining
Warm rain raining, raining






Lets do tongue twisting for fun.
Tongue twisting here, tongue twisting there
Go go go go

Betty bought a bit of butter but she found the butter bitter
Thousand thistles through the thick of his thumb
A cup of coffee in a copper coffer
Six mix sticks on the bricks
Pia peel pea pale pills

Say your words with a shhh
Hush, bush, smash, mash
Splash

Wake up wake up wake up
Let us exercise our tongues with an F
Fly fly fly fly
Flew flew flew
Flea flap flew…. Whew! Good!.

Let’s do some contrasts
Ben, Ben, I have a bin
I have a bin and its not a bane

Dane, Dane, go to the den
Go to the den and meet the dean.

Ir, ir Oh its an ear
Oh its for hearing
And different from her.

Gotcha! That’s it.





Tawo….. Ug ang Musika

Dunay usa ka tawo

Nga akong nakaila
Motugtog musika sa iyaha nga plawta.
Tootle….ootle….ootle oooot. Tootle ..ootle..oot.

Dunay lain nga tawo
Malipayon kayo
Motugtug sa iyang tuba
Matod pa sa istorya.
Oompah..oompah ompapah…ompah..oompapah.

Kalit nga miabot lain nga musikero
Siya adunay tambol
Nga dahunog kayo.
Boom… boom…boom..boom…boom…

Maayo! Ingon ang lain nga tawo
Motugtog siya ug cymbals
Sa tagming nga tukar.
Cling…cling….cling….. (4x )

Ug sila nag-uban
Pagtugtog ug musika
Sa dako nga kalipay
Natukod ang banda.
Tootle…ootle…ootle…oot
Ompah..ompah…ompapah….
Boom…boom…boom….boom…
Cling…cling…cling…cling…

Footprints for Tomorrow - Oratorical Piece

FOOTPRINTS OF TOMORROW


Have you ever dreamed of creating a masterpiece? You don’t think you have the talent? Well, you may not have Handel’s musical ingenuity or Michelangelo’s painting brushes, BUT you can create a masterpiece if you have the will.

The requisites maybe to pull off for a first-rate masterpiece is to have the audacity to take up the challenge and the yearning to cruise life’s waves.

Listen carefully and watch. People of different convictions splotch the sphere. They have created spots and they have crafted some marks. But the question is, to which spot shall we set our foot in?

Look around. The arena of life has offered a kaleidoscope. There are various ways to go and various options to choose from. There are many highways to follow. People tinkered on which way to go. They go left and others go right and others seem to be bothered what trail to follow. Some halted suddenly and some flicked on few false steps.

Coasting life’s pathways is not that easy. Everyone shall have to have the apt stamina to go on, to swerve and to move about. Sometimes we plunge on a quicksand and at times we lose our footing. Yet we need to bear on our minds that in every step we take, a responsibility is at stake.

We must be responsible of everything we do. We must not let conscience staged a barricade against our actuations. We must practice transparency. It is the very thing that will give us the opportune to move freely about.

Are you at ease when during a test, you roll your eyeballs to peep for answers? Are you not afraid that your eyes will catch some stress not because you treated yourself to a book to lecture notes study sessions but because you are gawking for answers from other’s test paper. It’s a shameful act, don’t you know that?





If we are true to ourselves and cuddle candor as part of our lifestyle, life is easy to live. Can you endure and even survive the stare of those inquisitive pairs of eyes, asking if you are telling the truth ? Will you not savor the taste of being victorious because you live comfortably… because honesty is your way of life ?

Many lose the opportunity to find the right track. Why? Could it be that they opted for it? or they are just victims of the disarray? Life offers many chances. A chance to ride on coat-tails, an opportune to leap and the luck to fix a map to point on the right way. All we need is to be honest to ourselves and thus, this honesty will point us where we must place ourselves in this society.

All of us are travelers, we are suiting the trails for the next generation. We are setting specks. Every track we pass through will be adhered by those next in line. So we have to choose the better trail. We must live in the limelight of no pretensions and rectitude.

Each step we make is but a crop of our own decision. Every time we bring our foot forward to advance for a pace, we then clasp the upshots. We discern, we plan, we decide and we press on.

Wide-ranging lanes are set before us. There are tapered lanes, which would indeed test our patience. Spacious lanes, which will check on our responsibility. Two-lanes that will then assess our judgment. Various thoroughfares, which way to go?

Life on earth has a complex pattern. It is a medley of manifold society. A society, which turns out to be the dwelling of multifaceted individuals with chalk and cheese personalities.

We may belong to different creeds. Others maybe wedging on a certain conviction and others are cleaving on another set of credence. But one thing is, we are putting our feet on the ground setting some footmarks. Thus, it is better for us to set some footprints which are not stained, bruised and impaired.

Uprightness, trustworthiness, decency and integrity - these will define a better tomorrow. These will be the bases for picking up the right colors to enhance illustration – that’s LIFE ahead of us.

Be Honest , even if others are not ; even if others will not ; even if others cannot. We should set the goals to achieve the heights of creating the masterpiece that we wanted to fashion.

The masterpiece that many wanted to craft. But yet, we must bear in mind, that what we are trying to carve now will depend much on our attitude. We must show foresight, we must look ahead. As a conscientious social essence, we must not only enjoy our own prosperity.

We must look ahead, there must be a realization of the fact that to waste, to destroy, to skin and exhaust our life with fraudulent living instead of enjoying its essence by living it with fairness and justice so as to increase the chances of fixing a better route, will result in undermining the days of the young generation to appreciate the virtue of honesty which is ought by right to be handed down to them amplified and developed .

If we wish to save some footprints losing the way, we should make a stand and set the goals. We must stand and pace with life with honesty on our hands . Is it a task too difficult for us to fulfill? Is it hard to be honest?

Be Honest , even if others are not ; even if others will not ; even if others cannot. Is this a premise hard to understand?