Monfort_Architectural and Environmental Design Portfolio

LANCE MONFORT Architectural and Environmental Design Portfolio

Patrick Lawrence P. Monfort plpmonfort@gmail.com https://www.linkedin.com/in/plpmonfort/ (+44) 7908 699 873

Master of Science Sustainable Environmental Design Architectural Association School of Architecture 2018 - 2019 Bachelor of Science in Architecture University of the Philippines - Diliman 2010 - 2015

Contents Balai-Hilom:

A Medical Wellness Complex for Philippine Fringe Healing Practices Bachelor’s Thesis

1

Exploring the alternative medical component of health and wellness tourism and how architecture can be used as an intervention to aid in the healing process

G - Residence

2

Professional Practice

Application of tropical design concepts on a residential building typology

Tropical Residences

3-4

Academic Work

Creating shared spaces for a stronger sense of community while introducing a system in urban design through an architectural intervention

UP Black Box Theatre

5-6

Academic Work

Designing a building with enough sensitivity to the aesthetics of the University of the Philippines - Diliman Campus’ cultural cluster and create a venue where the multiple stakeholders of the university can interact through the art of performance

AKABA

7-8

Professional Practice

Interior fit-out projects originating from the marriage of the ideas of modern lifestyle and cultural heritage

Sloped Village

9 - 10

Master’s Project

Making use of environmental parameters to inform architectural design where spatial elements of the buildings were optimized based on the interior space’s functional requirements

Designing for the Tropics: Activated Facades for High-rise Residential Building Typologies in Metro Manila, Philippines Master’s Dissertation

11 - 14

Deconstructing the framework in which tropical architecture operates in so to identify its parameters and work towards creating multiple design solutions that will address thermal comfort and building energy consumption issues

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DESIGNED BY:

ARCH 199.2

BALAI-HILOM: A Medical Wellness Complex for Philippine Fringe Healing Practices

"HIRAYA" SHEET CONTENTS: 1 SECOND FLOOR PLAN A-15

THESIS ADVISER: Arch. Gerard Joson THESIS FACULTY: Arch. Patrick Gozon EN OP

LOCATION: San Antonio, Zambales PROJECT PROPONENT: Municipality of San Antonio, Zambales

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SHEET NO.

THESIS TITLE:

PATRICK LAWRENCE P. MONFORT

University of the Philippines College of Architecture

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DESIGNED BY:

ARCH 199.2

University of the Philippines College of Architecture

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plpmonfort@gmail.com

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Scale: 1:200 M

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600X600 MM NON-SKID CERAMIC TILES

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600X600 MM GLAZED CERAMIC TILES

THESIS TITLE:

PATRICK LAWRENCE P. MONFORT

"HIRAYA" 1 ROOF PLAN A-18 SHEET CONTENTS:

SHEET NO.

BALAI-HILOM: A Medical Wellness Complex for Philippine Fringe Healing Practices

THESIS ADVISER: Arch. Gerard Joson THESIS FACULTY: Arch. Patrick Gozon

LOCATION: San Antonio, Zambales PROJECT PROPONENT: Municipality of San Antonio, Zambales

Scale: 1:200 M

A- 15 15 20

"HIRAYA" SECOND FLOOR PLAN

March 31, 2015 plpmonfort@gmail.com

W14X84 I-BEAM ON R.C. PEDESTAL

STEEL MEMBERS OF VARYING SIZES WELDED TO MAIN SUPPORTING I-BEAM

400X800 MM COATED WOODEN BEAM *BEAMS CONNECTING TO THE NGL ARE BOLTED ON 1200X1200 M REINFORCED CONCRETE PEDESTALS CASE STAIR W BELO

TWO LAYERS OF HIGHLY RESISTANTGLUE-LAMINATED TIMBER *WOOD FORMS A MESH/LATTICEWORK OF MODULAR ELEMENTS @ APPROX. 1 M FROM EACH OTHER WHICH FRAMES THE ROOF STRUCTURE

GREEN DEC K MOISTURE-RESISTANT WOOD SHAKES

2% SLOP E

DESIGNED BY:

ARCH 199.2

University of the Philippines College of Architecture

PATRICK LAWRENCE P. MONFORT THESIS ADVISER: Arch. Gerard Joson THESIS FACULTY: Arch. Patrick Gozon

300X600 MM COATED WOODEN INTERMEDIATE BEAM

SHEET NO.

THESIS TITLE:

BALAI-HILOM: A Medical Wellness Complex for Philippine Fringe Healing Practices LOCATION: San Antonio, Zambales PROJECT PROPONENT: Municipality of San Antonio, Zambales

SHEET CONTENTS: "HIRAYA" ROOF PLAN

A- 18 18 20 March 31, 2015 plpmonfort@gmail.com

Balai-Hilom:

A Medical Wellness Complex for Philippine Fringe Healing Practices

1

The design thesis aims to explore the alternative medical component of health and wellness tourism and how architecture can be used as an intervention to aid in the healing process. The study looks into various spatial theories on psychological wellness with the intent to translate these into architectural form.

G - Residence

(Project in collaboration with the office of Ar. Denise de Castro)

The G-Residence makes use of the major axes of the sun and micro-wind patterns to determine its plan orientations. Making use of tropical design elements, it is able to optimize the elements to work to its advantage. Brise soleils, fins, and pressure walls are a few of the elements used as part of its tropical design strategies.

