What is the capacity of the biogas power plant?

The biogas power plant has a capacity of 225 tons per day.

Where is the biogas power plant located?

It is located in Rayong Province, Thailand.

How much biogas can the plant produce daily?

The plant is designed to produce 15,000 normal cubic meters of biogas per day.

What is the primary composition of the produced biogas?

The biogas consists mainly of about 65% methane and 32.5% carbon dioxide.

How much electricity does the plant generate annually?

The plant can produce approximately 7.13 million kilowatt-hours of electricity per year.

What environmental benefits does the plant provide?

It reduces greenhouse gases by up to 46,000 tons of CO2 equivalent per year.

How is the operation of the plant controlled?

The operation is controlled by a PLC and SCADA system.

What happens to the leftover biogas?

The remaining biogas is delivered to a nearby factory for compost drying.

Who should be contacted for similar project inquiries?

Interested individuals should contact the project team as mentioned in the video description.

1 MW MSW biogas Power Plant by Bankai-Papop JV in Rayong, Thailand

00:06:57

https://www.youtube.com/watch?v=CT347xKk4As

Resumen

TLDRThis video presents the first full-scale biogas power plant in Thailand, located in Rayong, constructed to handle municipal solid waste. The facility processes 225 tons of waste daily and operates through three main stages: cleaning and shredding, biogas production, and electricity generation. The plant generates biogas through anaerobic digestion, producing about 15,000 normal cubic meters per day, leading to approximately 7.13 million kilowatt-hours of electricity annually. It also emphasizes reducing greenhouse gas emissions significantly and is controlled by a PLC and SCADA system.

Para llevar

🌱 First full-scale biogas power plant in Thailand
♻️ Processes 225 tons of waste per day
🔄 Three main processes: cleaning, digestion, electricity generation
💨 Produces 15,000 m³ of biogas daily
⚡ Generates approximately 7.13 million kWh of electricity annually
🌍 Reduces greenhouse gases by 46,000 tons CO2 equivalent
🛠️ Controlled by a PLC and SCADA system
📦 Remaining biogas used for compost drying
📞 Contact for similar project inquiries
👍 Encourages sharing and subscription for support

Cronología

00:00:00 - 00:06:57
Dr. Kong introduces the world's largest biogas power plant in Rayong, designed to process organic municipal solid waste (MSW) with a capacity of 225 tons per day. The plant has three main processes: cleaning and shredding, biogas production, and electricity generation. It starts with a loader bringing in feedstock for cleaning and shredding, utilizing a magnetic separator to remove metals, followed by screens to classify waste size. Larger debris is sent to landfills, while smaller materials undergo a series of shredding and screening to eliminate impurities before entering the anaerobic digestion phase, which converts organic matter into biogas primarily consisting of methane and carbon dioxide. The biogas is then cleaned of hydrogen sulfides and moisture, before powering a generator set capable of producing 1,000 kilowatts per hour. This fully closed system minimizes odor and contributes to reducing greenhouse gas emissions significantly, offering a sustainable solution for waste management and energy production.

Mapa mental

Vídeo de preguntas y respuestas

What is the capacity of the biogas power plant?
The biogas power plant has a capacity of 225 tons per day.
Where is the biogas power plant located?
It is located in Rayong Province, Thailand.
What are the main processes involved in the plant's operation?
The main processes are cleaning and shredding, biogas production, and electricity generation.
How much biogas can the plant produce daily?
The plant is designed to produce 15,000 normal cubic meters of biogas per day.
What is the primary composition of the produced biogas?
The biogas consists mainly of about 65% methane and 32.5% carbon dioxide.
How much electricity does the plant generate annually?
The plant can produce approximately 7.13 million kilowatt-hours of electricity per year.
What environmental benefits does the plant provide?
It reduces greenhouse gases by up to 46,000 tons of CO2 equivalent per year.
How is the operation of the plant controlled?
The operation is controlled by a PLC and SCADA system.
What happens to the leftover biogas?
The remaining biogas is delivered to a nearby factory for compost drying.
Who should be contacted for similar project inquiries?
Interested individuals should contact the project team as mentioned in the video description.

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Subtítulos

Desplazamiento automático:

00:00:00
hello and welcome to the pope channel
00:00:02
this is dr kong from papua in this video
00:00:06
i will show you the first full-scale and
00:00:08
largest biogas power plant using organic
00:00:11
fraction of municipal solid waste the
00:00:14
factory is located in the integrated msw
00:00:18
management center in rayong province
00:00:21
this factory was constructed by ban kai
00:00:23
purpub joint ranger the project has a
00:00:26
capacity of
00:00:28
225 tons per day
00:00:31
and is decided to receive the feedstock
00:00:34
from the nearby msw salting plants
00:00:37
without further ado let's dive in
00:00:46
[Music]
00:00:51
the project has three main processes
00:00:53
consisting of
00:00:55
first cleaning and trading process
00:00:57
second biogas production process and
00:01:00
third electricity generation process
00:01:08
the cleaning and trading process started
00:01:10
from the view loader taking a new
00:01:13
feedstock into the walking floor
00:01:20
this machine fit way slowly to the
00:01:22
downstream units so that it can be
00:01:25
cleaned and shredded effectively
00:01:30
to remove metals from the waste stream a
00:01:32
magnetic separator is applied
00:01:35
metals are non-biodegradable and can
00:01:38
cause clogging in the pipes and the
00:01:41
downstream processes so they must be
00:01:43
taken out
00:01:45
[Music]
00:01:48
the waste then enters this screen which
00:01:51
has
00:01:52
around 25 millimeter opening the waist
00:01:55
with the size larger than 25 millimeter
00:01:58
will be carried forward
00:02:00
and then out to the waist bunker before
00:02:02
disposal in the landfill
00:02:09
the waist with the size less than 25
00:02:12
millimeter will fall down to this screen
00:02:15
now it is ready for the extensive
00:02:17
shredding using the ball mill machine
00:02:20
waves will be slammed and shredded with
00:02:23
the wave of numerous metal balls while
00:02:26
this machine is continuously turning
00:02:29
the result is the slurry at the outlet
00:02:32
however we still have some impurity in
00:02:35
the ways so it needs another screening
00:02:38
step
00:02:39
using a vibrating screen this machine
00:02:42
has an opening of six millimeter the
00:02:45
larger parts will be sent out and
00:02:47
disposed in the landfill afterwards the
00:02:51
smaller parts will be delivered to the
00:02:54
sand and grid removal tank the purpose
00:02:57
of this process is to remove sand this
00:03:00
is done by slowly turning the waste
00:03:02
while keeping the organic content in
00:03:04
suspension
00:03:06
the clean slurry will then go to the
00:03:08
anaerobic digestion process which
00:03:10
consists of one acid tank and two
00:03:14
anaerobic digester tanks acid bacteria
00:03:17
converts large molecular organic matters
00:03:20
into smaller molecules which are
00:03:22
suitable for the following digestion
00:03:24
step the acid tank is installed in a
00:03:27
single layer membrane roof to control
00:03:29
any order
00:03:31
methanodians convert organic matters to
00:03:34
biogas which compose mainly of methane
00:03:38
and carbon dioxide gases the digestion
00:03:40
tanks are constructed of reinforced
00:03:43
concrete for the longer lifetime at the
00:03:46
top the double membrane roof are
00:03:48
installed at the side there are four
00:03:51
side entry mixers this process is
00:03:54
designed as a continuous third tank
00:03:56
reactor or cstr this kind of
00:03:59
configuration is suitable for high solid
00:04:01
content feedstock such as organic
00:04:03
fraction from fsw this whole plant is
00:04:06
designed to produce 15 000 normal cubic
00:04:09
meter per day of biogas before the
00:04:12
biogas is sent to the electricity
00:04:14
generation process it has to go through
00:04:17
biogas hydrogen sulfides properly this
00:04:20
is to remove harmful h2s gas
00:04:25
afterwards moisture will be removed with
00:04:28
the help of the biogas dryer
00:04:38
the analysis shows that the methane is
00:04:40
around 65 percent carbon dioxide is
00:04:43
around 32.5 percent oxygen at 0.5
00:04:47
percent and hydrogen sulfide is around 0
00:04:50
ppm this biogas is now ready to go to
00:04:53
the biogas generator set around 12 000
00:04:57
normal cubic meter per day will be
00:04:59
delivered to the biogas genset here it
00:05:01
has a capacity of around 1 000 kilowatts
00:05:05
per hour
00:05:06
and can produce around
00:05:08
7.13 million kilowatt hour per year now
00:05:11
you can see that the genset is operating
00:05:14
and the power output is around 800
00:05:16
kilowatts
00:05:19
the rest of the biogas around three
00:05:21
thousand normal cubic meter per day is
00:05:24
delivered to the nearby factory for
00:05:26
compost drying
00:05:32
all instrument and equipment are
00:05:34
controlled by plc and scada system
00:05:41
it is very simple to control the
00:05:43
operation and see the historical data
00:05:46
the scada system is written by pop-up
00:05:49
engineers to suit each project site
00:05:55
the benefits of this project are as
00:05:57
follows first this is an alternative and
00:06:00
suitable approach for msw disposal it
00:06:04
also minimizes the disturbing order from
00:06:07
the waste at the process is a fully
00:06:10
closed system secondly it can produce
00:06:13
electricity as a byproduct from
00:06:15
digestion earth it also reduces
00:06:18
greenhouse gases up to 46 000 tons
00:06:22
co2 equivalent per year when considering
00:06:26
only methane capture if you are
00:06:28
interested in applying this kind of
00:06:31
project to your own style or city
00:06:34
please contact us by seeing the
00:06:36
description below thank you for watching
00:06:39
this video if you like it please support
00:06:41
us by sharing or hitting the subscribe
00:06:44
button
00:06:45
bye for now and see you in the next
00:06:46
video
00:06:48
[Music]

Etiquetas

biogas
power plant
renewable energy
waste management
Thailand
sustainability
electricity generation
greenhouse gases
anaerobic digestion
environmental benefits