2

3

es

c Tropical Residen

banism utilizes New Ur for a velopment which aces de sp g in ed ar us sh ho s w te ro rough an sidences is a e design crea The Tropical Re for its design approach. Th g a system in urban design thsign so as cin de gm l du di ca ra tro pi in in tro hile as a pa ates concepts of community w stronger sense rvention. It also strongly integr te in architectural context of the Philippines. to adapt to the 4

UP Black Box Theatre The UP Blackbox Theatre is a flexible performance space. The goal is to design a building with enough sensitivity to the aesthetics of the University of the Philippines - Diliman Campus’ cultural cluster and create a venue where the multiple stakeholders of the university can interact through the art of performance.

5

6

AKABA The design of the interior fit-outs of the AKABA stores originated from the marriage of the ideas of modern lifestyle and cultural heritage. It is derived from the advocacy of the brand and its intended contribution to the modern world. The very patterns of the weaves inspired the playful layout of the stores and even translated to the finishing of some surfaces.

7

8

9

Proposal_Shading

0

kWh/m2 Cooling Demand

1000

800 750

600

3030 25

500

400

2020 15

250

200

1010 5

0

June 18 Horizontal June Radiation 19 June 20 June 21 Radiation June 22 Global Diffused Horizontal Ventilation Flow Rate (ac/h)

30.0

25.0

Solar Radiation

kWh/m2 Heating Demand

5.005.00

20.0 20.00

16.00

4.004.00

15.0

12.00

3.003.00

8.00

kWh/m2 Cooling Demand

1.001.00 0.000.00

10.0

0

2.002.00

Jan

Jan

Feb

March

April

May

Feb March April

Mean Outdoor Air Temperature

June

July

5.0

August

May June July Aug Cooling Demand (kWh/sqm)

Sept

Sept

Oct

Oct

Cooling Demand

2.00

Heat Loss Coefficient

Heating Demand

0.50 0.50

0.50

0.25 0.25

0.25

0.00 0.00

0.00

-0.25 -0.25

-0.25

-0.50 -0.50

-0.50

-0.75 -0.75

Key Reference for Scatter Plot

Sloped Village

Dec

4.00

0.0 0.00

Dec

Energy Balance (kWh/sqm)

1.75

Nov

Nov

Heating Demand (kWh/sqm)

Winter_w/ Night Shutters + Reduced Ventilation 1.50

Comfort Band

Annual HVAC Demand <5 with Proposed Measures

Mean Outdor Air Temp.

20.0

0

June 23 Air Temperature June 24 Outdoor

[Base Case] Living Area Operative Temperature

Operative Temp.

Heating Demand (kWh/sqm)

Heating/Cooling Demand (kWh/sqm)

Outdor Air Temp.

Energy Balance (kWh/sqm)

Indoor Operative Temperature (°C)

0 0

Lighting

Lighting

Equipment

People

Equipment People

Infiltration

Ventilation

Infiltration Ventilation

Heat Losses (kWh/sqm)

Heat Gains

Heat Gains (kWh/sqm)

Outdoor Air Temperature (°C)

35.0

Temperature (°C)

Temperature (°C)

35

Radiation (W/sqm)

4040

Solar Radiation (W/sqm)

45

Opaque

Opaque Surfaces Surfaces

Glazed Glazed Surfaces

-0.75

Surfaces

Heat Losses

The project strongly makes use of environmental parameters to inform architectural design. Spatial elements of the buildings were optimized based on the interior space’s functional requirements. Through the study of the heat loss coefficients, the project was able to plot the performance of all residential units to inform the design how much treatment a specific part of the building needs.

10

Im

ag e

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Sim

ulation

i tS ed Dayligh

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Designing for the Tropics: The study aims to deconstruct the framework in which tropical architecture operates in so to identify its parameters and work towards creating multiple design solutions that will address the very issue. This study also looks into generative and parametric design to perform iterative studies to highlight the key criteria and main drivers that comprise tropical architecture. Through intensive sensitivity studies, these identified parameters will be extrapolated to create articulated morphologies which aim to reduce incident solar radiation on the building envelope through responsive and kinetic facades.

n

tio

ina

m Illu

Building Under Study

Activated Facades for High-rise Residential Building Typologies in Metro Manila, Philippines

11

tio n

Irradiation Mapping

putationa Com lF lu Insolation on Shading Device

id

ula

namics Dy

Insolation on Glazing

n

Vertical Sky Component Analysis

Irradiation Mapping

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na

mi

Illu

e-based

Wind Boundary Profile

Ima g

%

igh hing H es Dispatc diation Valu a Solar R

Irradiation Mapping

9m

9m

9m

6m

6m

6m

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12

The study made use of an algorithm that computes for the allowed monthly incident solar radiation as a function of the heat loss coefficient is created. This informs how a kinetic facade should respond to its environment based on both its outdoor and indoor conditions.

Approx. 550 kWh/sqm Target Annual Incident Solar Radiation on Building Facade for Fixed Shading Strategy

With Applied Shading

Base Conditions Radial Scatter Plot

A radial scatter plot visualizes the amount of incident solar radiation falling on a building’s glazed surfaces based on a specified context. In the diagram shown above and at the right, the geometries represent glazed surfaces and their corresponding incident solar radiation levels. This study gives an idea on which glazed surfaces need treatment. The same study can also be used to test how effective a shading strategy is based on a specific orientation.

13

Fitness Objective 1 Minimizing Surface Area

Fitness Objective 2 Maximize Daylight

Fitness Objective 3 Minimize Insolation

Standard Deviations

Evolutionary algorithms create multiple solutions based on specified parameters. Fitness objectives are set to inform the engine that certain parameters are to be modified so as to arrive at an optimal solution that balances contradicting spatial requirements. The study creates an opportunity to select from a multitude of solutions within a user-defined domain.

Multi-objective Evolutionary Algorithms

14